From 497dbd2e26c0c1a219ca4e1704adc5c5916966c5 Mon Sep 17 00:00:00 2001 From: Pcornat Date: Sun, 24 Jan 2021 21:05:11 +0100 Subject: [PATCH] Integration of simdjson --- CMakeLists.txt | 2 + config.json | 3 + include/simdjson.h | 40995 +++++++++++++++++++++++++++++++++++++++++++ src/simdjson.cpp | 11984 +++++++++++++ 4 files changed, 52984 insertions(+) create mode 100644 config.json create mode 100644 include/simdjson.h create mode 100644 src/simdjson.cpp diff --git a/CMakeLists.txt b/CMakeLists.txt index 6613e8f..6b26fb0 100644 --- a/CMakeLists.txt +++ b/CMakeLists.txt @@ -57,6 +57,8 @@ set(FILES include/information.hpp src/cache_files.cpp include/cache_files.hpp + src/simdjson.cpp + include/simdjson.h ) add_executable(GeminiServer ${FILES}) diff --git a/config.json b/config.json new file mode 100644 index 0000000..0e0dcd2 --- /dev/null +++ b/config.json @@ -0,0 +1,3 @@ +{ + +} \ No newline at end of file diff --git a/include/simdjson.h b/include/simdjson.h new file mode 100644 index 0000000..4e2fb08 --- /dev/null +++ b/include/simdjson.h @@ -0,0 +1,40995 @@ +/* auto-generated on 2021-01-20 13:20:49 -0500. Do not edit! */ +/* begin file include/simdjson.h */ +#ifndef SIMDJSON_H +#define SIMDJSON_H + +/** + * @mainpage + * + * Check the [README.md](https://github.com/lemire/simdjson/blob/master/README.md#simdjson--parsing-gigabytes-of-json-per-second). + * + * Sample code. See https://github.com/simdjson/simdjson/blob/master/doc/basics.md for more examples. + + #include "simdjson.h" + + int main(void) { + // load from `twitter.json` file: + simdjson::dom::parser parser; + simdjson::dom::element tweets = parser.load("twitter.json"); + std::cout << tweets["search_metadata"]["count"] << " results." << std::endl; + + // Parse and iterate through an array of objects + auto abstract_json = R"( [ + { "12345" : {"a":12.34, "b":56.78, "c": 9998877} }, + { "12545" : {"a":11.44, "b":12.78, "c": 11111111} } + ] )"_padded; + + for (simdjson::dom::object obj : parser.parse(abstract_json)) { + for(const auto& key_value : obj) { + cout << "key: " << key_value.key << " : "; + simdjson::dom::object innerobj = key_value.value; + cout << "a: " << double(innerobj["a"]) << ", "; + cout << "b: " << double(innerobj["b"]) << ", "; + cout << "c: " << int64_t(innerobj["c"]) << endl; + } + } + } + */ + +/* begin file include/simdjson/compiler_check.h */ +#ifndef SIMDJSON_COMPILER_CHECK_H +#define SIMDJSON_COMPILER_CHECK_H + +#ifndef __cplusplus +#error simdjson requires a C++ compiler +#endif + +#ifndef SIMDJSON_CPLUSPLUS +#if defined(_MSVC_LANG) && !defined(__clang__) +#define SIMDJSON_CPLUSPLUS (_MSC_VER == 1900 ? 201103L : _MSVC_LANG) +#else +#define SIMDJSON_CPLUSPLUS __cplusplus +#endif +#endif + +// C++ 17 +#if !defined(SIMDJSON_CPLUSPLUS17) && (SIMDJSON_CPLUSPLUS >= 201703L) +#define SIMDJSON_CPLUSPLUS17 1 +#endif + +// C++ 14 +#if !defined(SIMDJSON_CPLUSPLUS14) && (SIMDJSON_CPLUSPLUS >= 201402L) +#define SIMDJSON_CPLUSPLUS14 1 +#endif + +// C++ 11 +#if !defined(SIMDJSON_CPLUSPLUS11) && (SIMDJSON_CPLUSPLUS >= 201103L) +#define SIMDJSON_CPLUSPLUS11 1 +#endif + +#ifndef SIMDJSON_CPLUSPLUS11 +#error simdjson requires a compiler compliant with the C++11 standard +#endif + +#endif // SIMDJSON_COMPILER_CHECK_H +/* end file include/simdjson/compiler_check.h */ +/* begin file include/simdjson/common_defs.h */ +#ifndef SIMDJSON_COMMON_DEFS_H +#define SIMDJSON_COMMON_DEFS_H + +#include +/* begin file include/simdjson/portability.h */ +#ifndef SIMDJSON_PORTABILITY_H +#define SIMDJSON_PORTABILITY_H + +#include +#include +#include +#include +#include +#ifndef _WIN32 +// strcasecmp, strncasecmp +#include +#endif + +#ifdef _MSC_VER +#define SIMDJSON_VISUAL_STUDIO 1 +/** + * We want to differentiate carefully between + * clang under visual studio and regular visual + * studio. + * + * Under clang for Windows, we enable: + * * target pragmas so that part and only part of the + * code gets compiled for advanced instructions. + * + */ +#ifdef __clang__ +// clang under visual studio +#define SIMDJSON_CLANG_VISUAL_STUDIO 1 +#else +// just regular visual studio (best guess) +#define SIMDJSON_REGULAR_VISUAL_STUDIO 1 +#endif // __clang__ +#endif // _MSC_VER + +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO +// https://en.wikipedia.org/wiki/C_alternative_tokens +// This header should have no effect, except maybe +// under Visual Studio. +#include +#endif + +#if defined(__x86_64__) || defined(_M_AMD64) +#define SIMDJSON_IS_X86_64 1 +#elif defined(__aarch64__) || defined(_M_ARM64) +#define SIMDJSON_IS_ARM64 1 +#elif defined(__PPC64__) || defined(_M_PPC64) +#define SIMDJSON_IS_PPC64 1 +#else +#define SIMDJSON_IS_32BITS 1 + +// We do not support 32-bit platforms, but it can be +// handy to identify them. +#if defined(_M_IX86) || defined(__i386__) +#define SIMDJSON_IS_X86_32BITS 1 +#elif defined(__arm__) || defined(_M_ARM) +#define SIMDJSON_IS_ARM_32BITS 1 +#elif defined(__PPC__) || defined(_M_PPC) +#define SIMDJSON_IS_PPC_32BITS 1 +#endif + +#endif // defined(__x86_64__) || defined(_M_AMD64) + +#ifdef SIMDJSON_IS_32BITS +#ifndef SIMDJSON_NO_PORTABILITY_WARNING +#pragma message("The simdjson library is designed \ +for 64-bit processors and it seems that you are not \ +compiling for a known 64-bit platform. All fast kernels \ +will be disabled and performance may be poor. Please \ +use a 64-bit target such as x64, 64-bit ARM or 64-bit PPC.") +#endif // SIMDJSON_NO_PORTABILITY_WARNING +#endif // SIMDJSON_IS_32BITS + +// this is almost standard? +#undef STRINGIFY_IMPLEMENTATION_ +#undef STRINGIFY +#define STRINGIFY_IMPLEMENTATION_(a) #a +#define STRINGIFY(a) STRINGIFY_IMPLEMENTATION_(a) + +// Our fast kernels require 64-bit systems. +// +// On 32-bit x86, we lack 64-bit popcnt, lzcnt, blsr instructions. +// Furthermore, the number of SIMD registers is reduced. +// +// On 32-bit ARM, we would have smaller registers. +// +// The simdjson users should still have the fallback kernel. It is +// slower, but it should run everywhere. + +// +// Enable valid runtime implementations, and select SIMDJSON_BUILTIN_IMPLEMENTATION +// + +// We are going to use runtime dispatch. +#ifdef SIMDJSON_IS_X86_64 +#ifdef __clang__ +// clang does not have GCC push pop +// warning: clang attribute push can't be used within a namespace in clang up +// til 8.0 so SIMDJSON_TARGET_REGION and SIMDJSON_UNTARGET_REGION must be *outside* of a +// namespace. +#define SIMDJSON_TARGET_REGION(T) \ + _Pragma(STRINGIFY( \ + clang attribute push(__attribute__((target(T))), apply_to = function))) +#define SIMDJSON_UNTARGET_REGION _Pragma("clang attribute pop") +#elif defined(__GNUC__) +// GCC is easier +#define SIMDJSON_TARGET_REGION(T) \ + _Pragma("GCC push_options") _Pragma(STRINGIFY(GCC target(T))) +#define SIMDJSON_UNTARGET_REGION _Pragma("GCC pop_options") +#endif // clang then gcc + +#endif // x86 + +// Default target region macros don't do anything. +#ifndef SIMDJSON_TARGET_REGION +#define SIMDJSON_TARGET_REGION(T) +#define SIMDJSON_UNTARGET_REGION +#endif + +// Is threading enabled? +#if defined(_REENTRANT) || defined(_MT) +#ifndef SIMDJSON_THREADS_ENABLED +#define SIMDJSON_THREADS_ENABLED +#endif +#endif + +// workaround for large stack sizes under -O0. +// https://github.com/simdjson/simdjson/issues/691 +#ifdef __APPLE__ +#ifndef __OPTIMIZE__ +// Apple systems have small stack sizes in secondary threads. +// Lack of compiler optimization may generate high stack usage. +// Users may want to disable threads for safety, but only when +// in debug mode which we detect by the fact that the __OPTIMIZE__ +// macro is not defined. +#undef SIMDJSON_THREADS_ENABLED +#endif +#endif + + +#if defined(__clang__) +#define NO_SANITIZE_UNDEFINED __attribute__((no_sanitize("undefined"))) +#elif defined(__GNUC__) +#define NO_SANITIZE_UNDEFINED __attribute__((no_sanitize_undefined)) +#else +#define NO_SANITIZE_UNDEFINED +#endif + +#ifdef SIMDJSON_VISUAL_STUDIO +// This is one case where we do not distinguish between +// regular visual studio and clang under visual studio. +// clang under Windows has _stricmp (like visual studio) but not strcasecmp (as clang normally has) +#define simdjson_strcasecmp _stricmp +#define simdjson_strncasecmp _strnicmp +#else +// The strcasecmp, strncasecmp, and strcasestr functions do not work with multibyte strings (e.g. UTF-8). +// So they are only useful for ASCII in our context. +// https://www.gnu.org/software/libunistring/manual/libunistring.html#char-_002a-strings +#define simdjson_strcasecmp strcasecmp +#define simdjson_strncasecmp strncasecmp +#endif + +#ifdef NDEBUG + +#ifdef SIMDJSON_VISUAL_STUDIO +#define SIMDJSON_UNREACHABLE() __assume(0) +#define SIMDJSON_ASSUME(COND) __assume(COND) +#else +#define SIMDJSON_UNREACHABLE() __builtin_unreachable(); +#define SIMDJSON_ASSUME(COND) do { if (!(COND)) __builtin_unreachable(); } while (0) +#endif + +#else // NDEBUG + +#define SIMDJSON_UNREACHABLE() assert(0); +#define SIMDJSON_ASSUME(COND) assert(COND) + +#endif + +#endif // SIMDJSON_PORTABILITY_H +/* end file include/simdjson/portability.h */ + +namespace simdjson { + +namespace internal { +/** + * @private + * Our own implementation of the C++17 to_chars function. + * Defined in src/to_chars + */ +char *to_chars(char *first, const char *last, double value); +/** + * @private + * A number parsing routine. + * Defined in src/from_chars + */ +double from_chars(const char *first) noexcept; +} + +#ifndef SIMDJSON_EXCEPTIONS +#if __cpp_exceptions +#define SIMDJSON_EXCEPTIONS 1 +#else +#define SIMDJSON_EXCEPTIONS 0 +#endif +#endif + +/** The maximum document size supported by simdjson. */ +constexpr size_t SIMDJSON_MAXSIZE_BYTES = 0xFFFFFFFF; + +/** + * The amount of padding needed in a buffer to parse JSON. + * + * the input buf should be readable up to buf + SIMDJSON_PADDING + * this is a stopgap; there should be a better description of the + * main loop and its behavior that abstracts over this + * See https://github.com/lemire/simdjson/issues/174 + */ +constexpr size_t SIMDJSON_PADDING = 32; + +/** + * By default, simdjson supports this many nested objects and arrays. + * + * This is the default for parser::max_depth(). + */ +constexpr size_t DEFAULT_MAX_DEPTH = 1024; + +} // namespace simdjson + +#if defined(__GNUC__) + // Marks a block with a name so that MCA analysis can see it. + #define SIMDJSON_BEGIN_DEBUG_BLOCK(name) __asm volatile("# LLVM-MCA-BEGIN " #name); + #define SIMDJSON_END_DEBUG_BLOCK(name) __asm volatile("# LLVM-MCA-END " #name); + #define SIMDJSON_DEBUG_BLOCK(name, block) BEGIN_DEBUG_BLOCK(name); block; END_DEBUG_BLOCK(name); +#else + #define SIMDJSON_BEGIN_DEBUG_BLOCK(name) + #define SIMDJSON_END_DEBUG_BLOCK(name) + #define SIMDJSON_DEBUG_BLOCK(name, block) +#endif + +// Align to N-byte boundary +#define SIMDJSON_ROUNDUP_N(a, n) (((a) + ((n)-1)) & ~((n)-1)) +#define SIMDJSON_ROUNDDOWN_N(a, n) ((a) & ~((n)-1)) + +#define SIMDJSON_ISALIGNED_N(ptr, n) (((uintptr_t)(ptr) & ((n)-1)) == 0) + +#if defined(SIMDJSON_REGULAR_VISUAL_STUDIO) + + #define simdjson_really_inline __forceinline + #define simdjson_never_inline __declspec(noinline) + + #define simdjson_unused + #define simdjson_warn_unused + + #ifndef simdjson_likely + #define simdjson_likely(x) x + #endif + #ifndef simdjson_unlikely + #define simdjson_unlikely(x) x + #endif + + #define SIMDJSON_PUSH_DISABLE_WARNINGS __pragma(warning( push )) + #define SIMDJSON_PUSH_DISABLE_ALL_WARNINGS __pragma(warning( push, 0 )) + #define SIMDJSON_DISABLE_VS_WARNING(WARNING_NUMBER) __pragma(warning( disable : WARNING_NUMBER )) + // Get rid of Intellisense-only warnings (Code Analysis) + // Though __has_include is C++17, it is supported in Visual Studio 2017 or better (_MSC_VER>=1910). + #ifdef __has_include + #if __has_include() + #include + #define SIMDJSON_DISABLE_UNDESIRED_WARNINGS SIMDJSON_DISABLE_VS_WARNING(ALL_CPPCORECHECK_WARNINGS) + #endif + #endif + + #ifndef SIMDJSON_DISABLE_UNDESIRED_WARNINGS + #define SIMDJSON_DISABLE_UNDESIRED_WARNINGS + #endif + + #define SIMDJSON_DISABLE_DEPRECATED_WARNING SIMDJSON_DISABLE_VS_WARNING(4996) + #define SIMDJSON_DISABLE_STRICT_OVERFLOW_WARNING + #define SIMDJSON_POP_DISABLE_WARNINGS __pragma(warning( pop )) + +#else // SIMDJSON_REGULAR_VISUAL_STUDIO + + #define simdjson_really_inline inline __attribute__((always_inline)) + #define simdjson_never_inline inline __attribute__((noinline)) + + #define simdjson_unused __attribute__((unused)) + #define simdjson_warn_unused __attribute__((warn_unused_result)) + + #ifndef simdjson_likely + #define simdjson_likely(x) __builtin_expect(!!(x), 1) + #endif + #ifndef simdjson_unlikely + #define simdjson_unlikely(x) __builtin_expect(!!(x), 0) + #endif + + #define SIMDJSON_PUSH_DISABLE_WARNINGS _Pragma("GCC diagnostic push") + // gcc doesn't seem to disable all warnings with all and extra, add warnings here as necessary + #define SIMDJSON_PUSH_DISABLE_ALL_WARNINGS SIMDJSON_PUSH_DISABLE_WARNINGS \ + SIMDJSON_DISABLE_GCC_WARNING(-Weffc++) \ + SIMDJSON_DISABLE_GCC_WARNING(-Wall) \ + SIMDJSON_DISABLE_GCC_WARNING(-Wconversion) \ + SIMDJSON_DISABLE_GCC_WARNING(-Wextra) \ + SIMDJSON_DISABLE_GCC_WARNING(-Wattributes) \ + SIMDJSON_DISABLE_GCC_WARNING(-Wimplicit-fallthrough) \ + SIMDJSON_DISABLE_GCC_WARNING(-Wnon-virtual-dtor) \ + SIMDJSON_DISABLE_GCC_WARNING(-Wreturn-type) \ + SIMDJSON_DISABLE_GCC_WARNING(-Wshadow) \ + SIMDJSON_DISABLE_GCC_WARNING(-Wunused-parameter) \ + SIMDJSON_DISABLE_GCC_WARNING(-Wunused-variable) + #define SIMDJSON_PRAGMA(P) _Pragma(#P) + #define SIMDJSON_DISABLE_GCC_WARNING(WARNING) SIMDJSON_PRAGMA(GCC diagnostic ignored #WARNING) + #if defined(SIMDJSON_CLANG_VISUAL_STUDIO) + #define SIMDJSON_DISABLE_UNDESIRED_WARNINGS SIMDJSON_DISABLE_GCC_WARNING(-Wmicrosoft-include) + #else + #define SIMDJSON_DISABLE_UNDESIRED_WARNINGS + #endif + #define SIMDJSON_DISABLE_DEPRECATED_WARNING SIMDJSON_DISABLE_GCC_WARNING(-Wdeprecated-declarations) + #define SIMDJSON_DISABLE_STRICT_OVERFLOW_WARNING SIMDJSON_DISABLE_GCC_WARNING(-Wstrict-overflow) + #define SIMDJSON_POP_DISABLE_WARNINGS _Pragma("GCC diagnostic pop") + + + +#endif // MSC_VER + +#if defined(SIMDJSON_VISUAL_STUDIO) + /** + * It does not matter here whether you are using + * the regular visual studio or clang under visual + * studio. + */ + #if SIMDJSON_USING_LIBRARY + #define SIMDJSON_DLLIMPORTEXPORT __declspec(dllimport) + #else + #define SIMDJSON_DLLIMPORTEXPORT __declspec(dllexport) + #endif +#else + #define SIMDJSON_DLLIMPORTEXPORT +#endif + +// C++17 requires string_view. +#if SIMDJSON_CPLUSPLUS17 +#define SIMDJSON_HAS_STRING_VIEW +#endif + +// This macro (__cpp_lib_string_view) has to be defined +// for C++17 and better, but if it is otherwise defined, +// we are going to assume that string_view is available +// even if we do not have C++17 support. +#ifdef __cpp_lib_string_view +#define SIMDJSON_HAS_STRING_VIEW +#endif + +// Some systems have string_view even if we do not have C++17 support, +// and even if __cpp_lib_string_view is undefined, it is the case +// with Apple clang version 11. +// We must handle it. *This is important.* +#ifndef SIMDJSON_HAS_STRING_VIEW +#if defined __has_include +// do not combine the next #if with the previous one (unsafe) +#if __has_include () +// now it is safe to trigger the include +#include // though the file is there, it does not follow that we got the implementation +#if defined(_LIBCPP_STRING_VIEW) +// Ah! So we under libc++ which under its Library Fundamentals Technical Specification, which preceeded C++17, +// included string_view. +// This means that we have string_view *even though* we may not have C++17. +#define SIMDJSON_HAS_STRING_VIEW +#endif // _LIBCPP_STRING_VIEW +#endif // __has_include () +#endif // defined __has_include +#endif // def SIMDJSON_HAS_STRING_VIEW +// end of complicated but important routine to try to detect string_view. + +// +// Backfill std::string_view using nonstd::string_view on systems where +// we expect that string_view is missing. Important: if we get this wrong, +// we will end up with two string_view definitions and potential trouble. +// That is why we work so hard above to avoid it. +// +#ifndef SIMDJSON_HAS_STRING_VIEW +SIMDJSON_PUSH_DISABLE_ALL_WARNINGS +/* begin file include/simdjson/nonstd/string_view.hpp */ +// Copyright 2017-2019 by Martin Moene +// +// string-view lite, a C++17-like string_view for C++98 and later. +// For more information see https://github.com/martinmoene/string-view-lite +// +// Distributed under the Boost Software License, Version 1.0. +// (See accompanying file LICENSE.txt or copy at http://www.boost.org/LICENSE_1_0.txt) + +#pragma once + +#ifndef NONSTD_SV_LITE_H_INCLUDED +#define NONSTD_SV_LITE_H_INCLUDED + +#define string_view_lite_MAJOR 1 +#define string_view_lite_MINOR 4 +#define string_view_lite_PATCH 0 + +#define string_view_lite_VERSION nssv_STRINGIFY(string_view_lite_MAJOR) "." nssv_STRINGIFY(string_view_lite_MINOR) "." nssv_STRINGIFY(string_view_lite_PATCH) + +#define nssv_STRINGIFY( x ) nssv_STRINGIFY_( x ) +#define nssv_STRINGIFY_( x ) #x + +// string-view lite configuration: + +#define nssv_STRING_VIEW_DEFAULT 0 +#define nssv_STRING_VIEW_NONSTD 1 +#define nssv_STRING_VIEW_STD 2 + +#if !defined( nssv_CONFIG_SELECT_STRING_VIEW ) +# define nssv_CONFIG_SELECT_STRING_VIEW ( nssv_HAVE_STD_STRING_VIEW ? nssv_STRING_VIEW_STD : nssv_STRING_VIEW_NONSTD ) +#endif + +#if defined( nssv_CONFIG_SELECT_STD_STRING_VIEW ) || defined( nssv_CONFIG_SELECT_NONSTD_STRING_VIEW ) +# error nssv_CONFIG_SELECT_STD_STRING_VIEW and nssv_CONFIG_SELECT_NONSTD_STRING_VIEW are deprecated and removed, please use nssv_CONFIG_SELECT_STRING_VIEW=nssv_STRING_VIEW_... +#endif + +#ifndef nssv_CONFIG_STD_SV_OPERATOR +# define nssv_CONFIG_STD_SV_OPERATOR 0 +#endif + +#ifndef nssv_CONFIG_USR_SV_OPERATOR +# define nssv_CONFIG_USR_SV_OPERATOR 1 +#endif + +#ifdef nssv_CONFIG_CONVERSION_STD_STRING +# define nssv_CONFIG_CONVERSION_STD_STRING_CLASS_METHODS nssv_CONFIG_CONVERSION_STD_STRING +# define nssv_CONFIG_CONVERSION_STD_STRING_FREE_FUNCTIONS nssv_CONFIG_CONVERSION_STD_STRING +#endif + +#ifndef nssv_CONFIG_CONVERSION_STD_STRING_CLASS_METHODS +# define nssv_CONFIG_CONVERSION_STD_STRING_CLASS_METHODS 1 +#endif + +#ifndef nssv_CONFIG_CONVERSION_STD_STRING_FREE_FUNCTIONS +# define nssv_CONFIG_CONVERSION_STD_STRING_FREE_FUNCTIONS 1 +#endif + +// Control presence of exception handling (try and auto discover): + +#ifndef nssv_CONFIG_NO_EXCEPTIONS +# if defined(__cpp_exceptions) || defined(__EXCEPTIONS) || defined(_CPPUNWIND) +# define nssv_CONFIG_NO_EXCEPTIONS 0 +# else +# define nssv_CONFIG_NO_EXCEPTIONS 1 +# endif +#endif + +// C++ language version detection (C++20 is speculative): +// Note: VC14.0/1900 (VS2015) lacks too much from C++14. + +#ifndef nssv_CPLUSPLUS +# if defined(_MSVC_LANG ) && !defined(__clang__) +# define nssv_CPLUSPLUS (_MSC_VER == 1900 ? 201103L : _MSVC_LANG ) +# else +# define nssv_CPLUSPLUS __cplusplus +# endif +#endif + +#define nssv_CPP98_OR_GREATER ( nssv_CPLUSPLUS >= 199711L ) +#define nssv_CPP11_OR_GREATER ( nssv_CPLUSPLUS >= 201103L ) +#define nssv_CPP11_OR_GREATER_ ( nssv_CPLUSPLUS >= 201103L ) +#define nssv_CPP14_OR_GREATER ( nssv_CPLUSPLUS >= 201402L ) +#define nssv_CPP17_OR_GREATER ( nssv_CPLUSPLUS >= 201703L ) +#define nssv_CPP20_OR_GREATER ( nssv_CPLUSPLUS >= 202000L ) + +// use C++17 std::string_view if available and requested: + +#if nssv_CPP17_OR_GREATER && defined(__has_include ) +# if __has_include( ) +# define nssv_HAVE_STD_STRING_VIEW 1 +# else +# define nssv_HAVE_STD_STRING_VIEW 0 +# endif +#else +# define nssv_HAVE_STD_STRING_VIEW 0 +#endif + +#define nssv_USES_STD_STRING_VIEW ( (nssv_CONFIG_SELECT_STRING_VIEW == nssv_STRING_VIEW_STD) || ((nssv_CONFIG_SELECT_STRING_VIEW == nssv_STRING_VIEW_DEFAULT) && nssv_HAVE_STD_STRING_VIEW) ) + +#define nssv_HAVE_STARTS_WITH ( nssv_CPP20_OR_GREATER || !nssv_USES_STD_STRING_VIEW ) +#define nssv_HAVE_ENDS_WITH nssv_HAVE_STARTS_WITH + +// +// Use C++17 std::string_view: +// + +#if nssv_USES_STD_STRING_VIEW + +#include + +// Extensions for std::string: + +#if nssv_CONFIG_CONVERSION_STD_STRING_FREE_FUNCTIONS + +namespace nonstd { + +template< class CharT, class Traits, class Allocator = std::allocator > +std::basic_string +to_string( std::basic_string_view v, Allocator const & a = Allocator() ) +{ + return std::basic_string( v.begin(), v.end(), a ); +} + +template< class CharT, class Traits, class Allocator > +std::basic_string_view +to_string_view( std::basic_string const & s ) +{ + return std::basic_string_view( s.data(), s.size() ); +} + +// Literal operators sv and _sv: + +#if nssv_CONFIG_STD_SV_OPERATOR + +using namespace std::literals::string_view_literals; + +#endif + +#if nssv_CONFIG_USR_SV_OPERATOR + +inline namespace literals { +inline namespace string_view_literals { + + +constexpr std::string_view operator "" _sv( const char* str, size_t len ) noexcept // (1) +{ + return std::string_view{ str, len }; +} + +constexpr std::u16string_view operator "" _sv( const char16_t* str, size_t len ) noexcept // (2) +{ + return std::u16string_view{ str, len }; +} + +constexpr std::u32string_view operator "" _sv( const char32_t* str, size_t len ) noexcept // (3) +{ + return std::u32string_view{ str, len }; +} + +constexpr std::wstring_view operator "" _sv( const wchar_t* str, size_t len ) noexcept // (4) +{ + return std::wstring_view{ str, len }; +} + +}} // namespace literals::string_view_literals + +#endif // nssv_CONFIG_USR_SV_OPERATOR + +} // namespace nonstd + +#endif // nssv_CONFIG_CONVERSION_STD_STRING_FREE_FUNCTIONS + +namespace nonstd { + +using std::string_view; +using std::wstring_view; +using std::u16string_view; +using std::u32string_view; +using std::basic_string_view; + +// literal "sv" and "_sv", see above + +using std::operator==; +using std::operator!=; +using std::operator<; +using std::operator<=; +using std::operator>; +using std::operator>=; + +using std::operator<<; + +} // namespace nonstd + +#else // nssv_HAVE_STD_STRING_VIEW + +// +// Before C++17: use string_view lite: +// + +// Compiler versions: +// +// MSVC++ 6.0 _MSC_VER == 1200 nssv_COMPILER_MSVC_VERSION == 60 (Visual Studio 6.0) +// MSVC++ 7.0 _MSC_VER == 1300 nssv_COMPILER_MSVC_VERSION == 70 (Visual Studio .NET 2002) +// MSVC++ 7.1 _MSC_VER == 1310 nssv_COMPILER_MSVC_VERSION == 71 (Visual Studio .NET 2003) +// MSVC++ 8.0 _MSC_VER == 1400 nssv_COMPILER_MSVC_VERSION == 80 (Visual Studio 2005) +// MSVC++ 9.0 _MSC_VER == 1500 nssv_COMPILER_MSVC_VERSION == 90 (Visual Studio 2008) +// MSVC++ 10.0 _MSC_VER == 1600 nssv_COMPILER_MSVC_VERSION == 100 (Visual Studio 2010) +// MSVC++ 11.0 _MSC_VER == 1700 nssv_COMPILER_MSVC_VERSION == 110 (Visual Studio 2012) +// MSVC++ 12.0 _MSC_VER == 1800 nssv_COMPILER_MSVC_VERSION == 120 (Visual Studio 2013) +// MSVC++ 14.0 _MSC_VER == 1900 nssv_COMPILER_MSVC_VERSION == 140 (Visual Studio 2015) +// MSVC++ 14.1 _MSC_VER >= 1910 nssv_COMPILER_MSVC_VERSION == 141 (Visual Studio 2017) +// MSVC++ 14.2 _MSC_VER >= 1920 nssv_COMPILER_MSVC_VERSION == 142 (Visual Studio 2019) + +#if defined(_MSC_VER ) && !defined(__clang__) +# define nssv_COMPILER_MSVC_VER (_MSC_VER ) +# define nssv_COMPILER_MSVC_VERSION (_MSC_VER / 10 - 10 * ( 5 + (_MSC_VER < 1900 ) ) ) +#else +# define nssv_COMPILER_MSVC_VER 0 +# define nssv_COMPILER_MSVC_VERSION 0 +#endif + +#define nssv_COMPILER_VERSION( major, minor, patch ) ( 10 * ( 10 * (major) + (minor) ) + (patch) ) + +#if defined(__clang__) +# define nssv_COMPILER_CLANG_VERSION nssv_COMPILER_VERSION(__clang_major__, __clang_minor__, __clang_patchlevel__) +#else +# define nssv_COMPILER_CLANG_VERSION 0 +#endif + +#if defined(__GNUC__) && !defined(__clang__) +# define nssv_COMPILER_GNUC_VERSION nssv_COMPILER_VERSION(__GNUC__, __GNUC_MINOR__, __GNUC_PATCHLEVEL__) +#else +# define nssv_COMPILER_GNUC_VERSION 0 +#endif + +// half-open range [lo..hi): +#define nssv_BETWEEN( v, lo, hi ) ( (lo) <= (v) && (v) < (hi) ) + +// Presence of language and library features: + +#ifdef _HAS_CPP0X +# define nssv_HAS_CPP0X _HAS_CPP0X +#else +# define nssv_HAS_CPP0X 0 +#endif + +// Unless defined otherwise below, consider VC14 as C++11 for variant-lite: + +#if nssv_COMPILER_MSVC_VER >= 1900 +# undef nssv_CPP11_OR_GREATER +# define nssv_CPP11_OR_GREATER 1 +#endif + +#define nssv_CPP11_90 (nssv_CPP11_OR_GREATER_ || nssv_COMPILER_MSVC_VER >= 1500) +#define nssv_CPP11_100 (nssv_CPP11_OR_GREATER_ || nssv_COMPILER_MSVC_VER >= 1600) +#define nssv_CPP11_110 (nssv_CPP11_OR_GREATER_ || nssv_COMPILER_MSVC_VER >= 1700) +#define nssv_CPP11_120 (nssv_CPP11_OR_GREATER_ || nssv_COMPILER_MSVC_VER >= 1800) +#define nssv_CPP11_140 (nssv_CPP11_OR_GREATER_ || nssv_COMPILER_MSVC_VER >= 1900) +#define nssv_CPP11_141 (nssv_CPP11_OR_GREATER_ || nssv_COMPILER_MSVC_VER >= 1910) + +#define nssv_CPP14_000 (nssv_CPP14_OR_GREATER) +#define nssv_CPP17_000 (nssv_CPP17_OR_GREATER) + +// Presence of C++11 language features: + +#define nssv_HAVE_CONSTEXPR_11 nssv_CPP11_140 +#define nssv_HAVE_EXPLICIT_CONVERSION nssv_CPP11_140 +#define nssv_HAVE_INLINE_NAMESPACE nssv_CPP11_140 +#define nssv_HAVE_NOEXCEPT nssv_CPP11_140 +#define nssv_HAVE_NULLPTR nssv_CPP11_100 +#define nssv_HAVE_REF_QUALIFIER nssv_CPP11_140 +#define nssv_HAVE_UNICODE_LITERALS nssv_CPP11_140 +#define nssv_HAVE_USER_DEFINED_LITERALS nssv_CPP11_140 +#define nssv_HAVE_WCHAR16_T nssv_CPP11_100 +#define nssv_HAVE_WCHAR32_T nssv_CPP11_100 + +#if ! ( ( nssv_CPP11_OR_GREATER && nssv_COMPILER_CLANG_VERSION ) || nssv_BETWEEN( nssv_COMPILER_CLANG_VERSION, 300, 400 ) ) +# define nssv_HAVE_STD_DEFINED_LITERALS nssv_CPP11_140 +#else +# define nssv_HAVE_STD_DEFINED_LITERALS 0 +#endif + +// Presence of C++14 language features: + +#define nssv_HAVE_CONSTEXPR_14 nssv_CPP14_000 + +// Presence of C++17 language features: + +#define nssv_HAVE_NODISCARD nssv_CPP17_000 + +// Presence of C++ library features: + +#define nssv_HAVE_STD_HASH nssv_CPP11_120 + +// C++ feature usage: + +#if nssv_HAVE_CONSTEXPR_11 +# define nssv_constexpr constexpr +#else +# define nssv_constexpr /*constexpr*/ +#endif + +#if nssv_HAVE_CONSTEXPR_14 +# define nssv_constexpr14 constexpr +#else +# define nssv_constexpr14 /*constexpr*/ +#endif + +#if nssv_HAVE_EXPLICIT_CONVERSION +# define nssv_explicit explicit +#else +# define nssv_explicit /*explicit*/ +#endif + +#if nssv_HAVE_INLINE_NAMESPACE +# define nssv_inline_ns inline +#else +# define nssv_inline_ns /*inline*/ +#endif + +#if nssv_HAVE_NOEXCEPT +# define nssv_noexcept noexcept +#else +# define nssv_noexcept /*noexcept*/ +#endif + +//#if nssv_HAVE_REF_QUALIFIER +//# define nssv_ref_qual & +//# define nssv_refref_qual && +//#else +//# define nssv_ref_qual /*&*/ +//# define nssv_refref_qual /*&&*/ +//#endif + +#if nssv_HAVE_NULLPTR +# define nssv_nullptr nullptr +#else +# define nssv_nullptr NULL +#endif + +#if nssv_HAVE_NODISCARD +# define nssv_nodiscard [[nodiscard]] +#else +# define nssv_nodiscard /*[[nodiscard]]*/ +#endif + +// Additional includes: + +#include +#include +#include +#include +#include +#include // std::char_traits<> + +#if ! nssv_CONFIG_NO_EXCEPTIONS +# include +#endif + +#if nssv_CPP11_OR_GREATER +# include +#endif + +// Clang, GNUC, MSVC warning suppression macros: + +#if defined(__clang__) +# pragma clang diagnostic ignored "-Wreserved-user-defined-literal" +# pragma clang diagnostic push +# pragma clang diagnostic ignored "-Wuser-defined-literals" +#elif defined(__GNUC__) +# pragma GCC diagnostic push +# pragma GCC diagnostic ignored "-Wliteral-suffix" +#endif // __clang__ + +#if nssv_COMPILER_MSVC_VERSION >= 140 +# define nssv_SUPPRESS_MSGSL_WARNING(expr) [[gsl::suppress(expr)]] +# define nssv_SUPPRESS_MSVC_WARNING(code, descr) __pragma(warning(suppress: code) ) +# define nssv_DISABLE_MSVC_WARNINGS(codes) __pragma(warning(push)) __pragma(warning(disable: codes)) +#else +# define nssv_SUPPRESS_MSGSL_WARNING(expr) +# define nssv_SUPPRESS_MSVC_WARNING(code, descr) +# define nssv_DISABLE_MSVC_WARNINGS(codes) +#endif + +#if defined(__clang__) +# define nssv_RESTORE_WARNINGS() _Pragma("clang diagnostic pop") +#elif defined(__GNUC__) +# define nssv_RESTORE_WARNINGS() _Pragma("GCC diagnostic pop") +#elif nssv_COMPILER_MSVC_VERSION >= 140 +# define nssv_RESTORE_WARNINGS() __pragma(warning(pop )) +#else +# define nssv_RESTORE_WARNINGS() +#endif + +// Suppress the following MSVC (GSL) warnings: +// - C4455, non-gsl : 'operator ""sv': literal suffix identifiers that do not +// start with an underscore are reserved +// - C26472, gsl::t.1 : don't use a static_cast for arithmetic conversions; +// use brace initialization, gsl::narrow_cast or gsl::narow +// - C26481: gsl::b.1 : don't use pointer arithmetic. Use span instead + +nssv_DISABLE_MSVC_WARNINGS( 4455 26481 26472 ) +//nssv_DISABLE_CLANG_WARNINGS( "-Wuser-defined-literals" ) +//nssv_DISABLE_GNUC_WARNINGS( -Wliteral-suffix ) + +namespace nonstd { namespace sv_lite { + +#if nssv_CPP11_OR_GREATER + +namespace detail { + +#if nssv_CPP14_OR_GREATER + +template< typename CharT > +inline constexpr std::size_t length( CharT * s, std::size_t result = 0 ) +{ + CharT * v = s; + std::size_t r = result; + while ( *v != '\0' ) { + ++v; + ++r; + } + return r; +} + +#else // nssv_CPP14_OR_GREATER + +// Expect tail call optimization to make length() non-recursive: + +template< typename CharT > +inline constexpr std::size_t length( CharT * s, std::size_t result = 0 ) +{ + return *s == '\0' ? result : length( s + 1, result + 1 ); +} + +#endif // nssv_CPP14_OR_GREATER + +} // namespace detail + +#endif // nssv_CPP11_OR_GREATER + +template +< + class CharT, + class Traits = std::char_traits +> +class basic_string_view; + +// +// basic_string_view: +// + +template +< + class CharT, + class Traits /* = std::char_traits */ +> +class basic_string_view +{ +public: + // Member types: + + typedef Traits traits_type; + typedef CharT value_type; + + typedef CharT * pointer; + typedef CharT const * const_pointer; + typedef CharT & reference; + typedef CharT const & const_reference; + + typedef const_pointer iterator; + typedef const_pointer const_iterator; + typedef std::reverse_iterator< const_iterator > reverse_iterator; + typedef std::reverse_iterator< const_iterator > const_reverse_iterator; + + typedef std::size_t size_type; + typedef std::ptrdiff_t difference_type; + + // 24.4.2.1 Construction and assignment: + + nssv_constexpr basic_string_view() nssv_noexcept + : data_( nssv_nullptr ) + , size_( 0 ) + {} + +#if nssv_CPP11_OR_GREATER + nssv_constexpr basic_string_view( basic_string_view const & other ) nssv_noexcept = default; +#else + nssv_constexpr basic_string_view( basic_string_view const & other ) nssv_noexcept + : data_( other.data_) + , size_( other.size_) + {} +#endif + + nssv_constexpr basic_string_view( CharT const * s, size_type count ) nssv_noexcept // non-standard noexcept + : data_( s ) + , size_( count ) + {} + + nssv_constexpr basic_string_view( CharT const * s) nssv_noexcept // non-standard noexcept + : data_( s ) +#if nssv_CPP17_OR_GREATER + , size_( Traits::length(s) ) +#elif nssv_CPP11_OR_GREATER + , size_( detail::length(s) ) +#else + , size_( Traits::length(s) ) +#endif + {} + + // Assignment: + +#if nssv_CPP11_OR_GREATER + nssv_constexpr14 basic_string_view & operator=( basic_string_view const & other ) nssv_noexcept = default; +#else + nssv_constexpr14 basic_string_view & operator=( basic_string_view const & other ) nssv_noexcept + { + data_ = other.data_; + size_ = other.size_; + return *this; + } +#endif + + // 24.4.2.2 Iterator support: + + nssv_constexpr const_iterator begin() const nssv_noexcept { return data_; } + nssv_constexpr const_iterator end() const nssv_noexcept { return data_ + size_; } + + nssv_constexpr const_iterator cbegin() const nssv_noexcept { return begin(); } + nssv_constexpr const_iterator cend() const nssv_noexcept { return end(); } + + nssv_constexpr const_reverse_iterator rbegin() const nssv_noexcept { return const_reverse_iterator( end() ); } + nssv_constexpr const_reverse_iterator rend() const nssv_noexcept { return const_reverse_iterator( begin() ); } + + nssv_constexpr const_reverse_iterator crbegin() const nssv_noexcept { return rbegin(); } + nssv_constexpr const_reverse_iterator crend() const nssv_noexcept { return rend(); } + + // 24.4.2.3 Capacity: + + nssv_constexpr size_type size() const nssv_noexcept { return size_; } + nssv_constexpr size_type length() const nssv_noexcept { return size_; } + nssv_constexpr size_type max_size() const nssv_noexcept { return (std::numeric_limits< size_type >::max)(); } + + // since C++20 + nssv_nodiscard nssv_constexpr bool empty() const nssv_noexcept + { + return 0 == size_; + } + + // 24.4.2.4 Element access: + + nssv_constexpr const_reference operator[]( size_type pos ) const + { + return data_at( pos ); + } + + nssv_constexpr14 const_reference at( size_type pos ) const + { +#if nssv_CONFIG_NO_EXCEPTIONS + assert( pos < size() ); +#else + if ( pos >= size() ) + { + throw std::out_of_range("nonstd::string_view::at()"); + } +#endif + return data_at( pos ); + } + + nssv_constexpr const_reference front() const { return data_at( 0 ); } + nssv_constexpr const_reference back() const { return data_at( size() - 1 ); } + + nssv_constexpr const_pointer data() const nssv_noexcept { return data_; } + + // 24.4.2.5 Modifiers: + + nssv_constexpr14 void remove_prefix( size_type n ) + { + assert( n <= size() ); + data_ += n; + size_ -= n; + } + + nssv_constexpr14 void remove_suffix( size_type n ) + { + assert( n <= size() ); + size_ -= n; + } + + nssv_constexpr14 void swap( basic_string_view & other ) nssv_noexcept + { + using std::swap; + swap( data_, other.data_ ); + swap( size_, other.size_ ); + } + + // 24.4.2.6 String operations: + + size_type copy( CharT * dest, size_type n, size_type pos = 0 ) const + { +#if nssv_CONFIG_NO_EXCEPTIONS + assert( pos <= size() ); +#else + if ( pos > size() ) + { + throw std::out_of_range("nonstd::string_view::copy()"); + } +#endif + const size_type rlen = (std::min)( n, size() - pos ); + + (void) Traits::copy( dest, data() + pos, rlen ); + + return rlen; + } + + nssv_constexpr14 basic_string_view substr( size_type pos = 0, size_type n = npos ) const + { +#if nssv_CONFIG_NO_EXCEPTIONS + assert( pos <= size() ); +#else + if ( pos > size() ) + { + throw std::out_of_range("nonstd::string_view::substr()"); + } +#endif + return basic_string_view( data() + pos, (std::min)( n, size() - pos ) ); + } + + // compare(), 6x: + + nssv_constexpr14 int compare( basic_string_view other ) const nssv_noexcept // (1) + { + if ( const int result = Traits::compare( data(), other.data(), (std::min)( size(), other.size() ) ) ) + { + return result; + } + + return size() == other.size() ? 0 : size() < other.size() ? -1 : 1; + } + + nssv_constexpr int compare( size_type pos1, size_type n1, basic_string_view other ) const // (2) + { + return substr( pos1, n1 ).compare( other ); + } + + nssv_constexpr int compare( size_type pos1, size_type n1, basic_string_view other, size_type pos2, size_type n2 ) const // (3) + { + return substr( pos1, n1 ).compare( other.substr( pos2, n2 ) ); + } + + nssv_constexpr int compare( CharT const * s ) const // (4) + { + return compare( basic_string_view( s ) ); + } + + nssv_constexpr int compare( size_type pos1, size_type n1, CharT const * s ) const // (5) + { + return substr( pos1, n1 ).compare( basic_string_view( s ) ); + } + + nssv_constexpr int compare( size_type pos1, size_type n1, CharT const * s, size_type n2 ) const // (6) + { + return substr( pos1, n1 ).compare( basic_string_view( s, n2 ) ); + } + + // 24.4.2.7 Searching: + + // starts_with(), 3x, since C++20: + + nssv_constexpr bool starts_with( basic_string_view v ) const nssv_noexcept // (1) + { + return size() >= v.size() && compare( 0, v.size(), v ) == 0; + } + + nssv_constexpr bool starts_with( CharT c ) const nssv_noexcept // (2) + { + return starts_with( basic_string_view( &c, 1 ) ); + } + + nssv_constexpr bool starts_with( CharT const * s ) const // (3) + { + return starts_with( basic_string_view( s ) ); + } + + // ends_with(), 3x, since C++20: + + nssv_constexpr bool ends_with( basic_string_view v ) const nssv_noexcept // (1) + { + return size() >= v.size() && compare( size() - v.size(), npos, v ) == 0; + } + + nssv_constexpr bool ends_with( CharT c ) const nssv_noexcept // (2) + { + return ends_with( basic_string_view( &c, 1 ) ); + } + + nssv_constexpr bool ends_with( CharT const * s ) const // (3) + { + return ends_with( basic_string_view( s ) ); + } + + // find(), 4x: + + nssv_constexpr14 size_type find( basic_string_view v, size_type pos = 0 ) const nssv_noexcept // (1) + { + return assert( v.size() == 0 || v.data() != nssv_nullptr ) + , pos >= size() + ? npos + : to_pos( std::search( cbegin() + pos, cend(), v.cbegin(), v.cend(), Traits::eq ) ); + } + + nssv_constexpr14 size_type find( CharT c, size_type pos = 0 ) const nssv_noexcept // (2) + { + return find( basic_string_view( &c, 1 ), pos ); + } + + nssv_constexpr14 size_type find( CharT const * s, size_type pos, size_type n ) const // (3) + { + return find( basic_string_view( s, n ), pos ); + } + + nssv_constexpr14 size_type find( CharT const * s, size_type pos = 0 ) const // (4) + { + return find( basic_string_view( s ), pos ); + } + + // rfind(), 4x: + + nssv_constexpr14 size_type rfind( basic_string_view v, size_type pos = npos ) const nssv_noexcept // (1) + { + if ( size() < v.size() ) + { + return npos; + } + + if ( v.empty() ) + { + return (std::min)( size(), pos ); + } + + const_iterator last = cbegin() + (std::min)( size() - v.size(), pos ) + v.size(); + const_iterator result = std::find_end( cbegin(), last, v.cbegin(), v.cend(), Traits::eq ); + + return result != last ? size_type( result - cbegin() ) : npos; + } + + nssv_constexpr14 size_type rfind( CharT c, size_type pos = npos ) const nssv_noexcept // (2) + { + return rfind( basic_string_view( &c, 1 ), pos ); + } + + nssv_constexpr14 size_type rfind( CharT const * s, size_type pos, size_type n ) const // (3) + { + return rfind( basic_string_view( s, n ), pos ); + } + + nssv_constexpr14 size_type rfind( CharT const * s, size_type pos = npos ) const // (4) + { + return rfind( basic_string_view( s ), pos ); + } + + // find_first_of(), 4x: + + nssv_constexpr size_type find_first_of( basic_string_view v, size_type pos = 0 ) const nssv_noexcept // (1) + { + return pos >= size() + ? npos + : to_pos( std::find_first_of( cbegin() + pos, cend(), v.cbegin(), v.cend(), Traits::eq ) ); + } + + nssv_constexpr size_type find_first_of( CharT c, size_type pos = 0 ) const nssv_noexcept // (2) + { + return find_first_of( basic_string_view( &c, 1 ), pos ); + } + + nssv_constexpr size_type find_first_of( CharT const * s, size_type pos, size_type n ) const // (3) + { + return find_first_of( basic_string_view( s, n ), pos ); + } + + nssv_constexpr size_type find_first_of( CharT const * s, size_type pos = 0 ) const // (4) + { + return find_first_of( basic_string_view( s ), pos ); + } + + // find_last_of(), 4x: + + nssv_constexpr size_type find_last_of( basic_string_view v, size_type pos = npos ) const nssv_noexcept // (1) + { + return empty() + ? npos + : pos >= size() + ? find_last_of( v, size() - 1 ) + : to_pos( std::find_first_of( const_reverse_iterator( cbegin() + pos + 1 ), crend(), v.cbegin(), v.cend(), Traits::eq ) ); + } + + nssv_constexpr size_type find_last_of( CharT c, size_type pos = npos ) const nssv_noexcept // (2) + { + return find_last_of( basic_string_view( &c, 1 ), pos ); + } + + nssv_constexpr size_type find_last_of( CharT const * s, size_type pos, size_type count ) const // (3) + { + return find_last_of( basic_string_view( s, count ), pos ); + } + + nssv_constexpr size_type find_last_of( CharT const * s, size_type pos = npos ) const // (4) + { + return find_last_of( basic_string_view( s ), pos ); + } + + // find_first_not_of(), 4x: + + nssv_constexpr size_type find_first_not_of( basic_string_view v, size_type pos = 0 ) const nssv_noexcept // (1) + { + return pos >= size() + ? npos + : to_pos( std::find_if( cbegin() + pos, cend(), not_in_view( v ) ) ); + } + + nssv_constexpr size_type find_first_not_of( CharT c, size_type pos = 0 ) const nssv_noexcept // (2) + { + return find_first_not_of( basic_string_view( &c, 1 ), pos ); + } + + nssv_constexpr size_type find_first_not_of( CharT const * s, size_type pos, size_type count ) const // (3) + { + return find_first_not_of( basic_string_view( s, count ), pos ); + } + + nssv_constexpr size_type find_first_not_of( CharT const * s, size_type pos = 0 ) const // (4) + { + return find_first_not_of( basic_string_view( s ), pos ); + } + + // find_last_not_of(), 4x: + + nssv_constexpr size_type find_last_not_of( basic_string_view v, size_type pos = npos ) const nssv_noexcept // (1) + { + return empty() + ? npos + : pos >= size() + ? find_last_not_of( v, size() - 1 ) + : to_pos( std::find_if( const_reverse_iterator( cbegin() + pos + 1 ), crend(), not_in_view( v ) ) ); + } + + nssv_constexpr size_type find_last_not_of( CharT c, size_type pos = npos ) const nssv_noexcept // (2) + { + return find_last_not_of( basic_string_view( &c, 1 ), pos ); + } + + nssv_constexpr size_type find_last_not_of( CharT const * s, size_type pos, size_type count ) const // (3) + { + return find_last_not_of( basic_string_view( s, count ), pos ); + } + + nssv_constexpr size_type find_last_not_of( CharT const * s, size_type pos = npos ) const // (4) + { + return find_last_not_of( basic_string_view( s ), pos ); + } + + // Constants: + +#if nssv_CPP17_OR_GREATER + static nssv_constexpr size_type npos = size_type(-1); +#elif nssv_CPP11_OR_GREATER + enum : size_type { npos = size_type(-1) }; +#else + enum { npos = size_type(-1) }; +#endif + +private: + struct not_in_view + { + const basic_string_view v; + + nssv_constexpr explicit not_in_view( basic_string_view v ) : v( v ) {} + + nssv_constexpr bool operator()( CharT c ) const + { + return npos == v.find_first_of( c ); + } + }; + + nssv_constexpr size_type to_pos( const_iterator it ) const + { + return it == cend() ? npos : size_type( it - cbegin() ); + } + + nssv_constexpr size_type to_pos( const_reverse_iterator it ) const + { + return it == crend() ? npos : size_type( crend() - it - 1 ); + } + + nssv_constexpr const_reference data_at( size_type pos ) const + { +#if nssv_BETWEEN( nssv_COMPILER_GNUC_VERSION, 1, 500 ) + return data_[pos]; +#else + return assert( pos < size() ), data_[pos]; +#endif + } + +private: + const_pointer data_; + size_type size_; + +public: +#if nssv_CONFIG_CONVERSION_STD_STRING_CLASS_METHODS + + template< class Allocator > + basic_string_view( std::basic_string const & s ) nssv_noexcept + : data_( s.data() ) + , size_( s.size() ) + {} + +#if nssv_HAVE_EXPLICIT_CONVERSION + + template< class Allocator > + explicit operator std::basic_string() const + { + return to_string( Allocator() ); + } + +#endif // nssv_HAVE_EXPLICIT_CONVERSION + +#if nssv_CPP11_OR_GREATER + + template< class Allocator = std::allocator > + std::basic_string + to_string( Allocator const & a = Allocator() ) const + { + return std::basic_string( begin(), end(), a ); + } + +#else + + std::basic_string + to_string() const + { + return std::basic_string( begin(), end() ); + } + + template< class Allocator > + std::basic_string + to_string( Allocator const & a ) const + { + return std::basic_string( begin(), end(), a ); + } + +#endif // nssv_CPP11_OR_GREATER + +#endif // nssv_CONFIG_CONVERSION_STD_STRING_CLASS_METHODS +}; + +// +// Non-member functions: +// + +// 24.4.3 Non-member comparison functions: +// lexicographically compare two string views (function template): + +template< class CharT, class Traits > +nssv_constexpr bool operator== ( + basic_string_view lhs, + basic_string_view rhs ) nssv_noexcept +{ return lhs.compare( rhs ) == 0 ; } + +template< class CharT, class Traits > +nssv_constexpr bool operator!= ( + basic_string_view lhs, + basic_string_view rhs ) nssv_noexcept +{ return lhs.compare( rhs ) != 0 ; } + +template< class CharT, class Traits > +nssv_constexpr bool operator< ( + basic_string_view lhs, + basic_string_view rhs ) nssv_noexcept +{ return lhs.compare( rhs ) < 0 ; } + +template< class CharT, class Traits > +nssv_constexpr bool operator<= ( + basic_string_view lhs, + basic_string_view rhs ) nssv_noexcept +{ return lhs.compare( rhs ) <= 0 ; } + +template< class CharT, class Traits > +nssv_constexpr bool operator> ( + basic_string_view lhs, + basic_string_view rhs ) nssv_noexcept +{ return lhs.compare( rhs ) > 0 ; } + +template< class CharT, class Traits > +nssv_constexpr bool operator>= ( + basic_string_view lhs, + basic_string_view rhs ) nssv_noexcept +{ return lhs.compare( rhs ) >= 0 ; } + +// Let S be basic_string_view, and sv be an instance of S. +// Implementations shall provide sufficient additional overloads marked +// constexpr and noexcept so that an object t with an implicit conversion +// to S can be compared according to Table 67. + +#if ! nssv_CPP11_OR_GREATER || nssv_BETWEEN( nssv_COMPILER_MSVC_VERSION, 100, 141 ) + +// accomodate for older compilers: + +// == + +template< class CharT, class Traits> +nssv_constexpr bool operator==( + basic_string_view lhs, + char const * rhs ) nssv_noexcept +{ return lhs.compare( rhs ) == 0; } + +template< class CharT, class Traits> +nssv_constexpr bool operator==( + char const * lhs, + basic_string_view rhs ) nssv_noexcept +{ return rhs.compare( lhs ) == 0; } + +template< class CharT, class Traits> +nssv_constexpr bool operator==( + basic_string_view lhs, + std::basic_string rhs ) nssv_noexcept +{ return lhs.size() == rhs.size() && lhs.compare( rhs ) == 0; } + +template< class CharT, class Traits> +nssv_constexpr bool operator==( + std::basic_string rhs, + basic_string_view lhs ) nssv_noexcept +{ return lhs.size() == rhs.size() && lhs.compare( rhs ) == 0; } + +// != + +template< class CharT, class Traits> +nssv_constexpr bool operator!=( + basic_string_view lhs, + char const * rhs ) nssv_noexcept +{ return lhs.compare( rhs ) != 0; } + +template< class CharT, class Traits> +nssv_constexpr bool operator!=( + char const * lhs, + basic_string_view rhs ) nssv_noexcept +{ return rhs.compare( lhs ) != 0; } + +template< class CharT, class Traits> +nssv_constexpr bool operator!=( + basic_string_view lhs, + std::basic_string rhs ) nssv_noexcept +{ return lhs.size() != rhs.size() && lhs.compare( rhs ) != 0; } + +template< class CharT, class Traits> +nssv_constexpr bool operator!=( + std::basic_string rhs, + basic_string_view lhs ) nssv_noexcept +{ return lhs.size() != rhs.size() || rhs.compare( lhs ) != 0; } + +// < + +template< class CharT, class Traits> +nssv_constexpr bool operator<( + basic_string_view lhs, + char const * rhs ) nssv_noexcept +{ return lhs.compare( rhs ) < 0; } + +template< class CharT, class Traits> +nssv_constexpr bool operator<( + char const * lhs, + basic_string_view rhs ) nssv_noexcept +{ return rhs.compare( lhs ) > 0; } + +template< class CharT, class Traits> +nssv_constexpr bool operator<( + basic_string_view lhs, + std::basic_string rhs ) nssv_noexcept +{ return lhs.compare( rhs ) < 0; } + +template< class CharT, class Traits> +nssv_constexpr bool operator<( + std::basic_string rhs, + basic_string_view lhs ) nssv_noexcept +{ return rhs.compare( lhs ) > 0; } + +// <= + +template< class CharT, class Traits> +nssv_constexpr bool operator<=( + basic_string_view lhs, + char const * rhs ) nssv_noexcept +{ return lhs.compare( rhs ) <= 0; } + +template< class CharT, class Traits> +nssv_constexpr bool operator<=( + char const * lhs, + basic_string_view rhs ) nssv_noexcept +{ return rhs.compare( lhs ) >= 0; } + +template< class CharT, class Traits> +nssv_constexpr bool operator<=( + basic_string_view lhs, + std::basic_string rhs ) nssv_noexcept +{ return lhs.compare( rhs ) <= 0; } + +template< class CharT, class Traits> +nssv_constexpr bool operator<=( + std::basic_string rhs, + basic_string_view lhs ) nssv_noexcept +{ return rhs.compare( lhs ) >= 0; } + +// > + +template< class CharT, class Traits> +nssv_constexpr bool operator>( + basic_string_view lhs, + char const * rhs ) nssv_noexcept +{ return lhs.compare( rhs ) > 0; } + +template< class CharT, class Traits> +nssv_constexpr bool operator>( + char const * lhs, + basic_string_view rhs ) nssv_noexcept +{ return rhs.compare( lhs ) < 0; } + +template< class CharT, class Traits> +nssv_constexpr bool operator>( + basic_string_view lhs, + std::basic_string rhs ) nssv_noexcept +{ return lhs.compare( rhs ) > 0; } + +template< class CharT, class Traits> +nssv_constexpr bool operator>( + std::basic_string rhs, + basic_string_view lhs ) nssv_noexcept +{ return rhs.compare( lhs ) < 0; } + +// >= + +template< class CharT, class Traits> +nssv_constexpr bool operator>=( + basic_string_view lhs, + char const * rhs ) nssv_noexcept +{ return lhs.compare( rhs ) >= 0; } + +template< class CharT, class Traits> +nssv_constexpr bool operator>=( + char const * lhs, + basic_string_view rhs ) nssv_noexcept +{ return rhs.compare( lhs ) <= 0; } + +template< class CharT, class Traits> +nssv_constexpr bool operator>=( + basic_string_view lhs, + std::basic_string rhs ) nssv_noexcept +{ return lhs.compare( rhs ) >= 0; } + +template< class CharT, class Traits> +nssv_constexpr bool operator>=( + std::basic_string rhs, + basic_string_view lhs ) nssv_noexcept +{ return rhs.compare( lhs ) <= 0; } + +#else // newer compilers: + +#define nssv_BASIC_STRING_VIEW_I(T,U) typename std::decay< basic_string_view >::type + +#if nssv_BETWEEN( nssv_COMPILER_MSVC_VERSION, 140, 150 ) +# define nssv_MSVC_ORDER(x) , int=x +#else +# define nssv_MSVC_ORDER(x) /*, int=x*/ +#endif + +// == + +template< class CharT, class Traits nssv_MSVC_ORDER(1) > +nssv_constexpr bool operator==( + basic_string_view lhs, + nssv_BASIC_STRING_VIEW_I(CharT, Traits) rhs ) nssv_noexcept +{ return lhs.compare( rhs ) == 0; } + +template< class CharT, class Traits nssv_MSVC_ORDER(2) > +nssv_constexpr bool operator==( + nssv_BASIC_STRING_VIEW_I(CharT, Traits) lhs, + basic_string_view rhs ) nssv_noexcept +{ return lhs.size() == rhs.size() && lhs.compare( rhs ) == 0; } + +// != + +template< class CharT, class Traits nssv_MSVC_ORDER(1) > +nssv_constexpr bool operator!= ( + basic_string_view < CharT, Traits > lhs, + nssv_BASIC_STRING_VIEW_I( CharT, Traits ) rhs ) nssv_noexcept +{ return lhs.size() != rhs.size() || lhs.compare( rhs ) != 0 ; } + +template< class CharT, class Traits nssv_MSVC_ORDER(2) > +nssv_constexpr bool operator!= ( + nssv_BASIC_STRING_VIEW_I( CharT, Traits ) lhs, + basic_string_view < CharT, Traits > rhs ) nssv_noexcept +{ return lhs.compare( rhs ) != 0 ; } + +// < + +template< class CharT, class Traits nssv_MSVC_ORDER(1) > +nssv_constexpr bool operator< ( + basic_string_view < CharT, Traits > lhs, + nssv_BASIC_STRING_VIEW_I( CharT, Traits ) rhs ) nssv_noexcept +{ return lhs.compare( rhs ) < 0 ; } + +template< class CharT, class Traits nssv_MSVC_ORDER(2) > +nssv_constexpr bool operator< ( + nssv_BASIC_STRING_VIEW_I( CharT, Traits ) lhs, + basic_string_view < CharT, Traits > rhs ) nssv_noexcept +{ return lhs.compare( rhs ) < 0 ; } + +// <= + +template< class CharT, class Traits nssv_MSVC_ORDER(1) > +nssv_constexpr bool operator<= ( + basic_string_view < CharT, Traits > lhs, + nssv_BASIC_STRING_VIEW_I( CharT, Traits ) rhs ) nssv_noexcept +{ return lhs.compare( rhs ) <= 0 ; } + +template< class CharT, class Traits nssv_MSVC_ORDER(2) > +nssv_constexpr bool operator<= ( + nssv_BASIC_STRING_VIEW_I( CharT, Traits ) lhs, + basic_string_view < CharT, Traits > rhs ) nssv_noexcept +{ return lhs.compare( rhs ) <= 0 ; } + +// > + +template< class CharT, class Traits nssv_MSVC_ORDER(1) > +nssv_constexpr bool operator> ( + basic_string_view < CharT, Traits > lhs, + nssv_BASIC_STRING_VIEW_I( CharT, Traits ) rhs ) nssv_noexcept +{ return lhs.compare( rhs ) > 0 ; } + +template< class CharT, class Traits nssv_MSVC_ORDER(2) > +nssv_constexpr bool operator> ( + nssv_BASIC_STRING_VIEW_I( CharT, Traits ) lhs, + basic_string_view < CharT, Traits > rhs ) nssv_noexcept +{ return lhs.compare( rhs ) > 0 ; } + +// >= + +template< class CharT, class Traits nssv_MSVC_ORDER(1) > +nssv_constexpr bool operator>= ( + basic_string_view < CharT, Traits > lhs, + nssv_BASIC_STRING_VIEW_I( CharT, Traits ) rhs ) nssv_noexcept +{ return lhs.compare( rhs ) >= 0 ; } + +template< class CharT, class Traits nssv_MSVC_ORDER(2) > +nssv_constexpr bool operator>= ( + nssv_BASIC_STRING_VIEW_I( CharT, Traits ) lhs, + basic_string_view < CharT, Traits > rhs ) nssv_noexcept +{ return lhs.compare( rhs ) >= 0 ; } + +#undef nssv_MSVC_ORDER +#undef nssv_BASIC_STRING_VIEW_I + +#endif // compiler-dependent approach to comparisons + +// 24.4.4 Inserters and extractors: + +namespace detail { + +template< class Stream > +void write_padding( Stream & os, std::streamsize n ) +{ + for ( std::streamsize i = 0; i < n; ++i ) + os.rdbuf()->sputc( os.fill() ); +} + +template< class Stream, class View > +Stream & write_to_stream( Stream & os, View const & sv ) +{ + typename Stream::sentry sentry( os ); + + if ( !os ) + return os; + + const std::streamsize length = static_cast( sv.length() ); + + // Whether, and how, to pad: + const bool pad = ( length < os.width() ); + const bool left_pad = pad && ( os.flags() & std::ios_base::adjustfield ) == std::ios_base::right; + + if ( left_pad ) + write_padding( os, os.width() - length ); + + // Write span characters: + os.rdbuf()->sputn( sv.begin(), length ); + + if ( pad && !left_pad ) + write_padding( os, os.width() - length ); + + // Reset output stream width: + os.width( 0 ); + + return os; +} + +} // namespace detail + +template< class CharT, class Traits > +std::basic_ostream & +operator<<( + std::basic_ostream& os, + basic_string_view sv ) +{ + return detail::write_to_stream( os, sv ); +} + +// Several typedefs for common character types are provided: + +typedef basic_string_view string_view; +typedef basic_string_view wstring_view; +#if nssv_HAVE_WCHAR16_T +typedef basic_string_view u16string_view; +typedef basic_string_view u32string_view; +#endif + +}} // namespace nonstd::sv_lite + +// +// 24.4.6 Suffix for basic_string_view literals: +// + +#if nssv_HAVE_USER_DEFINED_LITERALS + +namespace nonstd { +nssv_inline_ns namespace literals { +nssv_inline_ns namespace string_view_literals { + +#if nssv_CONFIG_STD_SV_OPERATOR && nssv_HAVE_STD_DEFINED_LITERALS + +nssv_constexpr nonstd::sv_lite::string_view operator "" sv( const char* str, size_t len ) nssv_noexcept // (1) +{ + return nonstd::sv_lite::string_view{ str, len }; +} + +nssv_constexpr nonstd::sv_lite::u16string_view operator "" sv( const char16_t* str, size_t len ) nssv_noexcept // (2) +{ + return nonstd::sv_lite::u16string_view{ str, len }; +} + +nssv_constexpr nonstd::sv_lite::u32string_view operator "" sv( const char32_t* str, size_t len ) nssv_noexcept // (3) +{ + return nonstd::sv_lite::u32string_view{ str, len }; +} + +nssv_constexpr nonstd::sv_lite::wstring_view operator "" sv( const wchar_t* str, size_t len ) nssv_noexcept // (4) +{ + return nonstd::sv_lite::wstring_view{ str, len }; +} + +#endif // nssv_CONFIG_STD_SV_OPERATOR && nssv_HAVE_STD_DEFINED_LITERALS + +#if nssv_CONFIG_USR_SV_OPERATOR + +nssv_constexpr nonstd::sv_lite::string_view operator "" _sv( const char* str, size_t len ) nssv_noexcept // (1) +{ + return nonstd::sv_lite::string_view{ str, len }; +} + +nssv_constexpr nonstd::sv_lite::u16string_view operator "" _sv( const char16_t* str, size_t len ) nssv_noexcept // (2) +{ + return nonstd::sv_lite::u16string_view{ str, len }; +} + +nssv_constexpr nonstd::sv_lite::u32string_view operator "" _sv( const char32_t* str, size_t len ) nssv_noexcept // (3) +{ + return nonstd::sv_lite::u32string_view{ str, len }; +} + +nssv_constexpr nonstd::sv_lite::wstring_view operator "" _sv( const wchar_t* str, size_t len ) nssv_noexcept // (4) +{ + return nonstd::sv_lite::wstring_view{ str, len }; +} + +#endif // nssv_CONFIG_USR_SV_OPERATOR + +}}} // namespace nonstd::literals::string_view_literals + +#endif + +// +// Extensions for std::string: +// + +#if nssv_CONFIG_CONVERSION_STD_STRING_FREE_FUNCTIONS + +namespace nonstd { +namespace sv_lite { + +// Exclude MSVC 14 (19.00): it yields ambiguous to_string(): + +#if nssv_CPP11_OR_GREATER && nssv_COMPILER_MSVC_VERSION != 140 + +template< class CharT, class Traits, class Allocator = std::allocator > +std::basic_string +to_string( basic_string_view v, Allocator const & a = Allocator() ) +{ + return std::basic_string( v.begin(), v.end(), a ); +} + +#else + +template< class CharT, class Traits > +std::basic_string +to_string( basic_string_view v ) +{ + return std::basic_string( v.begin(), v.end() ); +} + +template< class CharT, class Traits, class Allocator > +std::basic_string +to_string( basic_string_view v, Allocator const & a ) +{ + return std::basic_string( v.begin(), v.end(), a ); +} + +#endif // nssv_CPP11_OR_GREATER + +template< class CharT, class Traits, class Allocator > +basic_string_view +to_string_view( std::basic_string const & s ) +{ + return basic_string_view( s.data(), s.size() ); +} + +}} // namespace nonstd::sv_lite + +#endif // nssv_CONFIG_CONVERSION_STD_STRING_FREE_FUNCTIONS + +// +// make types and algorithms available in namespace nonstd: +// + +namespace nonstd { + +using sv_lite::basic_string_view; +using sv_lite::string_view; +using sv_lite::wstring_view; + +#if nssv_HAVE_WCHAR16_T +using sv_lite::u16string_view; +#endif +#if nssv_HAVE_WCHAR32_T +using sv_lite::u32string_view; +#endif + +// literal "sv" + +using sv_lite::operator==; +using sv_lite::operator!=; +using sv_lite::operator<; +using sv_lite::operator<=; +using sv_lite::operator>; +using sv_lite::operator>=; + +using sv_lite::operator<<; + +#if nssv_CONFIG_CONVERSION_STD_STRING_FREE_FUNCTIONS +using sv_lite::to_string; +using sv_lite::to_string_view; +#endif + +} // namespace nonstd + +// 24.4.5 Hash support (C++11): + +// Note: The hash value of a string view object is equal to the hash value of +// the corresponding string object. + +#if nssv_HAVE_STD_HASH + +#include + +namespace std { + +template<> +struct hash< nonstd::string_view > +{ +public: + std::size_t operator()( nonstd::string_view v ) const nssv_noexcept + { + return std::hash()( std::string( v.data(), v.size() ) ); + } +}; + +template<> +struct hash< nonstd::wstring_view > +{ +public: + std::size_t operator()( nonstd::wstring_view v ) const nssv_noexcept + { + return std::hash()( std::wstring( v.data(), v.size() ) ); + } +}; + +template<> +struct hash< nonstd::u16string_view > +{ +public: + std::size_t operator()( nonstd::u16string_view v ) const nssv_noexcept + { + return std::hash()( std::u16string( v.data(), v.size() ) ); + } +}; + +template<> +struct hash< nonstd::u32string_view > +{ +public: + std::size_t operator()( nonstd::u32string_view v ) const nssv_noexcept + { + return std::hash()( std::u32string( v.data(), v.size() ) ); + } +}; + +} // namespace std + +#endif // nssv_HAVE_STD_HASH + +nssv_RESTORE_WARNINGS() + +#endif // nssv_HAVE_STD_STRING_VIEW +#endif // NONSTD_SV_LITE_H_INCLUDED +/* end file include/simdjson/nonstd/string_view.hpp */ +SIMDJSON_POP_DISABLE_WARNINGS + +namespace std { + using string_view = nonstd::string_view; +} +#endif // SIMDJSON_HAS_STRING_VIEW +#undef SIMDJSON_HAS_STRING_VIEW // We are not going to need this macro anymore. + +/// If EXPR is an error, returns it. +#define SIMDJSON_TRY(EXPR) { auto _err = (EXPR); if (_err) { return _err; } } + + +#endif // SIMDJSON_COMMON_DEFS_H +/* end file include/simdjson/common_defs.h */ + +SIMDJSON_PUSH_DISABLE_WARNINGS +SIMDJSON_DISABLE_UNDESIRED_WARNINGS + +// Public API +/* begin file include/simdjson/simdjson_version.h */ +// /include/simdjson/simdjson_version.h automatically generated by release.py, +// do not change by hand +#ifndef SIMDJSON_SIMDJSON_VERSION_H +#define SIMDJSON_SIMDJSON_VERSION_H + +/** The version of simdjson being used (major.minor.revision) */ +#define SIMDJSON_VERSION 0.8.0 + +namespace simdjson { +enum { + /** + * The major version (MAJOR.minor.revision) of simdjson being used. + */ + SIMDJSON_VERSION_MAJOR = 0, + /** + * The minor version (major.MINOR.revision) of simdjson being used. + */ + SIMDJSON_VERSION_MINOR = 8, + /** + * The revision (major.minor.REVISION) of simdjson being used. + */ + SIMDJSON_VERSION_REVISION = 0 +}; +} // namespace simdjson + +#endif // SIMDJSON_SIMDJSON_VERSION_H +/* end file include/simdjson/simdjson_version.h */ +/* begin file include/simdjson/error.h */ +#ifndef SIMDJSON_ERROR_H +#define SIMDJSON_ERROR_H + +#include + +namespace simdjson { + +/** + * All possible errors returned by simdjson. + */ +enum error_code { + SUCCESS = 0, ///< No error + CAPACITY, ///< This parser can't support a document that big + MEMALLOC, ///< Error allocating memory, most likely out of memory + TAPE_ERROR, ///< Something went wrong while writing to the tape (stage 2), this is a generic error + DEPTH_ERROR, ///< Your document exceeds the user-specified depth limitation + STRING_ERROR, ///< Problem while parsing a string + T_ATOM_ERROR, ///< Problem while parsing an atom starting with the letter 't' + F_ATOM_ERROR, ///< Problem while parsing an atom starting with the letter 'f' + N_ATOM_ERROR, ///< Problem while parsing an atom starting with the letter 'n' + NUMBER_ERROR, ///< Problem while parsing a number + UTF8_ERROR, ///< the input is not valid UTF-8 + UNINITIALIZED, ///< unknown error, or uninitialized document + EMPTY, ///< no structural element found + UNESCAPED_CHARS, ///< found unescaped characters in a string. + UNCLOSED_STRING, ///< missing quote at the end + UNSUPPORTED_ARCHITECTURE, ///< unsupported architecture + INCORRECT_TYPE, ///< JSON element has a different type than user expected + NUMBER_OUT_OF_RANGE, ///< JSON number does not fit in 64 bits + INDEX_OUT_OF_BOUNDS, ///< JSON array index too large + NO_SUCH_FIELD, ///< JSON field not found in object + IO_ERROR, ///< Error reading a file + INVALID_JSON_POINTER, ///< Invalid JSON pointer reference + INVALID_URI_FRAGMENT, ///< Invalid URI fragment + UNEXPECTED_ERROR, ///< indicative of a bug in simdjson + PARSER_IN_USE, ///< parser is already in use. + /** @private Number of error codes */ + NUM_ERROR_CODES +}; + +/** + * Get the error message for the given error code. + * + * dom::parser parser; + * dom::element doc; + * auto error = parser.parse("foo",3).get(doc); + * if (error) { printf("Error: %s\n", error_message(error)); } + * + * @return The error message. + */ +inline const char *error_message(error_code error) noexcept; + +/** + * Write the error message to the output stream + */ +inline std::ostream& operator<<(std::ostream& out, error_code error) noexcept; + +/** + * Exception thrown when an exception-supporting simdjson method is called + */ +struct simdjson_error : public std::exception { + /** + * Create an exception from a simdjson error code. + * @param error The error code + */ + simdjson_error(error_code error) noexcept : _error{error} { } + /** The error message */ + const char *what() const noexcept { return error_message(error()); } + /** The error code */ + error_code error() const noexcept { return _error; } +private: + /** The error code that was used */ + error_code _error; +}; + +namespace internal { + +/** + * The result of a simdjson operation that could fail. + * + * Gives the option of reading error codes, or throwing an exception by casting to the desired result. + * + * This is a base class for implementations that want to add functions to the result type for + * chaining. + * + * Override like: + * + * struct simdjson_result : public internal::simdjson_result_base { + * simdjson_result() noexcept : internal::simdjson_result_base() {} + * simdjson_result(error_code error) noexcept : internal::simdjson_result_base(error) {} + * simdjson_result(T &&value) noexcept : internal::simdjson_result_base(std::forward(value)) {} + * simdjson_result(T &&value, error_code error) noexcept : internal::simdjson_result_base(value, error) {} + * // Your extra methods here + * } + * + * Then any method returning simdjson_result will be chainable with your methods. + */ +template +struct simdjson_result_base : protected std::pair { + + /** + * Create a new empty result with error = UNINITIALIZED. + */ + simdjson_really_inline simdjson_result_base() noexcept; + + /** + * Create a new error result. + */ + simdjson_really_inline simdjson_result_base(error_code error) noexcept; + + /** + * Create a new successful result. + */ + simdjson_really_inline simdjson_result_base(T &&value) noexcept; + + /** + * Create a new result with both things (use if you don't want to branch when creating the result). + */ + simdjson_really_inline simdjson_result_base(T &&value, error_code error) noexcept; + + /** + * Move the value and the error to the provided variables. + * + * @param value The variable to assign the value to. May not be set if there is an error. + * @param error The variable to assign the error to. Set to SUCCESS if there is no error. + */ + simdjson_really_inline void tie(T &value, error_code &error) && noexcept; + + /** + * Move the value to the provided variable. + * + * @param value The variable to assign the value to. May not be set if there is an error. + */ + simdjson_really_inline error_code get(T &value) && noexcept; + + /** + * The error. + */ + simdjson_really_inline error_code error() const noexcept; + +#if SIMDJSON_EXCEPTIONS + + /** + * Get the result value. + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T& value() & noexcept(false); + + /** + * Take the result value (move it). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T&& value() && noexcept(false); + + /** + * Take the result value (move it). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T&& take_value() && noexcept(false); + + /** + * Cast to the value (will throw on error). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline operator T&&() && noexcept(false); +#endif // SIMDJSON_EXCEPTIONS + + /** + * Get the result value. This function is safe if and only + * the error() method returns a value that evoluates to false. + */ + simdjson_really_inline const T& value_unsafe() const& noexcept; + + /** + * Take the result value (move it). This function is safe if and only + * the error() method returns a value that evoluates to false. + */ + simdjson_really_inline T&& value_unsafe() && noexcept; + +}; // struct simdjson_result_base + +} // namespace internal + +/** + * The result of a simdjson operation that could fail. + * + * Gives the option of reading error codes, or throwing an exception by casting to the desired result. + */ +template +struct simdjson_result : public internal::simdjson_result_base { + /** + * @private Create a new empty result with error = UNINITIALIZED. + */ + simdjson_really_inline simdjson_result() noexcept; + /** + * @private Create a new error result. + */ + simdjson_really_inline simdjson_result(T &&value) noexcept; + /** + * @private Create a new successful result. + */ + simdjson_really_inline simdjson_result(error_code error_code) noexcept; + /** + * @private Create a new result with both things (use if you don't want to branch when creating the result). + */ + simdjson_really_inline simdjson_result(T &&value, error_code error) noexcept; + + /** + * Move the value and the error to the provided variables. + * + * @param value The variable to assign the value to. May not be set if there is an error. + * @param error The variable to assign the error to. Set to SUCCESS if there is no error. + */ + simdjson_really_inline void tie(T &value, error_code &error) && noexcept; + + /** + * Move the value to the provided variable. + * + * @param value The variable to assign the value to. May not be set if there is an error. + */ + simdjson_warn_unused simdjson_really_inline error_code get(T &value) && noexcept; + + /** + * The error. + */ + simdjson_really_inline error_code error() const noexcept; + +#if SIMDJSON_EXCEPTIONS + + /** + * Get the result value. + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T& value() & noexcept(false); + + /** + * Take the result value (move it). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T&& value() && noexcept(false); + + /** + * Take the result value (move it). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T&& take_value() && noexcept(false); + + /** + * Cast to the value (will throw on error). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline operator T&&() && noexcept(false); +#endif // SIMDJSON_EXCEPTIONS + + /** + * Get the result value. This function is safe if and only + * the error() method returns a value that evoluates to false. + */ + simdjson_really_inline const T& value_unsafe() const& noexcept; + + /** + * Take the result value (move it). This function is safe if and only + * the error() method returns a value that evoluates to false. + */ + simdjson_really_inline T&& value_unsafe() && noexcept; + +}; // struct simdjson_result + +#ifndef SIMDJSON_DISABLE_DEPRECATED_API +/** + * @deprecated This is an alias and will be removed, use error_code instead + */ +using ErrorValues [[deprecated("This is an alias and will be removed, use error_code instead")]] = error_code; + +/** + * @deprecated Error codes should be stored and returned as `error_code`, use `error_message()` instead. + */ +[[deprecated("Error codes should be stored and returned as `error_code`, use `error_message()` instead.")]] +inline const std::string error_message(int error) noexcept; +#endif // SIMDJSON_DISABLE_DEPRECATED_API +} // namespace simdjson + +#endif // SIMDJSON_ERROR_H +/* end file include/simdjson/error.h */ +/* begin file include/simdjson/minify.h */ +#ifndef SIMDJSON_MINIFY_H +#define SIMDJSON_MINIFY_H + +/* begin file include/simdjson/padded_string.h */ +#ifndef SIMDJSON_PADDED_STRING_H +#define SIMDJSON_PADDED_STRING_H + + +#include +#include +#include +#include + +namespace simdjson { + +/** + * String with extra allocation for ease of use with parser::parse() + * + * This is a move-only class, it cannot be copied. + */ +struct padded_string final { + + /** + * Create a new, empty padded string. + */ + explicit inline padded_string() noexcept; + /** + * Create a new padded string buffer. + * + * @param length the size of the string. + */ + explicit inline padded_string(size_t length) noexcept; + /** + * Create a new padded string by copying the given input. + * + * @param data the buffer to copy + * @param length the number of bytes to copy + */ + explicit inline padded_string(const char *data, size_t length) noexcept; + /** + * Create a new padded string by copying the given input. + * + * @param str_ the string to copy + */ + inline padded_string(const std::string & str_ ) noexcept; + /** + * Create a new padded string by copying the given input. + * + * @param sv_ the string to copy + */ + inline padded_string(std::string_view sv_) noexcept; + /** + * Move one padded string into another. + * + * The original padded string will be reduced to zero capacity. + * + * @param o the string to move. + */ + inline padded_string(padded_string &&o) noexcept; + /** + * Move one padded string into another. + * + * The original padded string will be reduced to zero capacity. + * + * @param o the string to move. + */ + inline padded_string &operator=(padded_string &&o) noexcept; + inline void swap(padded_string &o) noexcept; + ~padded_string() noexcept; + + /** + * The length of the string. + * + * Does not include padding. + */ + size_t size() const noexcept; + + /** + * The length of the string. + * + * Does not include padding. + */ + size_t length() const noexcept; + + /** + * The string data. + **/ + const char *data() const noexcept; + const uint8_t *u8data() const noexcept { return static_cast(static_cast(data_ptr));} + + /** + * The string data. + **/ + char *data() noexcept; + + /** + * Create a std::string_view with the same content. + */ + operator std::string_view() const; + + /** + * Load this padded string from a file. + * + * @param path the path to the file. + **/ + inline static simdjson_result load(const std::string &path) noexcept; + +private: + padded_string &operator=(const padded_string &o) = delete; + padded_string(const padded_string &o) = delete; + + size_t viable_size{0}; + char *data_ptr{nullptr}; + +}; // padded_string + +/** + * Send padded_string instance to an output stream. + * + * @param out The output stream. + * @param s The padded_string instance. + * @throw if there is an error with the underlying output stream. simdjson itself will not throw. + */ +inline std::ostream& operator<<(std::ostream& out, const padded_string& s) { return out << s.data(); } + +#if SIMDJSON_EXCEPTIONS +/** + * Send padded_string instance to an output stream. + * + * @param out The output stream. + * @param s The padded_string instance. + * @throw simdjson_error if the result being printed has an error. If there is an error with the + * underlying output stream, that error will be propagated (simdjson_error will not be + * thrown). + */ +inline std::ostream& operator<<(std::ostream& out, simdjson_result &s) noexcept(false) { return out << s.value(); } +#endif + +} // namespace simdjson + +// This is deliberately outside of simdjson so that people get it without having to use the namespace +inline simdjson::padded_string operator "" _padded(const char *str, size_t len) { + return simdjson::padded_string(str, len); +} + +namespace simdjson { +namespace internal { + +// The allocate_padded_buffer function is a low-level function to allocate memory +// with padding so we can read past the "length" bytes safely. It is used by +// the padded_string class automatically. It returns nullptr in case +// of error: the caller should check for a null pointer. +// The length parameter is the maximum size in bytes of the string. +// The caller is responsible to free the memory (e.g., delete[] (...)). +inline char *allocate_padded_buffer(size_t length) noexcept; + +} // namespace internal +} // namespace simdjson + +#endif // SIMDJSON_PADDED_STRING_H +/* end file include/simdjson/padded_string.h */ +#include +#include +#include + +namespace simdjson { + + + +/** + * + * Minify the input string assuming that it represents a JSON string, does not parse or validate. + * This function is much faster than parsing a JSON string and then writing a minified version of it. + * However, it does not validate the input. It will merely return an error in simple cases (e.g., if + * there is a string that was never terminated). + * + * + * @param buf the json document to minify. + * @param len the length of the json document. + * @param dst the buffer to write the minified document to. *MUST* be allocated up to len bytes. + * @param dst_len the number of bytes written. Output only. + * @return the error code, or SUCCESS if there was no error. + */ +simdjson_warn_unused error_code minify(const char *buf, size_t len, char *dst, size_t &dst_len) noexcept; + +} // namespace simdjson + +#endif // SIMDJSON_MINIFY_H +/* end file include/simdjson/minify.h */ +/* begin file include/simdjson/implementation.h */ +#ifndef SIMDJSON_IMPLEMENTATION_H +#define SIMDJSON_IMPLEMENTATION_H + +/* begin file include/simdjson/internal/dom_parser_implementation.h */ +#ifndef SIMDJSON_INTERNAL_DOM_PARSER_IMPLEMENTATION_H +#define SIMDJSON_INTERNAL_DOM_PARSER_IMPLEMENTATION_H + +#include + +namespace simdjson { + +namespace dom { +class document; +} // namespace dom + +namespace internal { + +/** + * An implementation of simdjson's DOM parser for a particular CPU architecture. + * + * This class is expected to be accessed only by pointer, and never move in memory (though the + * pointer can move). + */ +class dom_parser_implementation { +public: + + /** + * @private For internal implementation use + * + * Run a full JSON parse on a single document (stage1 + stage2). + * + * Guaranteed only to be called when capacity > document length. + * + * Overridden by each implementation. + * + * @param buf The json document to parse. *MUST* be allocated up to len + SIMDJSON_PADDING bytes. + * @param len The length of the json document. + * @return The error code, or SUCCESS if there was no error. + */ + simdjson_warn_unused virtual error_code parse(const uint8_t *buf, size_t len, dom::document &doc) noexcept = 0; + + /** + * @private For internal implementation use + * + * Stage 1 of the document parser. + * + * Guaranteed only to be called when capacity > document length. + * + * Overridden by each implementation. + * + * @param buf The json document to parse. + * @param len The length of the json document. + * @param streaming Whether this is being called by parser::parse_many. + * @return The error code, or SUCCESS if there was no error. + */ + simdjson_warn_unused virtual error_code stage1(const uint8_t *buf, size_t len, bool streaming) noexcept = 0; + + /** + * @private For internal implementation use + * + * Stage 2 of the document parser. + * + * Called after stage1(). + * + * Overridden by each implementation. + * + * @param doc The document to output to. + * @return The error code, or SUCCESS if there was no error. + */ + simdjson_warn_unused virtual error_code stage2(dom::document &doc) noexcept = 0; + + /** + * @private For internal implementation use + * + * Stage 2 of the document parser for parser::parse_many. + * + * Guaranteed only to be called after stage1(). + * Overridden by each implementation. + * + * @param doc The document to output to. + * @return The error code, SUCCESS if there was no error, or EMPTY if all documents have been parsed. + */ + simdjson_warn_unused virtual error_code stage2_next(dom::document &doc) noexcept = 0; + + /** + * Change the capacity of this parser. + * + * Generally used for reallocation. + * + * @param capacity The new capacity. + * @param max_depth The new max_depth. + * @return The error code, or SUCCESS if there was no error. + */ + virtual error_code set_capacity(size_t capacity) noexcept = 0; + + /** + * Change the max depth of this parser. + * + * Generally used for reallocation. + * + * @param capacity The new capacity. + * @param max_depth The new max_depth. + * @return The error code, or SUCCESS if there was no error. + */ + virtual error_code set_max_depth(size_t max_depth) noexcept = 0; + + /** + * Deallocate this parser. + */ + virtual ~dom_parser_implementation() = default; + + /** Number of structural indices passed from stage 1 to stage 2 */ + uint32_t n_structural_indexes{0}; + /** Structural indices passed from stage 1 to stage 2 */ + std::unique_ptr structural_indexes{}; + /** Next structural index to parse */ + uint32_t next_structural_index{0}; + + /** + * The largest document this parser can support without reallocating. + * + * @return Current capacity, in bytes. + */ + simdjson_really_inline size_t capacity() const noexcept; + + /** + * The maximum level of nested object and arrays supported by this parser. + * + * @return Maximum depth, in bytes. + */ + simdjson_really_inline size_t max_depth() const noexcept; + + /** + * Ensure this parser has enough memory to process JSON documents up to `capacity` bytes in length + * and `max_depth` depth. + * + * @param capacity The new capacity. + * @param max_depth The new max_depth. Defaults to DEFAULT_MAX_DEPTH. + * @return The error, if there is one. + */ + simdjson_warn_unused inline error_code allocate(size_t capacity, size_t max_depth) noexcept; + +protected: + /** + * The maximum document length this parser supports. + * + * Buffers are large enough to handle any document up to this length. + */ + size_t _capacity{0}; + + /** + * The maximum depth (number of nested objects and arrays) supported by this parser. + * + * Defaults to DEFAULT_MAX_DEPTH. + */ + size_t _max_depth{0}; + + // Declaring these so that subclasses can use them to implement their constructors. + simdjson_really_inline dom_parser_implementation() noexcept; + simdjson_really_inline dom_parser_implementation(dom_parser_implementation &&other) noexcept; + simdjson_really_inline dom_parser_implementation &operator=(dom_parser_implementation &&other) noexcept; + + simdjson_really_inline dom_parser_implementation(const dom_parser_implementation &) noexcept = delete; + simdjson_really_inline dom_parser_implementation &operator=(const dom_parser_implementation &other) noexcept = delete; +}; // class dom_parser_implementation + +simdjson_really_inline dom_parser_implementation::dom_parser_implementation() noexcept = default; +simdjson_really_inline dom_parser_implementation::dom_parser_implementation(dom_parser_implementation &&other) noexcept = default; +simdjson_really_inline dom_parser_implementation &dom_parser_implementation::operator=(dom_parser_implementation &&other) noexcept = default; + +simdjson_really_inline size_t dom_parser_implementation::capacity() const noexcept { + return _capacity; +} + +simdjson_really_inline size_t dom_parser_implementation::max_depth() const noexcept { + return _max_depth; +} + +simdjson_warn_unused +inline error_code dom_parser_implementation::allocate(size_t capacity, size_t max_depth) noexcept { + if (this->max_depth() != max_depth) { + error_code err = set_max_depth(max_depth); + if (err) { return err; } + } + if (_capacity != capacity) { + error_code err = set_capacity(capacity); + if (err) { return err; } + } + return SUCCESS; +} + +} // namespace internal +} // namespace simdjson + +#endif // SIMDJSON_INTERNAL_DOM_PARSER_IMPLEMENTATION_H +/* end file include/simdjson/internal/dom_parser_implementation.h */ +/* begin file include/simdjson/internal/isadetection.h */ +/* From +https://github.com/endorno/pytorch/blob/master/torch/lib/TH/generic/simd/simd.h +Highly modified. + +Copyright (c) 2016- Facebook, Inc (Adam Paszke) +Copyright (c) 2014- Facebook, Inc (Soumith Chintala) +Copyright (c) 2011-2014 Idiap Research Institute (Ronan Collobert) +Copyright (c) 2012-2014 Deepmind Technologies (Koray Kavukcuoglu) +Copyright (c) 2011-2012 NEC Laboratories America (Koray Kavukcuoglu) +Copyright (c) 2011-2013 NYU (Clement Farabet) +Copyright (c) 2006-2010 NEC Laboratories America (Ronan Collobert, Leon Bottou, +Iain Melvin, Jason Weston) Copyright (c) 2006 Idiap Research Institute +(Samy Bengio) Copyright (c) 2001-2004 Idiap Research Institute (Ronan Collobert, +Samy Bengio, Johnny Mariethoz) + +All rights reserved. + +Redistribution and use in source and binary forms, with or without +modification, are permitted provided that the following conditions are met: + +1. Redistributions of source code must retain the above copyright + notice, this list of conditions and the following disclaimer. + +2. Redistributions in binary form must reproduce the above copyright + notice, this list of conditions and the following disclaimer in the + documentation and/or other materials provided with the distribution. + +3. Neither the names of Facebook, Deepmind Technologies, NYU, NEC Laboratories +America and IDIAP Research Institute nor the names of its contributors may be + used to endorse or promote products derived from this software without + specific prior written permission. + +THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" +AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE +IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE +ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE +LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR +CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF +SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS +INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN +CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) +ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE +POSSIBILITY OF SUCH DAMAGE. +*/ + +#ifndef SIMDJSON_INTERNAL_ISADETECTION_H +#define SIMDJSON_INTERNAL_ISADETECTION_H + +#include +#include +#if defined(_MSC_VER) +#include +#elif defined(HAVE_GCC_GET_CPUID) && defined(USE_GCC_GET_CPUID) +#include +#endif + +namespace simdjson { +namespace internal { + + +enum instruction_set { + DEFAULT = 0x0, + NEON = 0x1, + AVX2 = 0x4, + SSE42 = 0x8, + PCLMULQDQ = 0x10, + BMI1 = 0x20, + BMI2 = 0x40, + ALTIVEC = 0x80 +}; + +#if defined(__PPC64__) + +static inline uint32_t detect_supported_architectures() { + return instruction_set::ALTIVEC; +} + +#elif defined(__arm__) || defined(__aarch64__) // incl. armel, armhf, arm64 + +#if defined(__ARM_NEON) + +static inline uint32_t detect_supported_architectures() { + return instruction_set::NEON; +} + +#else // ARM without NEON + +static inline uint32_t detect_supported_architectures() { + return instruction_set::DEFAULT; +} + +#endif + +#elif defined(__x86_64__) || defined(_M_AMD64) // x64 + + +namespace { +// Can be found on Intel ISA Reference for CPUID +constexpr uint32_t cpuid_avx2_bit = 1 << 5; ///< @private Bit 5 of EBX for EAX=0x7 +constexpr uint32_t cpuid_bmi1_bit = 1 << 3; ///< @private bit 3 of EBX for EAX=0x7 +constexpr uint32_t cpuid_bmi2_bit = 1 << 8; ///< @private bit 8 of EBX for EAX=0x7 +constexpr uint32_t cpuid_sse42_bit = 1 << 20; ///< @private bit 20 of ECX for EAX=0x1 +constexpr uint32_t cpuid_pclmulqdq_bit = 1 << 1; ///< @private bit 1 of ECX for EAX=0x1 +} + + + +static inline void cpuid(uint32_t *eax, uint32_t *ebx, uint32_t *ecx, + uint32_t *edx) { +#if defined(_MSC_VER) + int cpu_info[4]; + __cpuid(cpu_info, *eax); + *eax = cpu_info[0]; + *ebx = cpu_info[1]; + *ecx = cpu_info[2]; + *edx = cpu_info[3]; +#elif defined(HAVE_GCC_GET_CPUID) && defined(USE_GCC_GET_CPUID) + uint32_t level = *eax; + __get_cpuid(level, eax, ebx, ecx, edx); +#else + uint32_t a = *eax, b, c = *ecx, d; + asm volatile("cpuid\n\t" : "+a"(a), "=b"(b), "+c"(c), "=d"(d)); + *eax = a; + *ebx = b; + *ecx = c; + *edx = d; +#endif +} + +static inline uint32_t detect_supported_architectures() { + uint32_t eax, ebx, ecx, edx; + uint32_t host_isa = 0x0; + + // ECX for EAX=0x7 + eax = 0x7; + ecx = 0x0; + cpuid(&eax, &ebx, &ecx, &edx); + if (ebx & cpuid_avx2_bit) { + host_isa |= instruction_set::AVX2; + } + if (ebx & cpuid_bmi1_bit) { + host_isa |= instruction_set::BMI1; + } + + if (ebx & cpuid_bmi2_bit) { + host_isa |= instruction_set::BMI2; + } + + // EBX for EAX=0x1 + eax = 0x1; + cpuid(&eax, &ebx, &ecx, &edx); + + if (ecx & cpuid_sse42_bit) { + host_isa |= instruction_set::SSE42; + } + + if (ecx & cpuid_pclmulqdq_bit) { + host_isa |= instruction_set::PCLMULQDQ; + } + + return host_isa; +} +#else // fallback + + +static inline uint32_t detect_supported_architectures() { + return instruction_set::DEFAULT; +} + + +#endif // end SIMD extension detection code + +} // namespace internal +} // namespace simdjson + +#endif // SIMDJSON_INTERNAL_ISADETECTION_H +/* end file include/simdjson/internal/isadetection.h */ +#include +#include +#include + +namespace simdjson { + +/** + * Validate the UTF-8 string. + * + * @param buf the string to validate. + * @param len the length of the string in bytes. + * @return true if the string is valid UTF-8. + */ +simdjson_warn_unused bool validate_utf8(const char * buf, size_t len) noexcept; + + +/** + * Validate the UTF-8 string. + * + * @param sv the string_view to validate. + * @return true if the string is valid UTF-8. + */ +simdjson_really_inline simdjson_warn_unused bool validate_utf8(const std::string_view sv) noexcept { + return validate_utf8(sv.data(), sv.size()); +} + +/** + * Validate the UTF-8 string. + * + * @param p the string to validate. + * @return true if the string is valid UTF-8. + */ +simdjson_really_inline simdjson_warn_unused bool validate_utf8(const std::string& s) noexcept { + return validate_utf8(s.data(), s.size()); +} + +namespace dom { + class document; +} // namespace dom + +/** + * An implementation of simdjson for a particular CPU architecture. + * + * Also used to maintain the currently active implementation. The active implementation is + * automatically initialized on first use to the most advanced implementation supported by the host. + */ +class implementation { +public: + + /** + * The name of this implementation. + * + * const implementation *impl = simdjson::active_implementation; + * cout << "simdjson is optimized for " << impl->name() << "(" << impl->description() << ")" << endl; + * + * @return the name of the implementation, e.g. "haswell", "westmere", "arm64" + */ + virtual const std::string &name() const { return _name; } + + /** + * The description of this implementation. + * + * const implementation *impl = simdjson::active_implementation; + * cout << "simdjson is optimized for " << impl->name() << "(" << impl->description() << ")" << endl; + * + * @return the name of the implementation, e.g. "haswell", "westmere", "arm64" + */ + virtual const std::string &description() const { return _description; } + + /** + * The instruction sets this implementation is compiled against + * and the current CPU match. This function may poll the current CPU/system + * and should therefore not be called too often if performance is a concern. + * + * + * @return true if the implementation can be safely used on the current system (determined at runtime) + */ + bool supported_by_runtime_system() const; + + /** + * @private For internal implementation use + * + * The instruction sets this implementation is compiled against. + * + * @return a mask of all required `internal::instruction_set::` values + */ + virtual uint32_t required_instruction_sets() const { return _required_instruction_sets; }; + + /** + * @private For internal implementation use + * + * const implementation *impl = simdjson::active_implementation; + * cout << "simdjson is optimized for " << impl->name() << "(" << impl->description() << ")" << endl; + * + * @param capacity The largest document that will be passed to the parser. + * @param max_depth The maximum JSON object/array nesting this parser is expected to handle. + * @param dst The place to put the resulting parser implementation. + * @return the name of the implementation, e.g. "haswell", "westmere", "arm64" + */ + virtual error_code create_dom_parser_implementation( + size_t capacity, + size_t max_depth, + std::unique_ptr &dst + ) const noexcept = 0; + + /** + * @private For internal implementation use + * + * Minify the input string assuming that it represents a JSON string, does not parse or validate. + * + * Overridden by each implementation. + * + * @param buf the json document to minify. + * @param len the length of the json document. + * @param dst the buffer to write the minified document to. *MUST* be allocated up to len + SIMDJSON_PADDING bytes. + * @param dst_len the number of bytes written. Output only. + * @return the error code, or SUCCESS if there was no error. + */ + simdjson_warn_unused virtual error_code minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) const noexcept = 0; + + + /** + * Validate the UTF-8 string. + * + * Overridden by each implementation. + * + * @param buf the string to validate. + * @param len the length of the string in bytes. + * @return true if and only if the string is valid UTF-8. + */ + simdjson_warn_unused virtual bool validate_utf8(const char *buf, size_t len) const noexcept = 0; + +protected: + /** @private Construct an implementation with the given name and description. For subclasses. */ + simdjson_really_inline implementation( + std::string_view name, + std::string_view description, + uint32_t required_instruction_sets + ) : + _name(name), + _description(description), + _required_instruction_sets(required_instruction_sets) + { + } + virtual ~implementation()=default; + +private: + /** + * The name of this implementation. + */ + const std::string _name; + + /** + * The description of this implementation. + */ + const std::string _description; + + /** + * Instruction sets required for this implementation. + */ + const uint32_t _required_instruction_sets; +}; + +/** @private */ +namespace internal { + +/** + * The list of available implementations compiled into simdjson. + */ +class available_implementation_list { +public: + /** Get the list of available implementations compiled into simdjson */ + simdjson_really_inline available_implementation_list() {} + /** Number of implementations */ + size_t size() const noexcept; + /** STL const begin() iterator */ + const implementation * const *begin() const noexcept; + /** STL const end() iterator */ + const implementation * const *end() const noexcept; + + /** + * Get the implementation with the given name. + * + * Case sensitive. + * + * const implementation *impl = simdjson::available_implementations["westmere"]; + * if (!impl) { exit(1); } + * if (!imp->supported_by_runtime_system()) { exit(1); } + * simdjson::active_implementation = impl; + * + * @param name the implementation to find, e.g. "westmere", "haswell", "arm64" + * @return the implementation, or nullptr if the parse failed. + */ + const implementation * operator[](const std::string_view &name) const noexcept { + for (const implementation * impl : *this) { + if (impl->name() == name) { return impl; } + } + return nullptr; + } + + /** + * Detect the most advanced implementation supported by the current host. + * + * This is used to initialize the implementation on startup. + * + * const implementation *impl = simdjson::available_implementation::detect_best_supported(); + * simdjson::active_implementation = impl; + * + * @return the most advanced supported implementation for the current host, or an + * implementation that returns UNSUPPORTED_ARCHITECTURE if there is no supported + * implementation. Will never return nullptr. + */ + const implementation *detect_best_supported() const noexcept; +}; + +template +class atomic_ptr { +public: + atomic_ptr(T *_ptr) : ptr{_ptr} {} + + operator const T*() const { return ptr.load(); } + const T& operator*() const { return *ptr; } + const T* operator->() const { return ptr.load(); } + + operator T*() { return ptr.load(); } + T& operator*() { return *ptr; } + T* operator->() { return ptr.load(); } + atomic_ptr& operator=(T *_ptr) { ptr = _ptr; return *this; } + +private: + std::atomic ptr; +}; + +} // namespace internal + +/** + * The list of available implementations compiled into simdjson. + */ +extern SIMDJSON_DLLIMPORTEXPORT const internal::available_implementation_list available_implementations; + +/** + * The active implementation. + * + * Automatically initialized on first use to the most advanced implementation supported by this hardware. + */ +extern SIMDJSON_DLLIMPORTEXPORT internal::atomic_ptr active_implementation; + +} // namespace simdjson + +#endif // SIMDJSON_IMPLEMENTATION_H +/* end file include/simdjson/implementation.h */ +/* begin file include/simdjson/dom/array.h */ +#ifndef SIMDJSON_DOM_ARRAY_H +#define SIMDJSON_DOM_ARRAY_H + +/* begin file include/simdjson/internal/tape_ref.h */ +#ifndef SIMDJSON_INTERNAL_TAPE_REF_H +#define SIMDJSON_INTERNAL_TAPE_REF_H + +/* begin file include/simdjson/internal/tape_type.h */ +#ifndef SIMDJSON_INTERNAL_TAPE_TYPE_H +#define SIMDJSON_INTERNAL_TAPE_TYPE_H + +namespace simdjson { +namespace internal { + +/** + * The possible types in the tape. + */ +enum class tape_type { + ROOT = 'r', + START_ARRAY = '[', + START_OBJECT = '{', + END_ARRAY = ']', + END_OBJECT = '}', + STRING = '"', + INT64 = 'l', + UINT64 = 'u', + DOUBLE = 'd', + TRUE_VALUE = 't', + FALSE_VALUE = 'f', + NULL_VALUE = 'n' +}; // enum class tape_type + +} // namespace internal +} // namespace simdjson + +#endif // SIMDJSON_INTERNAL_TAPE_TYPE_H +/* end file include/simdjson/internal/tape_type.h */ + +namespace simdjson { + +namespace dom { + class document; +} + +namespace internal { + +constexpr const uint64_t JSON_VALUE_MASK = 0x00FFFFFFFFFFFFFF; +constexpr const uint32_t JSON_COUNT_MASK = 0xFFFFFF; + +/** + * A reference to an element on the tape. Internal only. + */ +class tape_ref { +public: + simdjson_really_inline tape_ref() noexcept; + simdjson_really_inline tape_ref(const dom::document *doc, size_t json_index) noexcept; + inline size_t after_element() const noexcept; + simdjson_really_inline tape_type tape_ref_type() const noexcept; + simdjson_really_inline uint64_t tape_value() const noexcept; + simdjson_really_inline bool is_double() const noexcept; + simdjson_really_inline bool is_int64() const noexcept; + simdjson_really_inline bool is_uint64() const noexcept; + simdjson_really_inline bool is_false() const noexcept; + simdjson_really_inline bool is_true() const noexcept; + simdjson_really_inline bool is_null_on_tape() const noexcept;// different name to avoid clash with is_null. + simdjson_really_inline uint32_t matching_brace_index() const noexcept; + simdjson_really_inline uint32_t scope_count() const noexcept; + template + simdjson_really_inline T next_tape_value() const noexcept; + simdjson_really_inline uint32_t get_string_length() const noexcept; + simdjson_really_inline const char * get_c_str() const noexcept; + inline std::string_view get_string_view() const noexcept; + simdjson_really_inline bool is_document_root() const noexcept; + + /** The document this element references. */ + const dom::document *doc; + + /** The index of this element on `doc.tape[]` */ + size_t json_index; +}; + +} // namespace internal +} // namespace simdjson + +#endif // SIMDJSON_INTERNAL_TAPE_REF_H +/* end file include/simdjson/internal/tape_ref.h */ + +namespace simdjson { + +namespace internal { +template +class string_builder; +} +namespace dom { + +class document; +class element; + +/** + * JSON array. + */ +class array { +public: + /** Create a new, invalid array */ + simdjson_really_inline array() noexcept; + + class iterator { + public: + using value_type = element; + using difference_type = std::ptrdiff_t; + + /** + * Get the actual value + */ + inline value_type operator*() const noexcept; + /** + * Get the next value. + * + * Part of the std::iterator interface. + */ + inline iterator& operator++() noexcept; + /** + * Get the next value. + * + * Part of the std::iterator interface. + */ + inline iterator operator++(int) noexcept; + /** + * Check if these values come from the same place in the JSON. + * + * Part of the std::iterator interface. + */ + inline bool operator!=(const iterator& other) const noexcept; + inline bool operator==(const iterator& other) const noexcept; + + inline bool operator<(const iterator& other) const noexcept; + inline bool operator<=(const iterator& other) const noexcept; + inline bool operator>=(const iterator& other) const noexcept; + inline bool operator>(const iterator& other) const noexcept; + + iterator() noexcept = default; + iterator(const iterator&) noexcept = default; + iterator& operator=(const iterator&) noexcept = default; + private: + simdjson_really_inline iterator(const internal::tape_ref &tape) noexcept; + internal::tape_ref tape; + friend class array; + }; + + /** + * Return the first array element. + * + * Part of the std::iterable interface. + */ + inline iterator begin() const noexcept; + /** + * One past the last array element. + * + * Part of the std::iterable interface. + */ + inline iterator end() const noexcept; + /** + * Get the size of the array (number of immediate children). + * It is a saturated value with a maximum of 0xFFFFFF: if the value + * is 0xFFFFFF then the size is 0xFFFFFF or greater. + */ + inline size_t size() const noexcept; + /** + * Get the total number of slots used by this array on the tape. + * + * Note that this is not the same thing as `size()`, which reports the + * number of actual elements within an array (not counting its children). + * + * Since an element can use 1 or 2 slots on the tape, you can only use this + * to figure out the total size of an array (including its children, + * recursively) if you know its structure ahead of time. + **/ + inline size_t slots() const noexcept; + /** + * Get the value associated with the given JSON pointer. We use the RFC 6901 + * https://tools.ietf.org/html/rfc6901 standard, interpreting the current node + * as the root of its own JSON document. + * + * dom::parser parser; + * array a = parser.parse(R"([ { "foo": { "a": [ 10, 20, 30 ] }} ])"_padded); + * a.at_pointer("/0/foo/a/1") == 20 + * a.at_pointer("0")["foo"]["a"].at(1) == 20 + * + * @return The value associated with the given JSON pointer, or: + * - NO_SUCH_FIELD if a field does not exist in an object + * - INDEX_OUT_OF_BOUNDS if an array index is larger than an array length + * - INCORRECT_TYPE if a non-integer is used to access an array + * - INVALID_JSON_POINTER if the JSON pointer is invalid and cannot be parsed + */ + inline simdjson_result at_pointer(std::string_view json_pointer) const noexcept; + + /** + * Get the value at the given index. This function has linear-time complexity and + * is equivalent to the following: + * + * size_t i=0; + * for (auto element : *this) { + * if (i == index) { return element; } + * i++; + * } + * return INDEX_OUT_OF_BOUNDS; + * + * Avoid calling the at() function repeatedly. + * + * @return The value at the given index, or: + * - INDEX_OUT_OF_BOUNDS if the array index is larger than an array length + */ + inline simdjson_result at(size_t index) const noexcept; + +private: + simdjson_really_inline array(const internal::tape_ref &tape) noexcept; + internal::tape_ref tape; + friend class element; + friend struct simdjson_result; + template + friend class simdjson::internal::string_builder; +}; + + +} // namespace dom + +/** The result of a JSON conversion that may fail. */ +template<> +struct simdjson_result : public internal::simdjson_result_base { +public: + simdjson_really_inline simdjson_result() noexcept; ///< @private + simdjson_really_inline simdjson_result(dom::array value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + + inline simdjson_result at_pointer(std::string_view json_pointer) const noexcept; + inline simdjson_result at(size_t index) const noexcept; + +#if SIMDJSON_EXCEPTIONS + inline dom::array::iterator begin() const noexcept(false); + inline dom::array::iterator end() const noexcept(false); + inline size_t size() const noexcept(false); +#endif // SIMDJSON_EXCEPTIONS +}; + + + +} // namespace simdjson + +#if defined(__cpp_lib_ranges) +#include + +namespace std { +namespace ranges { +template<> +inline constexpr bool enable_view = true; +#if SIMDJSON_EXCEPTIONS +template<> +inline constexpr bool enable_view> = true; +#endif // SIMDJSON_EXCEPTIONS +} // namespace ranges +} // namespace std +#endif // defined(__cpp_lib_ranges) + +#endif // SIMDJSON_DOM_ARRAY_H +/* end file include/simdjson/dom/array.h */ +/* begin file include/simdjson/dom/document_stream.h */ +#ifndef SIMDJSON_DOCUMENT_STREAM_H +#define SIMDJSON_DOCUMENT_STREAM_H + +/* begin file include/simdjson/dom/parser.h */ +#ifndef SIMDJSON_DOM_PARSER_H +#define SIMDJSON_DOM_PARSER_H + +/* begin file include/simdjson/dom/document.h */ +#ifndef SIMDJSON_DOM_DOCUMENT_H +#define SIMDJSON_DOM_DOCUMENT_H + +#include +#include + +namespace simdjson { +namespace dom { + +class element; + +/** + * A parsed JSON document. + * + * This class cannot be copied, only moved, to avoid unintended allocations. + */ +class document { +public: + /** + * Create a document container with zero capacity. + * + * The parser will allocate capacity as needed. + */ + document() noexcept = default; + ~document() noexcept = default; + + /** + * Take another document's buffers. + * + * @param other The document to take. Its capacity is zeroed and it is invalidated. + */ + document(document &&other) noexcept = default; + /** @private */ + document(const document &) = delete; // Disallow copying + /** + * Take another document's buffers. + * + * @param other The document to take. Its capacity is zeroed. + */ + document &operator=(document &&other) noexcept = default; + /** @private */ + document &operator=(const document &) = delete; // Disallow copying + + /** + * Get the root element of this document as a JSON array. + */ + element root() const noexcept; + + /** + * @private Dump the raw tape for debugging. + * + * @param os the stream to output to. + * @return false if the tape is likely wrong (e.g., you did not parse a valid JSON). + */ + bool dump_raw_tape(std::ostream &os) const noexcept; + + /** @private Structural values. */ + std::unique_ptr tape{}; + + /** @private String values. + * + * Should be at least byte_capacity. + */ + std::unique_ptr string_buf{}; + +private: + inline error_code allocate(size_t len) noexcept; + friend class parser; +}; // class document + +} // namespace dom +} // namespace simdjson + +#endif // SIMDJSON_DOM_DOCUMENT_H +/* end file include/simdjson/dom/document.h */ +#include +#include +#include + +namespace simdjson { + +namespace dom { + +class document_stream; +class element; + +/** The default batch size for parser.parse_many() and parser.load_many() */ +static constexpr size_t DEFAULT_BATCH_SIZE = 1000000; +/** + * Some adversary might try to set the batch size to 0 or 1, which might cause problems. + * We set a minimum of 32B since anything else is highly likely to be an error. In practice, + * most users will want a much larger batch size. + * + * All non-negative MINIMAL_BATCH_SIZE values should be 'safe' except that, obviously, no JSON + * document can ever span 0 or 1 byte and that very large values would create memory allocation issues. + */ +static constexpr size_t MINIMAL_BATCH_SIZE = 32; + +/** + * A persistent document parser. + * + * The parser is designed to be reused, holding the internal buffers necessary to do parsing, + * as well as memory for a single document. The parsed document is overwritten on each parse. + * + * This class cannot be copied, only moved, to avoid unintended allocations. + * + * @note Moving a parser instance may invalidate "dom::element" instances. If you need to + * preserve both the "dom::element" instances and the parser, consider wrapping the parser + * instance in a std::unique_ptr instance: + * + * std::unique_ptr parser(new dom::parser{}); + * auto error = parser->load(f).get(root); + * + * You can then move std::unique_ptr safely. + * + * @note This is not thread safe: one parser cannot produce two documents at the same time! + */ +class parser { +public: + /** + * Create a JSON parser. + * + * The new parser will have zero capacity. + * + * @param max_capacity The maximum document length the parser can automatically handle. The parser + * will allocate more capacity on an as needed basis (when it sees documents too big to handle) + * up to this amount. The parser still starts with zero capacity no matter what this number is: + * to allocate an initial capacity, call allocate() after constructing the parser. + * Defaults to SIMDJSON_MAXSIZE_BYTES (the largest single document simdjson can process). + */ + simdjson_really_inline explicit parser(size_t max_capacity = SIMDJSON_MAXSIZE_BYTES) noexcept; + /** + * Take another parser's buffers and state. + * + * @param other The parser to take. Its capacity is zeroed. + */ + simdjson_really_inline parser(parser &&other) noexcept; + parser(const parser &) = delete; ///< @private Disallow copying + /** + * Take another parser's buffers and state. + * + * @param other The parser to take. Its capacity is zeroed. + */ + simdjson_really_inline parser &operator=(parser &&other) noexcept; + parser &operator=(const parser &) = delete; ///< @private Disallow copying + + /** Deallocate the JSON parser. */ + ~parser()=default; + + /** + * Load a JSON document from a file and return a reference to it. + * + * dom::parser parser; + * const element doc = parser.load("jsonexamples/twitter.json"); + * + * The function is eager: the file's content is loaded in memory inside the parser instance + * and immediately parsed. The file can be deleted after the `parser.load` call. + * + * ### IMPORTANT: Document Lifetime + * + * The JSON document still lives in the parser: this is the most efficient way to parse JSON + * documents because it reuses the same buffers, but you *must* use the document before you + * destroy the parser or call parse() again. + * + * Moving the parser instance is safe, but it invalidates the element instances. You may store + * the parser instance without moving it by wrapping it inside an `unique_ptr` instance like + * so: `std::unique_ptr parser(new dom::parser{});`. + * + * ### Parser Capacity + * + * If the parser's current capacity is less than the file length, it will allocate enough capacity + * to handle it (up to max_capacity). + * + * @param path The path to load. + * @return The document, or an error: + * - IO_ERROR if there was an error opening or reading the file. + * - MEMALLOC if the parser does not have enough capacity and memory allocation fails. + * - CAPACITY if the parser does not have enough capacity and len > max_capacity. + * - other json errors if parsing fails. You should not rely on these errors to always the same for the + * same document: they may vary under runtime dispatch (so they may vary depending on your system and hardware). + */ + inline simdjson_result load(const std::string &path) & noexcept; + inline simdjson_result load(const std::string &path) && = delete ; + /** + * Parse a JSON document and return a temporary reference to it. + * + * dom::parser parser; + * element doc = parser.parse(buf, len); + * + * The function eagerly parses the input: the input can be modified and discarded after + * the `parser.parse(buf, len)` call has completed. + * + * ### IMPORTANT: Document Lifetime + * + * The JSON document still lives in the parser: this is the most efficient way to parse JSON + * documents because it reuses the same buffers, but you *must* use the document before you + * destroy the parser or call parse() again. + * + * Moving the parser instance is safe, but it invalidates the element instances. You may store + * the parser instance without moving it by wrapping it inside an `unique_ptr` instance like + * so: `std::unique_ptr parser(new dom::parser{});`. + * + * ### REQUIRED: Buffer Padding + * + * The buffer must have at least SIMDJSON_PADDING extra allocated bytes. It does not matter what + * those bytes are initialized to, as long as they are allocated. + * + * If realloc_if_needed is true (the default), it is assumed that the buffer does *not* have enough padding, + * and it is copied into an enlarged temporary buffer before parsing. Thus the following is safe: + * + * const char *json = R"({"key":"value"})"; + * const size_t json_len = std::strlen(json); + * simdjson::dom::parser parser; + * simdjson::dom::element element = parser.parse(json, json_len); + * + * If you set realloc_if_needed to false (e.g., parser.parse(json, json_len, false)), + * you must provide a buffer with at least SIMDJSON_PADDING extra bytes at the end. + * The benefit of setting realloc_if_needed to false is that you avoid a temporary + * memory allocation and a copy. + * + * The padded bytes may be read. It is not important how you initialize + * these bytes though we recommend a sensible default like null character values or spaces. + * For example, the following low-level code is safe: + * + * const char *json = R"({"key":"value"})"; + * const size_t json_len = std::strlen(json); + * std::unique_ptr padded_json_copy{new char[json_len + SIMDJSON_PADDING]}; + * std::memcpy(padded_json_copy.get(), json, json_len); + * std::memset(padded_json_copy.get() + json_len, '\0', SIMDJSON_PADDING); + * simdjson::dom::parser parser; + * simdjson::dom::element element = parser.parse(padded_json_copy.get(), json_len, false); + * + * ### Parser Capacity + * + * If the parser's current capacity is less than len, it will allocate enough capacity + * to handle it (up to max_capacity). + * + * @param buf The JSON to parse. Must have at least len + SIMDJSON_PADDING allocated bytes, unless + * realloc_if_needed is true. + * @param len The length of the JSON. + * @param realloc_if_needed Whether to reallocate and enlarge the JSON buffer to add padding. + * @return The document, or an error: + * - MEMALLOC if realloc_if_needed is true or the parser does not have enough capacity, + * and memory allocation fails. + * - CAPACITY if the parser does not have enough capacity and len > max_capacity. + * - other json errors if parsing fails. You should not rely on these errors to always the same for the + * same document: they may vary under runtime dispatch (so they may vary depending on your system and hardware). + */ + inline simdjson_result parse(const uint8_t *buf, size_t len, bool realloc_if_needed = true) & noexcept; + inline simdjson_result parse(const uint8_t *buf, size_t len, bool realloc_if_needed = true) && =delete; + /** @overload parse(const uint8_t *buf, size_t len, bool realloc_if_needed) */ + simdjson_really_inline simdjson_result parse(const char *buf, size_t len, bool realloc_if_needed = true) & noexcept; + simdjson_really_inline simdjson_result parse(const char *buf, size_t len, bool realloc_if_needed = true) && =delete; + /** @overload parse(const uint8_t *buf, size_t len, bool realloc_if_needed) */ + simdjson_really_inline simdjson_result parse(const std::string &s) & noexcept; + simdjson_really_inline simdjson_result parse(const std::string &s) && =delete; + /** @overload parse(const uint8_t *buf, size_t len, bool realloc_if_needed) */ + simdjson_really_inline simdjson_result parse(const padded_string &s) & noexcept; + simdjson_really_inline simdjson_result parse(const padded_string &s) && =delete; + + /** @private We do not want to allow implicit conversion from C string to std::string. */ + simdjson_really_inline simdjson_result parse(const char *buf) noexcept = delete; + + /** + * Load a file containing many JSON documents. + * + * dom::parser parser; + * for (const element doc : parser.load_many(path)) { + * cout << std::string(doc["title"]) << endl; + * } + * + * The file is loaded in memory and can be safely deleted after the `parser.load_many(path)` + * function has returned. The memory is held by the `parser` instance. + * + * The function is lazy: it may be that no more than one JSON document at a time is parsed. + * And, possibly, no document many have been parsed when the `parser.load_many(path)` function + * returned. + * + * ### Format + * + * The file must contain a series of one or more JSON documents, concatenated into a single + * buffer, separated by whitespace. It effectively parses until it has a fully valid document, + * then starts parsing the next document at that point. (It does this with more parallelism and + * lookahead than you might think, though.) + * + * Documents that consist of an object or array may omit the whitespace between them, concatenating + * with no separator. documents that consist of a single primitive (i.e. documents that are not + * arrays or objects) MUST be separated with whitespace. + * + * The documents must not exceed batch_size bytes (by default 1MB) or they will fail to parse. + * Setting batch_size to excessively large or excesively small values may impact negatively the + * performance. + * + * ### Error Handling + * + * All errors are returned during iteration: if there is a global error such as memory allocation, + * it will be yielded as the first result. Iteration always stops after the first error. + * + * As with all other simdjson methods, non-exception error handling is readily available through + * the same interface, requiring you to check the error before using the document: + * + * dom::parser parser; + * dom::document_stream docs; + * auto error = parser.load_many(path).get(docs); + * if (error) { cerr << error << endl; exit(1); } + * for (auto doc : docs) { + * std::string_view title; + * if ((error = doc["title"].get(title)) { cerr << error << endl; exit(1); } + * cout << title << endl; + * } + * + * ### Threads + * + * When compiled with SIMDJSON_THREADS_ENABLED, this method will use a single thread under the + * hood to do some lookahead. + * + * ### Parser Capacity + * + * If the parser's current capacity is less than batch_size, it will allocate enough capacity + * to handle it (up to max_capacity). + * + * @param path File name pointing at the concatenated JSON to parse. + * @param batch_size The batch size to use. MUST be larger than the largest document. The sweet + * spot is cache-related: small enough to fit in cache, yet big enough to + * parse as many documents as possible in one tight loop. + * Defaults to 1MB (as simdjson::dom::DEFAULT_BATCH_SIZE), which has been a reasonable sweet + * spot in our tests. + * If you set the batch_size to a value smaller than simdjson::dom::MINIMAL_BATCH_SIZE + * (currently 32B), it will be replaced by simdjson::dom::MINIMAL_BATCH_SIZE. + * @return The stream, or an error. An empty input will yield 0 documents rather than an EMPTY error. Errors: + * - IO_ERROR if there was an error opening or reading the file. + * - MEMALLOC if the parser does not have enough capacity and memory allocation fails. + * - CAPACITY if the parser does not have enough capacity and batch_size > max_capacity. + * - other json errors if parsing fails. You should not rely on these errors to always the same for the + * same document: they may vary under runtime dispatch (so they may vary depending on your system and hardware). + */ + inline simdjson_result load_many(const std::string &path, size_t batch_size = DEFAULT_BATCH_SIZE) noexcept; + + /** + * Parse a buffer containing many JSON documents. + * + * dom::parser parser; + * for (element doc : parser.parse_many(buf, len)) { + * cout << std::string(doc["title"]) << endl; + * } + * + * No copy of the input buffer is made. + * + * The function is lazy: it may be that no more than one JSON document at a time is parsed. + * And, possibly, no document many have been parsed when the `parser.load_many(path)` function + * returned. + * + * The caller is responsabile to ensure that the input string data remains unchanged and is + * not deleted during the loop. In particular, the following is unsafe and will not compile: + * + * auto docs = parser.parse_many("[\"temporary data\"]"_padded); + * // here the string "[\"temporary data\"]" may no longer exist in memory + * // the parser instance may not have even accessed the input yet + * for (element doc : docs) { + * cout << std::string(doc["title"]) << endl; + * } + * + * The following is safe: + * + * auto json = "[\"temporary data\"]"_padded; + * auto docs = parser.parse_many(json); + * for (element doc : docs) { + * cout << std::string(doc["title"]) << endl; + * } + * + * ### Format + * + * The buffer must contain a series of one or more JSON documents, concatenated into a single + * buffer, separated by whitespace. It effectively parses until it has a fully valid document, + * then starts parsing the next document at that point. (It does this with more parallelism and + * lookahead than you might think, though.) + * + * documents that consist of an object or array may omit the whitespace between them, concatenating + * with no separator. documents that consist of a single primitive (i.e. documents that are not + * arrays or objects) MUST be separated with whitespace. + * + * The documents must not exceed batch_size bytes (by default 1MB) or they will fail to parse. + * Setting batch_size to excessively large or excesively small values may impact negatively the + * performance. + * + * ### Error Handling + * + * All errors are returned during iteration: if there is a global error such as memory allocation, + * it will be yielded as the first result. Iteration always stops after the first error. + * + * As with all other simdjson methods, non-exception error handling is readily available through + * the same interface, requiring you to check the error before using the document: + * + * dom::parser parser; + * dom::document_stream docs; + * auto error = parser.load_many(path).get(docs); + * if (error) { cerr << error << endl; exit(1); } + * for (auto doc : docs) { + * std::string_view title; + * if ((error = doc["title"].get(title)) { cerr << error << endl; exit(1); } + * cout << title << endl; + * } + * + * ### REQUIRED: Buffer Padding + * + * The buffer must have at least SIMDJSON_PADDING extra allocated bytes. It does not matter what + * those bytes are initialized to, as long as they are allocated. + * + * ### Threads + * + * When compiled with SIMDJSON_THREADS_ENABLED, this method will use a single thread under the + * hood to do some lookahead. + * + * ### Parser Capacity + * + * If the parser's current capacity is less than batch_size, it will allocate enough capacity + * to handle it (up to max_capacity). + * + * @param buf The concatenated JSON to parse. Must have at least len + SIMDJSON_PADDING allocated bytes. + * @param len The length of the concatenated JSON. + * @param batch_size The batch size to use. MUST be larger than the largest document. The sweet + * spot is cache-related: small enough to fit in cache, yet big enough to + * parse as many documents as possible in one tight loop. + * Defaults to 10MB, which has been a reasonable sweet spot in our tests. + * @return The stream, or an error. An empty input will yield 0 documents rather than an EMPTY error. Errors: + * - MEMALLOC if the parser does not have enough capacity and memory allocation fails + * - CAPACITY if the parser does not have enough capacity and batch_size > max_capacity. + * - other json errors if parsing fails. You should not rely on these errors to always the same for the + * same document: they may vary under runtime dispatch (so they may vary depending on your system and hardware). + */ + inline simdjson_result parse_many(const uint8_t *buf, size_t len, size_t batch_size = DEFAULT_BATCH_SIZE) noexcept; + /** @overload parse_many(const uint8_t *buf, size_t len, size_t batch_size) */ + inline simdjson_result parse_many(const char *buf, size_t len, size_t batch_size = DEFAULT_BATCH_SIZE) noexcept; + /** @overload parse_many(const uint8_t *buf, size_t len, size_t batch_size) */ + inline simdjson_result parse_many(const std::string &s, size_t batch_size = DEFAULT_BATCH_SIZE) noexcept; + inline simdjson_result parse_many(const std::string &&s, size_t batch_size) = delete;// unsafe + /** @overload parse_many(const uint8_t *buf, size_t len, size_t batch_size) */ + inline simdjson_result parse_many(const padded_string &s, size_t batch_size = DEFAULT_BATCH_SIZE) noexcept; + inline simdjson_result parse_many(const padded_string &&s, size_t batch_size) = delete;// unsafe + + /** @private We do not want to allow implicit conversion from C string to std::string. */ + simdjson_result parse_many(const char *buf, size_t batch_size = DEFAULT_BATCH_SIZE) noexcept = delete; + + /** + * Ensure this parser has enough memory to process JSON documents up to `capacity` bytes in length + * and `max_depth` depth. + * + * @param capacity The new capacity. + * @param max_depth The new max_depth. Defaults to DEFAULT_MAX_DEPTH. + * @return The error, if there is one. + */ + simdjson_warn_unused inline error_code allocate(size_t capacity, size_t max_depth = DEFAULT_MAX_DEPTH) noexcept; + +#ifndef SIMDJSON_DISABLE_DEPRECATED_API + /** + * @private deprecated because it returns bool instead of error_code, which is our standard for + * failures. Use allocate() instead. + * + * Ensure this parser has enough memory to process JSON documents up to `capacity` bytes in length + * and `max_depth` depth. + * + * @param capacity The new capacity. + * @param max_depth The new max_depth. Defaults to DEFAULT_MAX_DEPTH. + * @return true if successful, false if allocation failed. + */ + [[deprecated("Use allocate() instead.")]] + simdjson_warn_unused inline bool allocate_capacity(size_t capacity, size_t max_depth = DEFAULT_MAX_DEPTH) noexcept; +#endif // SIMDJSON_DISABLE_DEPRECATED_API + /** + * The largest document this parser can support without reallocating. + * + * @return Current capacity, in bytes. + */ + simdjson_really_inline size_t capacity() const noexcept; + + /** + * The largest document this parser can automatically support. + * + * The parser may reallocate internal buffers as needed up to this amount. + * + * @return Maximum capacity, in bytes. + */ + simdjson_really_inline size_t max_capacity() const noexcept; + + /** + * The maximum level of nested object and arrays supported by this parser. + * + * @return Maximum depth, in bytes. + */ + simdjson_really_inline size_t max_depth() const noexcept; + + /** + * Set max_capacity. This is the largest document this parser can automatically support. + * + * The parser may reallocate internal buffers as needed up to this amount as documents are passed + * to it. + * + * This call will not allocate or deallocate, even if capacity is currently above max_capacity. + * + * @param max_capacity The new maximum capacity, in bytes. + */ + simdjson_really_inline void set_max_capacity(size_t max_capacity) noexcept; + +#ifdef SIMDJSON_THREADS_ENABLED + /** + * The parser instance can use threads when they are available to speed up some + * operations. It is enabled by default. Changing this attribute will change the + * behavior of the parser for future operations. + */ + bool threaded{true}; +#endif + /** @private Use the new DOM API instead */ + class Iterator; + /** @private Use simdjson_error instead */ + using InvalidJSON [[deprecated("Use simdjson_error instead")]] = simdjson_error; + + /** @private [for benchmarking access] The implementation to use */ + std::unique_ptr implementation{}; + + /** @private Use `if (parser.parse(...).error())` instead */ + bool valid{false}; + /** @private Use `parser.parse(...).error()` instead */ + error_code error{UNINITIALIZED}; + + /** @private Use `parser.parse(...).value()` instead */ + document doc{}; + + /** @private returns true if the document parsed was valid */ + [[deprecated("Use the result of parser.parse() instead")]] + inline bool is_valid() const noexcept; + + /** + * @private return an error code corresponding to the last parsing attempt, see + * simdjson.h will return UNITIALIZED if no parsing was attempted + */ + [[deprecated("Use the result of parser.parse() instead")]] + inline int get_error_code() const noexcept; + + /** @private return the string equivalent of "get_error_code" */ + [[deprecated("Use error_message() on the result of parser.parse() instead, or cout << error")]] + inline std::string get_error_message() const noexcept; + + /** @private */ + [[deprecated("Use cout << on the result of parser.parse() instead")]] + inline bool print_json(std::ostream &os) const noexcept; + + /** @private Private and deprecated: use `parser.parse(...).doc.dump_raw_tape()` instead */ + inline bool dump_raw_tape(std::ostream &os) const noexcept; + + +private: + /** + * The maximum document length this parser will automatically support. + * + * The parser will not be automatically allocated above this amount. + */ + size_t _max_capacity; + + /** + * The loaded buffer (reused each time load() is called) + */ + std::unique_ptr loaded_bytes; + + /** Capacity of loaded_bytes buffer. */ + size_t _loaded_bytes_capacity{0}; + + // all nodes are stored on the doc.tape using a 64-bit word. + // + // strings, double and ints are stored as + // a 64-bit word with a pointer to the actual value + // + // + // + // for objects or arrays, store [ or { at the beginning and } and ] at the + // end. For the openings ([ or {), we annotate them with a reference to the + // location on the doc.tape of the end, and for then closings (} and ]), we + // annotate them with a reference to the location of the opening + // + // + + /** + * Ensure we have enough capacity to handle at least desired_capacity bytes, + * and auto-allocate if not. + */ + inline error_code ensure_capacity(size_t desired_capacity) noexcept; + + /** Read the file into loaded_bytes */ + inline simdjson_result read_file(const std::string &path) noexcept; + + friend class parser::Iterator; + friend class document_stream; + + +}; // class parser + +} // namespace dom +} // namespace simdjson + +#endif // SIMDJSON_DOM_PARSER_H +/* end file include/simdjson/dom/parser.h */ +#ifdef SIMDJSON_THREADS_ENABLED +#include +#include +#include +#endif + +namespace simdjson { +namespace dom { + + +#ifdef SIMDJSON_THREADS_ENABLED +/** @private Custom worker class **/ +struct stage1_worker { + stage1_worker() noexcept = default; + stage1_worker(const stage1_worker&) = delete; + stage1_worker(stage1_worker&&) = delete; + stage1_worker operator=(const stage1_worker&) = delete; + ~stage1_worker(); + /** + * We only start the thread when it is needed, not at object construction, this may throw. + * You should only call this once. + **/ + void start_thread(); + /** + * Start a stage 1 job. You should first call 'run', then 'finish'. + * You must call start_thread once before. + */ + void run(document_stream * ds, dom::parser * stage1, size_t next_batch_start); + /** Wait for the run to finish (blocking). You should first call 'run', then 'finish'. **/ + void finish(); + +private: + + /** + * Normally, we would never stop the thread. But we do in the destructor. + * This function is only safe assuming that you are not waiting for results. You + * should have called run, then finish, and be done. + **/ + void stop_thread(); + + std::thread thread{}; + /** These three variables define the work done by the thread. **/ + dom::parser * stage1_thread_parser{}; + size_t _next_batch_start{}; + document_stream * owner{}; + /** + * We have two state variables. This could be streamlined to one variable in the future but + * we use two for clarity. + */ + bool has_work{false}; + bool can_work{true}; + + /** + * We lock using a mutex. + */ + std::mutex locking_mutex{}; + std::condition_variable cond_var{}; +}; +#endif + +/** + * A forward-only stream of documents. + * + * Produced by parser::parse_many. + * + */ +class document_stream { +public: + /** + * Construct an uninitialized document_stream. + * + * ```c++ + * document_stream docs; + * error = parser.parse_many(json).get(docs); + * ``` + */ + simdjson_really_inline document_stream() noexcept; + /** Move one document_stream to another. */ + simdjson_really_inline document_stream(document_stream &&other) noexcept = default; + /** Move one document_stream to another. */ + simdjson_really_inline document_stream &operator=(document_stream &&other) noexcept = default; + + simdjson_really_inline ~document_stream() noexcept; + + /** + * An iterator through a forward-only stream of documents. + */ + class iterator { + public: + /** + * Get the current document (or error). + */ + simdjson_really_inline simdjson_result operator*() noexcept; + /** + * Advance to the next document. + */ + inline iterator& operator++() noexcept; + /** + * Check if we're at the end yet. + * @param other the end iterator to compare to. + */ + simdjson_really_inline bool operator!=(const iterator &other) const noexcept; + /** + * @private + * + * Gives the current index in the input document in bytes. + * + * document_stream stream = parser.parse_many(json,window); + * for(auto i = stream.begin(); i != stream.end(); ++i) { + * auto doc = *i; + * size_t index = i.current_index(); + * } + * + * This function (current_index()) is experimental and the usage + * may change in future versions of simdjson: we find the API somewhat + * awkward and we would like to offer something friendlier. + */ + simdjson_really_inline size_t current_index() const noexcept; + /** + * @private + * + * Gives a view of the current document. + * + * document_stream stream = parser.parse_many(json,window); + * for(auto i = stream.begin(); i != stream.end(); ++i) { + * auto doc = *i; + * std::string_view v = i->source(); + * } + * + * The returned string_view instance is simply a map to the (unparsed) + * source string: it may thus include white-space characters and all manner + * of padding. + * + * This function (source()) is experimental and the usage + * may change in future versions of simdjson: we find the API somewhat + * awkward and we would like to offer something friendlier. + */ + simdjson_really_inline std::string_view source() const noexcept; + + private: + simdjson_really_inline iterator(document_stream &s, bool finished) noexcept; + /** The document_stream we're iterating through. */ + document_stream& stream; + /** Whether we're finished or not. */ + bool finished; + friend class document_stream; + }; + + /** + * Start iterating the documents in the stream. + */ + simdjson_really_inline iterator begin() noexcept; + /** + * The end of the stream, for iterator comparison purposes. + */ + simdjson_really_inline iterator end() noexcept; + +private: + + document_stream &operator=(const document_stream &) = delete; // Disallow copying + document_stream(const document_stream &other) = delete; // Disallow copying + + /** + * Construct a document_stream. Does not allocate or parse anything until the iterator is + * used. + * + * @param parser is a reference to the parser instance used to generate this document_stream + * @param buf is the raw byte buffer we need to process + * @param len is the length of the raw byte buffer in bytes + * @param batch_size is the size of the windows (must be strictly greater or equal to the largest JSON document) + */ + simdjson_really_inline document_stream( + dom::parser &parser, + const uint8_t *buf, + size_t len, + size_t batch_size + ) noexcept; + + /** + * Parse the first document in the buffer. Used by begin(), to handle allocation and + * initialization. + */ + inline void start() noexcept; + + /** + * Parse the next document found in the buffer previously given to document_stream. + * + * The content should be a valid JSON document encoded as UTF-8. If there is a + * UTF-8 BOM, the caller is responsible for omitting it, UTF-8 BOM are + * discouraged. + * + * You do NOT need to pre-allocate a parser. This function takes care of + * pre-allocating a capacity defined by the batch_size defined when creating the + * document_stream object. + * + * The function returns simdjson::EMPTY if there is no more data to be parsed. + * + * The function returns simdjson::SUCCESS (as integer = 0) in case of success + * and indicates that the buffer has successfully been parsed to the end. + * Every document it contained has been parsed without error. + * + * The function returns an error code from simdjson/simdjson.h in case of failure + * such as simdjson::CAPACITY, simdjson::MEMALLOC, simdjson::DEPTH_ERROR and so forth; + * the simdjson::error_message function converts these error codes into a string). + * + * You can also check validity by calling parser.is_valid(). The same parser can + * and should be reused for the other documents in the buffer. + */ + inline void next() noexcept; + + /** + * Pass the next batch through stage 1 and return when finished. + * When threads are enabled, this may wait for the stage 1 thread to finish. + */ + inline void load_batch() noexcept; + + /** Get the next document index. */ + inline size_t next_batch_start() const noexcept; + + /** Pass the next batch through stage 1 with the given parser. */ + inline error_code run_stage1(dom::parser &p, size_t batch_start) noexcept; + + dom::parser *parser; + const uint8_t *buf; + size_t len; + size_t batch_size; + /** The error (or lack thereof) from the current document. */ + error_code error; + size_t batch_start{0}; + size_t doc_index{}; + +#ifdef SIMDJSON_THREADS_ENABLED + /** Indicates whether we use threads. Note that this needs to be a constant during the execution of the parsing. */ + bool use_thread; + + inline void load_from_stage1_thread() noexcept; + + /** Start a thread to run stage 1 on the next batch. */ + inline void start_stage1_thread() noexcept; + + /** Wait for the stage 1 thread to finish and capture the results. */ + inline void finish_stage1_thread() noexcept; + + /** The error returned from the stage 1 thread. */ + error_code stage1_thread_error{UNINITIALIZED}; + /** The thread used to run stage 1 against the next batch in the background. */ + friend struct stage1_worker; + std::unique_ptr worker{new(std::nothrow) stage1_worker()}; + /** + * The parser used to run stage 1 in the background. Will be swapped + * with the regular parser when finished. + */ + dom::parser stage1_thread_parser{}; +#endif // SIMDJSON_THREADS_ENABLED + + friend class dom::parser; + friend struct simdjson_result; + friend struct internal::simdjson_result_base; + +}; // class document_stream + +} // namespace dom + +template<> +struct simdjson_result : public internal::simdjson_result_base { +public: + simdjson_really_inline simdjson_result() noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result(dom::document_stream &&value) noexcept; ///< @private + +#if SIMDJSON_EXCEPTIONS + simdjson_really_inline dom::document_stream::iterator begin() noexcept(false); + simdjson_really_inline dom::document_stream::iterator end() noexcept(false); +#else // SIMDJSON_EXCEPTIONS +#ifndef SIMDJSON_DISABLE_DEPRECATED_API + [[deprecated("parse_many() and load_many() may return errors. Use document_stream stream; error = parser.parse_many().get(doc); instead.")]] + simdjson_really_inline dom::document_stream::iterator begin() noexcept; + [[deprecated("parse_many() and load_many() may return errors. Use document_stream stream; error = parser.parse_many().get(doc); instead.")]] + simdjson_really_inline dom::document_stream::iterator end() noexcept; +#endif // SIMDJSON_DISABLE_DEPRECATED_API +#endif // SIMDJSON_EXCEPTIONS +}; // struct simdjson_result + +} // namespace simdjson + +#endif // SIMDJSON_DOCUMENT_STREAM_H +/* end file include/simdjson/dom/document_stream.h */ +/* begin file include/simdjson/dom/element.h */ +#ifndef SIMDJSON_DOM_ELEMENT_H +#define SIMDJSON_DOM_ELEMENT_H + +#include + +namespace simdjson { +namespace internal { +template +class string_builder; +} +namespace dom { +class array; +class document; +class object; + +/** + * The actual concrete type of a JSON element + * This is the type it is most easily cast to with get<>. + */ +enum class element_type { + ARRAY = '[', ///< dom::array + OBJECT = '{', ///< dom::object + INT64 = 'l', ///< int64_t + UINT64 = 'u', ///< uint64_t: any integer that fits in uint64_t but *not* int64_t + DOUBLE = 'd', ///< double: Any number with a "." or "e" that fits in double. + STRING = '"', ///< std::string_view + BOOL = 't', ///< bool + NULL_VALUE = 'n' ///< null +}; + +/** + * A JSON element. + * + * References an element in a JSON document, representing a JSON null, boolean, string, number, + * array or object. + */ +class element { +public: + /** Create a new, invalid element. */ + simdjson_really_inline element() noexcept; + + /** The type of this element. */ + simdjson_really_inline element_type type() const noexcept; + + /** + * Cast this element to an array. + * + * Equivalent to get(). + * + * @returns An object that can be used to iterate the array, or: + * INCORRECT_TYPE if the JSON element is not an array. + */ + inline simdjson_result get_array() const noexcept; + /** + * Cast this element to an object. + * + * Equivalent to get(). + * + * @returns An object that can be used to look up or iterate the object's fields, or: + * INCORRECT_TYPE if the JSON element is not an object. + */ + inline simdjson_result get_object() const noexcept; + /** + * Cast this element to a null-terminated C string. + * + * The string is guaranteed to be valid UTF-8. + * + * The get_c_str() function is equivalent to get(). + * + * The length of the string is given by get_string_length(). Because JSON strings + * may contain null characters, it may be incorrect to use strlen to determine the + * string length. + * + * It is possible to get a single string_view instance which represents both the string + * content and its length: see get_string(). + * + * @returns A pointer to a null-terminated UTF-8 string. This string is stored in the parser and will + * be invalidated the next time it parses a document or when it is destroyed. + * Returns INCORRECT_TYPE if the JSON element is not a string. + */ + inline simdjson_result get_c_str() const noexcept; + /** + * Gives the length in bytes of the string. + * + * It is possible to get a single string_view instance which represents both the string + * content and its length: see get_string(). + * + * @returns A string length in bytes. + * Returns INCORRECT_TYPE if the JSON element is not a string. + */ + inline simdjson_result get_string_length() const noexcept; + /** + * Cast this element to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next time it + * parses a document or when it is destroyed. + * Returns INCORRECT_TYPE if the JSON element is not a string. + */ + inline simdjson_result get_string() const noexcept; + /** + * Cast this element to a signed integer. + * + * Equivalent to get(). + * + * @returns A signed 64-bit integer. + * Returns INCORRECT_TYPE if the JSON element is not an integer, or NUMBER_OUT_OF_RANGE + * if it is negative. + */ + inline simdjson_result get_int64() const noexcept; + /** + * Cast this element to an unsigned integer. + * + * Equivalent to get(). + * + * @returns An unsigned 64-bit integer. + * Returns INCORRECT_TYPE if the JSON element is not an integer, or NUMBER_OUT_OF_RANGE + * if it is too large. + */ + inline simdjson_result get_uint64() const noexcept; + /** + * Cast this element to a double floating-point. + * + * Equivalent to get(). + * + * @returns A double value. + * Returns INCORRECT_TYPE if the JSON element is not a number. + */ + inline simdjson_result get_double() const noexcept; + /** + * Cast this element to a bool. + * + * Equivalent to get(). + * + * @returns A bool value. + * Returns INCORRECT_TYPE if the JSON element is not a boolean. + */ + inline simdjson_result get_bool() const noexcept; + + /** + * Whether this element is a json array. + * + * Equivalent to is(). + */ + inline bool is_array() const noexcept; + /** + * Whether this element is a json object. + * + * Equivalent to is(). + */ + inline bool is_object() const noexcept; + /** + * Whether this element is a json string. + * + * Equivalent to is() or is(). + */ + inline bool is_string() const noexcept; + /** + * Whether this element is a json number that fits in a signed 64-bit integer. + * + * Equivalent to is(). + */ + inline bool is_int64() const noexcept; + /** + * Whether this element is a json number that fits in an unsigned 64-bit integer. + * + * Equivalent to is(). + */ + inline bool is_uint64() const noexcept; + /** + * Whether this element is a json number that fits in a double. + * + * Equivalent to is(). + */ + inline bool is_double() const noexcept; + + /** + * Whether this element is a json number. + * + * Both integers and floating points will return true. + */ + inline bool is_number() const noexcept; + + /** + * Whether this element is a json `true` or `false`. + * + * Equivalent to is(). + */ + inline bool is_bool() const noexcept; + /** + * Whether this element is a json `null`. + */ + inline bool is_null() const noexcept; + + /** + * Tell whether the value can be cast to provided type (T). + * + * Supported types: + * - Boolean: bool + * - Number: double, uint64_t, int64_t + * - String: std::string_view, const char * + * - Array: dom::array + * - Object: dom::object + * + * @tparam T bool, double, uint64_t, int64_t, std::string_view, const char *, dom::array, dom::object + */ + template + simdjson_really_inline bool is() const noexcept; + + /** + * Get the value as the provided type (T). + * + * Supported types: + * - Boolean: bool + * - Number: double, uint64_t, int64_t + * - String: std::string_view, const char * + * - Array: dom::array + * - Object: dom::object + * + * @tparam T bool, double, uint64_t, int64_t, std::string_view, const char *, dom::array, dom::object + * + * @returns The value cast to the given type, or: + * INCORRECT_TYPE if the value cannot be cast to the given type. + */ + template + inline simdjson_result get() const noexcept; + + /** + * Get the value as the provided type (T). + * + * Supported types: + * - Boolean: bool + * - Number: double, uint64_t, int64_t + * - String: std::string_view, const char * + * - Array: dom::array + * - Object: dom::object + * + * @tparam T bool, double, uint64_t, int64_t, std::string_view, const char *, dom::array, dom::object + * + * @param value The variable to set to the value. May not be set if there is an error. + * + * @returns The error that occurred, or SUCCESS if there was no error. + */ + template + simdjson_warn_unused simdjson_really_inline error_code get(T &value) const noexcept; + + /** + * Get the value as the provided type (T), setting error if it's not the given type. + * + * Supported types: + * - Boolean: bool + * - Number: double, uint64_t, int64_t + * - String: std::string_view, const char * + * - Array: dom::array + * - Object: dom::object + * + * @tparam T bool, double, uint64_t, int64_t, std::string_view, const char *, dom::array, dom::object + * + * @param value The variable to set to the given type. value is undefined if there is an error. + * @param error The variable to store the error. error is set to error_code::SUCCEED if there is an error. + */ + template + inline void tie(T &value, error_code &error) && noexcept; + +#if SIMDJSON_EXCEPTIONS + /** + * Read this element as a boolean. + * + * @return The boolean value + * @exception simdjson_error(INCORRECT_TYPE) if the JSON element is not a boolean. + */ + inline operator bool() const noexcept(false); + + /** + * Read this element as a null-terminated UTF-8 string. + * + * Be mindful that JSON allows strings to contain null characters. + * + * Does *not* convert other types to a string; requires that the JSON type of the element was + * an actual string. + * + * @return The string value. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON element is not a string. + */ + inline explicit operator const char*() const noexcept(false); + + /** + * Read this element as a null-terminated UTF-8 string. + * + * Does *not* convert other types to a string; requires that the JSON type of the element was + * an actual string. + * + * @return The string value. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON element is not a string. + */ + inline operator std::string_view() const noexcept(false); + + /** + * Read this element as an unsigned integer. + * + * @return The integer value. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON element is not an integer + * @exception simdjson_error(NUMBER_OUT_OF_RANGE) if the integer doesn't fit in 64 bits or is negative + */ + inline operator uint64_t() const noexcept(false); + /** + * Read this element as an signed integer. + * + * @return The integer value. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON element is not an integer + * @exception simdjson_error(NUMBER_OUT_OF_RANGE) if the integer doesn't fit in 64 bits + */ + inline operator int64_t() const noexcept(false); + /** + * Read this element as an double. + * + * @return The double value. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON element is not a number + * @exception simdjson_error(NUMBER_OUT_OF_RANGE) if the integer doesn't fit in 64 bits or is negative + */ + inline operator double() const noexcept(false); + /** + * Read this element as a JSON array. + * + * @return The JSON array. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON element is not an array + */ + inline operator array() const noexcept(false); + /** + * Read this element as a JSON object (key/value pairs). + * + * @return The JSON object. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON element is not an object + */ + inline operator object() const noexcept(false); + + /** + * Iterate over each element in this array. + * + * @return The beginning of the iteration. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON element is not an array + */ + inline dom::array::iterator begin() const noexcept(false); + + /** + * Iterate over each element in this array. + * + * @return The end of the iteration. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON element is not an array + */ + inline dom::array::iterator end() const noexcept(false); +#endif // SIMDJSON_EXCEPTIONS + + /** + * Get the value associated with the given key. + * + * The key will be matched against **unescaped** JSON: + * + * dom::parser parser; + * parser.parse(R"({ "a\n": 1 })"_padded)["a\n"].get().first == 1 + * parser.parse(R"({ "a\n": 1 })"_padded)["a\\n"].get().error() == NO_SUCH_FIELD + * + * @return The value associated with this field, or: + * - NO_SUCH_FIELD if the field does not exist in the object + * - INCORRECT_TYPE if this is not an object + */ + inline simdjson_result operator[](std::string_view key) const noexcept; + + /** + * Get the value associated with the given key. + * + * The key will be matched against **unescaped** JSON: + * + * dom::parser parser; + * parser.parse(R"({ "a\n": 1 })"_padded)["a\n"].get().first == 1 + * parser.parse(R"({ "a\n": 1 })"_padded)["a\\n"].get().error() == NO_SUCH_FIELD + * + * @return The value associated with this field, or: + * - NO_SUCH_FIELD if the field does not exist in the object + * - INCORRECT_TYPE if this is not an object + */ + inline simdjson_result operator[](const char *key) const noexcept; + + /** + * Get the value associated with the given JSON pointer. We use the RFC 6901 + * https://tools.ietf.org/html/rfc6901 standard. + * + * dom::parser parser; + * element doc = parser.parse(R"({ "foo": { "a": [ 10, 20, 30 ] }})"_padded); + * doc.at_pointer("/foo/a/1") == 20 + * doc.at_pointer("/foo")["a"].at(1) == 20 + * doc.at_pointer("")["foo"]["a"].at(1) == 20 + * + * It is allowed for a key to be the empty string: + * + * dom::parser parser; + * object obj = parser.parse(R"({ "": { "a": [ 10, 20, 30 ] }})"_padded); + * obj.at_pointer("//a/1") == 20 + * + * @return The value associated with the given JSON pointer, or: + * - NO_SUCH_FIELD if a field does not exist in an object + * - INDEX_OUT_OF_BOUNDS if an array index is larger than an array length + * - INCORRECT_TYPE if a non-integer is used to access an array + * - INVALID_JSON_POINTER if the JSON pointer is invalid and cannot be parsed + */ + inline simdjson_result at_pointer(const std::string_view json_pointer) const noexcept; + +#ifndef SIMDJSON_DISABLE_DEPRECATED_API + /** + * + * Version 0.4 of simdjson used an incorrect interpretation of the JSON Pointer standard + * and allowed the following : + * + * dom::parser parser; + * element doc = parser.parse(R"({ "foo": { "a": [ 10, 20, 30 ] }})"_padded); + * doc.at("foo/a/1") == 20 + * + * Though it is intuitive, it is not compliant with RFC 6901 + * https://tools.ietf.org/html/rfc6901 + * + * For standard compliance, use the at_pointer function instead. + * + * @return The value associated with the given JSON pointer, or: + * - NO_SUCH_FIELD if a field does not exist in an object + * - INDEX_OUT_OF_BOUNDS if an array index is larger than an array length + * - INCORRECT_TYPE if a non-integer is used to access an array + * - INVALID_JSON_POINTER if the JSON pointer is invalid and cannot be parsed + */ + [[deprecated("For standard compliance, use at_pointer instead, and prefix your pointers with a slash '/', see RFC6901 ")]] + inline simdjson_result at(const std::string_view json_pointer) const noexcept; +#endif // SIMDJSON_DISABLE_DEPRECATED_API + + /** + * Get the value at the given index. + * + * @return The value at the given index, or: + * - INDEX_OUT_OF_BOUNDS if the array index is larger than an array length + */ + inline simdjson_result at(size_t index) const noexcept; + + /** + * Get the value associated with the given key. + * + * The key will be matched against **unescaped** JSON: + * + * dom::parser parser; + * parser.parse(R"({ "a\n": 1 })"_padded)["a\n"].get().first == 1 + * parser.parse(R"({ "a\n": 1 })"_padded)["a\\n"].get().error() == NO_SUCH_FIELD + * + * @return The value associated with this field, or: + * - NO_SUCH_FIELD if the field does not exist in the object + */ + inline simdjson_result at_key(std::string_view key) const noexcept; + + /** + * Get the value associated with the given key in a case-insensitive manner. + * + * Note: The key will be matched against **unescaped** JSON. + * + * @return The value associated with this field, or: + * - NO_SUCH_FIELD if the field does not exist in the object + */ + inline simdjson_result at_key_case_insensitive(std::string_view key) const noexcept; + + /** @private for debugging. Prints out the root element. */ + inline bool dump_raw_tape(std::ostream &out) const noexcept; + +private: + simdjson_really_inline element(const internal::tape_ref &tape) noexcept; + internal::tape_ref tape; + friend class document; + friend class object; + friend class array; + friend struct simdjson_result; + template + friend class simdjson::internal::string_builder; + +}; + +} // namespace dom + +/** The result of a JSON navigation that may fail. */ +template<> +struct simdjson_result : public internal::simdjson_result_base { +public: + simdjson_really_inline simdjson_result() noexcept; ///< @private + simdjson_really_inline simdjson_result(dom::element &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + + simdjson_really_inline simdjson_result type() const noexcept; + template + simdjson_really_inline bool is() const noexcept; + template + simdjson_really_inline simdjson_result get() const noexcept; + template + simdjson_warn_unused simdjson_really_inline error_code get(T &value) const noexcept; + + simdjson_really_inline simdjson_result get_array() const noexcept; + simdjson_really_inline simdjson_result get_object() const noexcept; + simdjson_really_inline simdjson_result get_c_str() const noexcept; + simdjson_really_inline simdjson_result get_string_length() const noexcept; + simdjson_really_inline simdjson_result get_string() const noexcept; + simdjson_really_inline simdjson_result get_int64() const noexcept; + simdjson_really_inline simdjson_result get_uint64() const noexcept; + simdjson_really_inline simdjson_result get_double() const noexcept; + simdjson_really_inline simdjson_result get_bool() const noexcept; + + simdjson_really_inline bool is_array() const noexcept; + simdjson_really_inline bool is_object() const noexcept; + simdjson_really_inline bool is_string() const noexcept; + simdjson_really_inline bool is_int64() const noexcept; + simdjson_really_inline bool is_uint64() const noexcept; + simdjson_really_inline bool is_double() const noexcept; + simdjson_really_inline bool is_number() const noexcept; + simdjson_really_inline bool is_bool() const noexcept; + simdjson_really_inline bool is_null() const noexcept; + + simdjson_really_inline simdjson_result operator[](std::string_view key) const noexcept; + simdjson_really_inline simdjson_result operator[](const char *key) const noexcept; + simdjson_really_inline simdjson_result at_pointer(const std::string_view json_pointer) const noexcept; + [[deprecated("For standard compliance, use at_pointer instead, and prefix your pointers with a slash '/', see RFC6901 ")]] + simdjson_really_inline simdjson_result at(const std::string_view json_pointer) const noexcept; + simdjson_really_inline simdjson_result at(size_t index) const noexcept; + simdjson_really_inline simdjson_result at_key(std::string_view key) const noexcept; + simdjson_really_inline simdjson_result at_key_case_insensitive(std::string_view key) const noexcept; + +#if SIMDJSON_EXCEPTIONS + simdjson_really_inline operator bool() const noexcept(false); + simdjson_really_inline explicit operator const char*() const noexcept(false); + simdjson_really_inline operator std::string_view() const noexcept(false); + simdjson_really_inline operator uint64_t() const noexcept(false); + simdjson_really_inline operator int64_t() const noexcept(false); + simdjson_really_inline operator double() const noexcept(false); + simdjson_really_inline operator dom::array() const noexcept(false); + simdjson_really_inline operator dom::object() const noexcept(false); + + simdjson_really_inline dom::array::iterator begin() const noexcept(false); + simdjson_really_inline dom::array::iterator end() const noexcept(false); +#endif // SIMDJSON_EXCEPTIONS +}; + + +} // namespace simdjson + +#endif // SIMDJSON_DOM_DOCUMENT_H +/* end file include/simdjson/dom/element.h */ +/* begin file include/simdjson/dom/object.h */ +#ifndef SIMDJSON_DOM_OBJECT_H +#define SIMDJSON_DOM_OBJECT_H + + +namespace simdjson { +namespace internal { +template +class string_builder; +} +namespace dom { + +class document; +class element; +class key_value_pair; + +/** + * JSON object. + */ +class object { +public: + /** Create a new, invalid object */ + simdjson_really_inline object() noexcept; + + class iterator { + public: + using value_type = key_value_pair; + using difference_type = std::ptrdiff_t; + + /** + * Get the actual key/value pair + */ + inline const value_type operator*() const noexcept; + /** + * Get the next key/value pair. + * + * Part of the std::iterator interface. + * + */ + inline iterator& operator++() noexcept; + /** + * Get the next key/value pair. + * + * Part of the std::iterator interface. + * + */ + inline iterator operator++(int) noexcept; + /** + * Check if these values come from the same place in the JSON. + * + * Part of the std::iterator interface. + */ + inline bool operator!=(const iterator& other) const noexcept; + inline bool operator==(const iterator& other) const noexcept; + + inline bool operator<(const iterator& other) const noexcept; + inline bool operator<=(const iterator& other) const noexcept; + inline bool operator>=(const iterator& other) const noexcept; + inline bool operator>(const iterator& other) const noexcept; + /** + * Get the key of this key/value pair. + */ + inline std::string_view key() const noexcept; + /** + * Get the length (in bytes) of the key in this key/value pair. + * You should expect this function to be faster than key().size(). + */ + inline uint32_t key_length() const noexcept; + /** + * Returns true if the key in this key/value pair is equal + * to the provided string_view. + */ + inline bool key_equals(std::string_view o) const noexcept; + /** + * Returns true if the key in this key/value pair is equal + * to the provided string_view in a case-insensitive manner. + * Case comparisons may only be handled correctly for ASCII strings. + */ + inline bool key_equals_case_insensitive(std::string_view o) const noexcept; + /** + * Get the key of this key/value pair. + */ + inline const char *key_c_str() const noexcept; + /** + * Get the value of this key/value pair. + */ + inline element value() const noexcept; + + iterator() noexcept = default; + iterator(const iterator&) noexcept = default; + iterator& operator=(const iterator&) noexcept = default; + private: + simdjson_really_inline iterator(const internal::tape_ref &tape) noexcept; + + internal::tape_ref tape; + + friend class object; + }; + + /** + * Return the first key/value pair. + * + * Part of the std::iterable interface. + */ + inline iterator begin() const noexcept; + /** + * One past the last key/value pair. + * + * Part of the std::iterable interface. + */ + inline iterator end() const noexcept; + /** + * Get the size of the object (number of keys). + * It is a saturated value with a maximum of 0xFFFFFF: if the value + * is 0xFFFFFF then the size is 0xFFFFFF or greater. + */ + inline size_t size() const noexcept; + /** + * Get the value associated with the given key. + * + * The key will be matched against **unescaped** JSON: + * + * dom::parser parser; + * parser.parse(R"({ "a\n": 1 })"_padded)["a\n"].get().first == 1 + * parser.parse(R"({ "a\n": 1 })"_padded)["a\\n"].get().error() == NO_SUCH_FIELD + * + * This function has linear-time complexity: the keys are checked one by one. + * + * @return The value associated with this field, or: + * - NO_SUCH_FIELD if the field does not exist in the object + * - INCORRECT_TYPE if this is not an object + */ + inline simdjson_result operator[](std::string_view key) const noexcept; + + /** + * Get the value associated with the given key. + * + * The key will be matched against **unescaped** JSON: + * + * dom::parser parser; + * parser.parse(R"({ "a\n": 1 })"_padded)["a\n"].get().first == 1 + * parser.parse(R"({ "a\n": 1 })"_padded)["a\\n"].get().error() == NO_SUCH_FIELD + * + * This function has linear-time complexity: the keys are checked one by one. + * + * @return The value associated with this field, or: + * - NO_SUCH_FIELD if the field does not exist in the object + * - INCORRECT_TYPE if this is not an object + */ + inline simdjson_result operator[](const char *key) const noexcept; + + /** + * Get the value associated with the given JSON pointer. We use the RFC 6901 + * https://tools.ietf.org/html/rfc6901 standard, interpreting the current node + * as the root of its own JSON document. + * + * dom::parser parser; + * object obj = parser.parse(R"({ "foo": { "a": [ 10, 20, 30 ] }})"_padded); + * obj.at_pointer("/foo/a/1") == 20 + * obj.at_pointer("/foo")["a"].at(1) == 20 + * + * It is allowed for a key to be the empty string: + * + * dom::parser parser; + * object obj = parser.parse(R"({ "": { "a": [ 10, 20, 30 ] }})"_padded); + * obj.at_pointer("//a/1") == 20 + * obj.at_pointer("/")["a"].at(1) == 20 + * + * @return The value associated with the given JSON pointer, or: + * - NO_SUCH_FIELD if a field does not exist in an object + * - INDEX_OUT_OF_BOUNDS if an array index is larger than an array length + * - INCORRECT_TYPE if a non-integer is used to access an array + * - INVALID_JSON_POINTER if the JSON pointer is invalid and cannot be parsed + */ + inline simdjson_result at_pointer(std::string_view json_pointer) const noexcept; + + /** + * Get the value associated with the given key. + * + * The key will be matched against **unescaped** JSON: + * + * dom::parser parser; + * parser.parse(R"({ "a\n": 1 })"_padded)["a\n"].get().first == 1 + * parser.parse(R"({ "a\n": 1 })"_padded)["a\\n"].get().error() == NO_SUCH_FIELD + * + * This function has linear-time complexity: the keys are checked one by one. + * + * @return The value associated with this field, or: + * - NO_SUCH_FIELD if the field does not exist in the object + */ + inline simdjson_result at_key(std::string_view key) const noexcept; + + /** + * Get the value associated with the given key in a case-insensitive manner. + * It is only guaranteed to work over ASCII inputs. + * + * Note: The key will be matched against **unescaped** JSON. + * + * This function has linear-time complexity: the keys are checked one by one. + * + * @return The value associated with this field, or: + * - NO_SUCH_FIELD if the field does not exist in the object + */ + inline simdjson_result at_key_case_insensitive(std::string_view key) const noexcept; + +private: + simdjson_really_inline object(const internal::tape_ref &tape) noexcept; + + internal::tape_ref tape; + + friend class element; + friend struct simdjson_result; + template + friend class simdjson::internal::string_builder; +}; + +/** + * Key/value pair in an object. + */ +class key_value_pair { +public: + /** key in the key-value pair **/ + std::string_view key; + /** value in the key-value pair **/ + element value; + +private: + simdjson_really_inline key_value_pair(std::string_view _key, element _value) noexcept; + friend class object; +}; + +} // namespace dom + +/** The result of a JSON conversion that may fail. */ +template<> +struct simdjson_result : public internal::simdjson_result_base { +public: + simdjson_really_inline simdjson_result() noexcept; ///< @private + simdjson_really_inline simdjson_result(dom::object value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + + inline simdjson_result operator[](std::string_view key) const noexcept; + inline simdjson_result operator[](const char *key) const noexcept; + inline simdjson_result at_pointer(std::string_view json_pointer) const noexcept; + inline simdjson_result at_key(std::string_view key) const noexcept; + inline simdjson_result at_key_case_insensitive(std::string_view key) const noexcept; + +#if SIMDJSON_EXCEPTIONS + inline dom::object::iterator begin() const noexcept(false); + inline dom::object::iterator end() const noexcept(false); + inline size_t size() const noexcept(false); +#endif // SIMDJSON_EXCEPTIONS +}; + +} // namespace simdjson + +#if defined(__cpp_lib_ranges) +#include + +namespace std { +namespace ranges { +template<> +inline constexpr bool enable_view = true; +#if SIMDJSON_EXCEPTIONS +template<> +inline constexpr bool enable_view> = true; +#endif // SIMDJSON_EXCEPTIONS +} // namespace ranges +} // namespace std +#endif // defined(__cpp_lib_ranges) + +#endif // SIMDJSON_DOM_OBJECT_H +/* end file include/simdjson/dom/object.h */ +/* begin file include/simdjson/dom/serialization.h */ +#ifndef SIMDJSON_SERIALIZATION_H +#define SIMDJSON_SERIALIZATION_H + +#include + +namespace simdjson { + +/** + * The string_builder template and mini_formatter class + * are not part of our public API and are subject to change + * at any time! + */ +namespace internal { + +class mini_formatter; + +/** + * @private The string_builder template allows us to construct + * a string from a document element. It is parametrized + * by a "formatter" which handles the details. Thus + * the string_builder template could support both minification + * and prettification, and various other tradeoffs. + */ +template +class string_builder { +public: + /** Construct an initially empty builder, would print the empty string **/ + string_builder() = default; + /** Append an element to the builder (to be printed) **/ + inline void append(simdjson::dom::element value); + /** Append an array to the builder (to be printed) **/ + inline void append(simdjson::dom::array value); + /** Append an objet to the builder (to be printed) **/ + inline void append(simdjson::dom::object value); + /** Reset the builder (so that it would print the empty string) **/ + simdjson_really_inline void clear(); + /** + * Get access to the string. The string_view is owned by the builder + * and it is invalid to use it after the string_builder has been + * destroyed. + * However you can make a copy of the string_view on memory that you + * own. + */ + simdjson_really_inline std::string_view str() const; + /** Append a key_value_pair to the builder (to be printed) **/ + simdjson_really_inline void append(simdjson::dom::key_value_pair value); +private: + formatter format{}; +}; + +/** + * @private This is the class that we expect to use with the string_builder + * template. It tries to produce a compact version of the JSON element + * as quickly as possible. + */ +class mini_formatter { +public: + mini_formatter() = default; + /** Add a comma **/ + simdjson_really_inline void comma(); + /** Start an array, prints [ **/ + simdjson_really_inline void start_array(); + /** End an array, prints ] **/ + simdjson_really_inline void end_array(); + /** Start an array, prints { **/ + simdjson_really_inline void start_object(); + /** Start an array, prints } **/ + simdjson_really_inline void end_object(); + /** Prints a true **/ + simdjson_really_inline void true_atom(); + /** Prints a false **/ + simdjson_really_inline void false_atom(); + /** Prints a null **/ + simdjson_really_inline void null_atom(); + /** Prints a number **/ + simdjson_really_inline void number(int64_t x); + /** Prints a number **/ + simdjson_really_inline void number(uint64_t x); + /** Prints a number **/ + simdjson_really_inline void number(double x); + /** Prints a key (string + colon) **/ + simdjson_really_inline void key(std::string_view unescaped); + /** Prints a string. The string is escaped as needed. **/ + simdjson_really_inline void string(std::string_view unescaped); + /** Clears out the content. **/ + simdjson_really_inline void clear(); + /** + * Get access to the buffer, it is own by the instance, but + * the user can make a copy. + **/ + simdjson_really_inline std::string_view str() const; + +private: + // implementation details (subject to change) + /** Prints one character **/ + simdjson_really_inline void one_char(char c); + /** Backing buffer **/ + std::vector buffer{}; // not ideal! +}; + +} // internal + +namespace dom { + +/** + * Print JSON to an output stream. + * + * @param out The output stream. + * @param value The element. + * @throw if there is an error with the underlying output stream. simdjson itself will not throw. + */ +inline std::ostream& operator<<(std::ostream& out, simdjson::dom::element value) { + simdjson::internal::string_builder<> sb; + sb.append(value); + return (out << sb.str()); +} +#if SIMDJSON_EXCEPTIONS +inline std::ostream& operator<<(std::ostream& out, simdjson::simdjson_result x) { + if (x.error()) { throw simdjson::simdjson_error(x.error()); } + return (out << x.value()); +} +#endif +/** + * Print JSON to an output stream. + * + * @param out The output stream. + * @param value The array. + * @throw if there is an error with the underlying output stream. simdjson itself will not throw. + */ +inline std::ostream& operator<<(std::ostream& out, simdjson::dom::array value) { + simdjson::internal::string_builder<> sb; + sb.append(value); + return (out << sb.str()); +} +#if SIMDJSON_EXCEPTIONS +inline std::ostream& operator<<(std::ostream& out, simdjson::simdjson_result x) { + if (x.error()) { throw simdjson::simdjson_error(x.error()); } + return (out << x.value()); +} +#endif +/** + * Print JSON to an output stream. + * + * @param out The output stream. + * @param value The objet. + * @throw if there is an error with the underlying output stream. simdjson itself will not throw. + */ +inline std::ostream& operator<<(std::ostream& out, simdjson::dom::object value) { + simdjson::internal::string_builder<> sb; + sb.append(value); + return (out << sb.str()); +} +#if SIMDJSON_EXCEPTIONS +inline std::ostream& operator<<(std::ostream& out, simdjson::simdjson_result x) { + if (x.error()) { throw simdjson::simdjson_error(x.error()); } + return (out << x.value()); +} +#endif +} // namespace dom + +/** + * Converts JSON to a string. + * + * dom::parser parser; + * element doc = parser.parse(" [ 1 , 2 , 3 ] "_padded); + * cout << to_string(doc) << endl; // prints [1,2,3] + * + */ +template +std::string to_string(T x) { + // in C++, to_string is standard: http://www.cplusplus.com/reference/string/to_string/ + // Currently minify and to_string are identical but in the future, they may + // differ. + simdjson::internal::string_builder<> sb; + sb.append(x); + std::string_view answer = sb.str(); + return std::string(answer.data(), answer.size()); +} +#if SIMDJSON_EXCEPTIONS +template +std::string to_string(simdjson_result x) { + if (x.error()) { throw simdjson_error(x.error()); } + return to_string(x.value()); +} +#endif + +/** + * Minifies a JSON element or document, printing the smallest possible valid JSON. + * + * dom::parser parser; + * element doc = parser.parse(" [ 1 , 2 , 3 ] "_padded); + * cout << minify(doc) << endl; // prints [1,2,3] + * + */ +template +std::string minify(T x) { + return to_string(x); +} + +#if SIMDJSON_EXCEPTIONS +template +std::string minify(simdjson_result x) { + if (x.error()) { throw simdjson_error(x.error()); } + return to_string(x.value()); +} +#endif + + +} // namespace simdjson + + +#endif +/* end file include/simdjson/dom/serialization.h */ + +// Deprecated API +/* begin file include/simdjson/dom/jsonparser.h */ +// TODO Remove this -- deprecated API and files + +#ifndef SIMDJSON_DOM_JSONPARSER_H +#define SIMDJSON_DOM_JSONPARSER_H + +/* begin file include/simdjson/dom/parsedjson.h */ +// TODO Remove this -- deprecated API and files + +#ifndef SIMDJSON_DOM_PARSEDJSON_H +#define SIMDJSON_DOM_PARSEDJSON_H + + +namespace simdjson { + +/** + * @deprecated Use `dom::parser` instead. + */ +using ParsedJson [[deprecated("Use dom::parser instead")]] = dom::parser; + +} // namespace simdjson + +#endif // SIMDJSON_DOM_PARSEDJSON_H +/* end file include/simdjson/dom/parsedjson.h */ +/* begin file include/simdjson/jsonioutil.h */ +#ifndef SIMDJSON_JSONIOUTIL_H +#define SIMDJSON_JSONIOUTIL_H + + +namespace simdjson { + +#if SIMDJSON_EXCEPTIONS +#ifndef SIMDJSON_DISABLE_DEPRECATED_API +[[deprecated("Use padded_string::load() instead")]] +inline padded_string get_corpus(const char *path) { + return padded_string::load(path); +} +#endif // SIMDJSON_DISABLE_DEPRECATED_API +#endif // SIMDJSON_EXCEPTIONS + +} // namespace simdjson + +#endif // SIMDJSON_JSONIOUTIL_H +/* end file include/simdjson/jsonioutil.h */ + +namespace simdjson { + +// +// C API (json_parse and build_parsed_json) declarations +// + +#ifndef SIMDJSON_DISABLE_DEPRECATED_API +[[deprecated("Use parser.parse() instead")]] +inline int json_parse(const uint8_t *buf, size_t len, dom::parser &parser, bool realloc_if_needed = true) noexcept { + error_code code = parser.parse(buf, len, realloc_if_needed).error(); + // The deprecated json_parse API is a signal that the user plans to *use* the error code / valid + // bits in the parser instead of heeding the result code. The normal parser unsets those in + // anticipation of making the error code ephemeral. + // Here we put the code back into the parser, until we've removed this method. + parser.valid = code == SUCCESS; + parser.error = code; + return code; +} +[[deprecated("Use parser.parse() instead")]] +inline int json_parse(const char *buf, size_t len, dom::parser &parser, bool realloc_if_needed = true) noexcept { + error_code code = parser.parse(buf, len, realloc_if_needed).error(); + // The deprecated json_parse API is a signal that the user plans to *use* the error code / valid + // bits in the parser instead of heeding the result code. The normal parser unsets those in + // anticipation of making the error code ephemeral. + // Here we put the code back into the parser, until we've removed this method. + parser.valid = code == SUCCESS; + parser.error = code; + return code; +} +[[deprecated("Use parser.parse() instead")]] +inline int json_parse(const std::string &s, dom::parser &parser, bool realloc_if_needed = true) noexcept { + error_code code = parser.parse(s.data(), s.length(), realloc_if_needed).error(); + // The deprecated json_parse API is a signal that the user plans to *use* the error code / valid + // bits in the parser instead of heeding the result code. The normal parser unsets those in + // anticipation of making the error code ephemeral. + // Here we put the code back into the parser, until we've removed this method. + parser.valid = code == SUCCESS; + parser.error = code; + return code; +} +[[deprecated("Use parser.parse() instead")]] +inline int json_parse(const padded_string &s, dom::parser &parser) noexcept { + error_code code = parser.parse(s).error(); + // The deprecated json_parse API is a signal that the user plans to *use* the error code / valid + // bits in the parser instead of heeding the result code. The normal parser unsets those in + // anticipation of making the error code ephemeral. + // Here we put the code back into the parser, until we've removed this method. + parser.valid = code == SUCCESS; + parser.error = code; + return code; +} + +[[deprecated("Use parser.parse() instead")]] +simdjson_warn_unused inline dom::parser build_parsed_json(const uint8_t *buf, size_t len, bool realloc_if_needed = true) noexcept { + dom::parser parser; + error_code code = parser.parse(buf, len, realloc_if_needed).error(); + // The deprecated json_parse API is a signal that the user plans to *use* the error code / valid + // bits in the parser instead of heeding the result code. The normal parser unsets those in + // anticipation of making the error code ephemeral. + // Here we put the code back into the parser, until we've removed this method. + parser.valid = code == SUCCESS; + parser.error = code; + return parser; +} +[[deprecated("Use parser.parse() instead")]] +simdjson_warn_unused inline dom::parser build_parsed_json(const char *buf, size_t len, bool realloc_if_needed = true) noexcept { + dom::parser parser; + error_code code = parser.parse(buf, len, realloc_if_needed).error(); + // The deprecated json_parse API is a signal that the user plans to *use* the error code / valid + // bits in the parser instead of heeding the result code. The normal parser unsets those in + // anticipation of making the error code ephemeral. + // Here we put the code back into the parser, until we've removed this method. + parser.valid = code == SUCCESS; + parser.error = code; + return parser; +} +[[deprecated("Use parser.parse() instead")]] +simdjson_warn_unused inline dom::parser build_parsed_json(const std::string &s, bool realloc_if_needed = true) noexcept { + dom::parser parser; + error_code code = parser.parse(s.data(), s.length(), realloc_if_needed).error(); + // The deprecated json_parse API is a signal that the user plans to *use* the error code / valid + // bits in the parser instead of heeding the result code. The normal parser unsets those in + // anticipation of making the error code ephemeral. + // Here we put the code back into the parser, until we've removed this method. + parser.valid = code == SUCCESS; + parser.error = code; + return parser; +} +[[deprecated("Use parser.parse() instead")]] +simdjson_warn_unused inline dom::parser build_parsed_json(const padded_string &s) noexcept { + dom::parser parser; + error_code code = parser.parse(s).error(); + // The deprecated json_parse API is a signal that the user plans to *use* the error code / valid + // bits in the parser instead of heeding the result code. The normal parser unsets those in + // anticipation of making the error code ephemeral. + // Here we put the code back into the parser, until we've removed this method. + parser.valid = code == SUCCESS; + parser.error = code; + return parser; +} +#endif // SIMDJSON_DISABLE_DEPRECATED_API + +/** @private We do not want to allow implicit conversion from C string to std::string. */ +int json_parse(const char *buf, dom::parser &parser) noexcept = delete; +/** @private We do not want to allow implicit conversion from C string to std::string. */ +dom::parser build_parsed_json(const char *buf) noexcept = delete; + +} // namespace simdjson + +#endif // SIMDJSON_DOM_JSONPARSER_H +/* end file include/simdjson/dom/jsonparser.h */ +/* begin file include/simdjson/dom/parsedjson_iterator.h */ +// TODO Remove this -- deprecated API and files + +#ifndef SIMDJSON_DOM_PARSEDJSON_ITERATOR_H +#define SIMDJSON_DOM_PARSEDJSON_ITERATOR_H + +#include +#include +#include +#include +#include +#include + +/* begin file include/simdjson/internal/jsonformatutils.h */ +#ifndef SIMDJSON_INTERNAL_JSONFORMATUTILS_H +#define SIMDJSON_INTERNAL_JSONFORMATUTILS_H + +#include +#include +#include + +namespace simdjson { +namespace internal { + +class escape_json_string; + +inline std::ostream& operator<<(std::ostream& out, const escape_json_string &str); + +class escape_json_string { +public: + escape_json_string(std::string_view _str) noexcept : str{_str} {} + operator std::string() const noexcept { std::stringstream s; s << *this; return s.str(); } +private: + std::string_view str; + friend std::ostream& operator<<(std::ostream& out, const escape_json_string &unescaped); +}; + +inline std::ostream& operator<<(std::ostream& out, const escape_json_string &unescaped) { + for (size_t i=0; i= tape_length) { + return 0; // default value in case of error + } + return static_cast(doc.tape[location + 1]); + } + + // get the value as uint64; valid only if if get_type is "u" + inline uint64_t get_unsigned_integer() const { + if (location + 1 >= tape_length) { + return 0; // default value in case of error + } + return doc.tape[location + 1]; + } + + // get the string value at this node (NULL ended); valid only if get_type is " + // note that tabs, and line endings are escaped in the returned value (see + // print_with_escapes) return value is valid UTF-8, it may contain NULL chars + // within the string: get_string_length determines the true string length. + inline const char *get_string() const { + return reinterpret_cast( + doc.string_buf.get() + (current_val & internal::JSON_VALUE_MASK) + sizeof(uint32_t)); + } + + // return the length of the string in bytes + inline uint32_t get_string_length() const { + uint32_t answer; + std::memcpy(&answer, + reinterpret_cast(doc.string_buf.get() + + (current_val & internal::JSON_VALUE_MASK)), + sizeof(uint32_t)); + return answer; + } + + // get the double value at this node; valid only if + // get_type() is "d" + inline double get_double() const { + if (location + 1 >= tape_length) { + return std::numeric_limits::quiet_NaN(); // default value in + // case of error + } + double answer; + std::memcpy(&answer, &doc.tape[location + 1], sizeof(answer)); + return answer; + } + + inline bool is_object_or_array() const { return is_object() || is_array(); } + + inline bool is_object() const { return get_type() == '{'; } + + inline bool is_array() const { return get_type() == '['; } + + inline bool is_string() const { return get_type() == '"'; } + + // Returns true if the current type of the node is an signed integer. + // You can get its value with `get_integer()`. + inline bool is_integer() const { return get_type() == 'l'; } + + // Returns true if the current type of the node is an unsigned integer. + // You can get its value with `get_unsigned_integer()`. + // + // NOTE: + // Only a large value, which is out of range of a 64-bit signed integer, is + // represented internally as an unsigned node. On the other hand, a typical + // positive integer, such as 1, 42, or 1000000, is as a signed node. + // Be aware this function returns false for a signed node. + inline bool is_unsigned_integer() const { return get_type() == 'u'; } + // Returns true if the current type of the node is a double floating-point number. + inline bool is_double() const { return get_type() == 'd'; } + // Returns true if the current type of the node is a number (integer or floating-point). + inline bool is_number() const { + return is_integer() || is_unsigned_integer() || is_double(); + } + // Returns true if the current type of the node is a bool with true value. + inline bool is_true() const { return get_type() == 't'; } + // Returns true if the current type of the node is a bool with false value. + inline bool is_false() const { return get_type() == 'f'; } + // Returns true if the current type of the node is null. + inline bool is_null() const { return get_type() == 'n'; } + // Returns true if the type byte represents an object of an array + static bool is_object_or_array(uint8_t type) { + return ((type == '[') || (type == '{')); + } + + // when at {, go one level deep, looking for a given key + // if successful, we are left pointing at the value, + // if not, we are still pointing at the object ({) + // (in case of repeated keys, this only finds the first one). + // We seek the key using C's strcmp so if your JSON strings contain + // NULL chars, this would trigger a false positive: if you expect that + // to be the case, take extra precautions. + // Furthermore, we do the comparison character-by-character + // without taking into account Unicode equivalence. + inline bool move_to_key(const char *key); + + // as above, but case insensitive lookup (strcmpi instead of strcmp) + inline bool move_to_key_insensitive(const char *key); + + // when at {, go one level deep, looking for a given key + // if successful, we are left pointing at the value, + // if not, we are still pointing at the object ({) + // (in case of repeated keys, this only finds the first one). + // The string we search for can contain NULL values. + // Furthermore, we do the comparison character-by-character + // without taking into account Unicode equivalence. + inline bool move_to_key(const char *key, uint32_t length); + + // when at a key location within an object, this moves to the accompanying + // value (located next to it). This is equivalent but much faster than + // calling "next()". + inline void move_to_value(); + + // when at [, go one level deep, and advance to the given index. + // if successful, we are left pointing at the value, + // if not, we are still pointing at the array ([) + inline bool move_to_index(uint32_t index); + + // Moves the iterator to the value corresponding to the json pointer. + // Always search from the root of the document. + // if successful, we are left pointing at the value, + // if not, we are still pointing the same value we were pointing before the + // call. The json pointer follows the rfc6901 standard's syntax: + // https://tools.ietf.org/html/rfc6901 However, the standard says "If a + // referenced member name is not unique in an object, the member that is + // referenced is undefined, and evaluation fails". Here we just return the + // first corresponding value. The length parameter is the length of the + // jsonpointer string ('pointer'). + inline bool move_to(const char *pointer, uint32_t length); + + // Moves the iterator to the value corresponding to the json pointer. + // Always search from the root of the document. + // if successful, we are left pointing at the value, + // if not, we are still pointing the same value we were pointing before the + // call. The json pointer implementation follows the rfc6901 standard's + // syntax: https://tools.ietf.org/html/rfc6901 However, the standard says + // "If a referenced member name is not unique in an object, the member that + // is referenced is undefined, and evaluation fails". Here we just return + // the first corresponding value. + inline bool move_to(const std::string &pointer) { + return move_to(pointer.c_str(), uint32_t(pointer.length())); + } + + private: + // Almost the same as move_to(), except it searches from the current + // position. The pointer's syntax is identical, though that case is not + // handled by the rfc6901 standard. The '/' is still required at the + // beginning. However, contrary to move_to(), the URI Fragment Identifier + // Representation is not supported here. Also, in case of failure, we are + // left pointing at the closest value it could reach. For these reasons it + // is private. It exists because it is used by move_to(). + inline bool relative_move_to(const char *pointer, uint32_t length); + + public: + // throughout return true if we can do the navigation, false + // otherwise + + // Withing a given scope (series of nodes at the same depth within either an + // array or an object), we move forward. + // Thus, given [true, null, {"a":1}, [1,2]], we would visit true, null, { + // and [. At the object ({) or at the array ([), you can issue a "down" to + // visit their content. valid if we're not at the end of a scope (returns + // true). + inline bool next(); + + // Within a given scope (series of nodes at the same depth within either an + // array or an object), we move backward. + // Thus, given [true, null, {"a":1}, [1,2]], we would visit ], }, null, true + // when starting at the end of the scope. At the object ({) or at the array + // ([), you can issue a "down" to visit their content. + // Performance warning: This function is implemented by starting again + // from the beginning of the scope and scanning forward. You should expect + // it to be relatively slow. + inline bool prev(); + + // Moves back to either the containing array or object (type { or [) from + // within a contained scope. + // Valid unless we are at the first level of the document + inline bool up(); + + // Valid if we're at a [ or { and it starts a non-empty scope; moves us to + // start of that deeper scope if it not empty. Thus, given [true, null, + // {"a":1}, [1,2]], if we are at the { node, we would move to the "a" node. + inline bool down(); + + // move us to the start of our current scope, + // a scope is a series of nodes at the same level + inline void to_start_scope(); + + inline void rewind() { + while (up()) + ; + } + + + + // print the node we are currently pointing at + inline bool print(std::ostream &os, bool escape_strings = true) const; + + private: + const document &doc; + size_t max_depth{}; + size_t depth{}; + size_t location{}; // our current location on a tape + size_t tape_length{}; + uint8_t current_type{}; + uint64_t current_val{}; + typedef struct { + size_t start_of_scope; + uint8_t scope_type; + } scopeindex_t; + + scopeindex_t *depth_index{}; +}; + +} // namespace simdjson +#endif // SIMDJSON_DISABLE_DEPRECATED_API + +#endif // SIMDJSON_DOM_PARSEDJSON_ITERATOR_H +/* end file include/simdjson/dom/parsedjson_iterator.h */ + +// Inline functions +/* begin file include/simdjson/dom/array-inl.h */ +#ifndef SIMDJSON_INLINE_ARRAY_H +#define SIMDJSON_INLINE_ARRAY_H + +// Inline implementations go in here. + +#include + +namespace simdjson { + +// +// simdjson_result inline implementation +// +simdjson_really_inline simdjson_result::simdjson_result() noexcept + : internal::simdjson_result_base() {} +simdjson_really_inline simdjson_result::simdjson_result(dom::array value) noexcept + : internal::simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : internal::simdjson_result_base(error) {} + +#if SIMDJSON_EXCEPTIONS + +inline dom::array::iterator simdjson_result::begin() const noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first.begin(); +} +inline dom::array::iterator simdjson_result::end() const noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first.end(); +} +inline size_t simdjson_result::size() const noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first.size(); +} + +#endif // SIMDJSON_EXCEPTIONS + +inline simdjson_result simdjson_result::at_pointer(std::string_view json_pointer) const noexcept { + if (error()) { return error(); } + return first.at_pointer(json_pointer); +} +inline simdjson_result simdjson_result::at(size_t index) const noexcept { + if (error()) { return error(); } + return first.at(index); +} + +namespace dom { + +// +// array inline implementation +// +simdjson_really_inline array::array() noexcept : tape{} {} +simdjson_really_inline array::array(const internal::tape_ref &_tape) noexcept : tape{_tape} {} +inline array::iterator array::begin() const noexcept { + return internal::tape_ref(tape.doc, tape.json_index + 1); +} +inline array::iterator array::end() const noexcept { + return internal::tape_ref(tape.doc, tape.after_element() - 1); +} +inline size_t array::size() const noexcept { + return tape.scope_count(); +} +inline size_t array::slots() const noexcept { + return tape.matching_brace_index() - tape.json_index; +} +inline simdjson_result array::at_pointer(std::string_view json_pointer) const noexcept { + if(json_pointer.empty()) { // an empty string means that we return the current node + return element(this->tape); // copy the current node + } else if(json_pointer[0] != '/') { // otherwise there is an error + return INVALID_JSON_POINTER; + } + json_pointer = json_pointer.substr(1); + // - means "the append position" or "the element after the end of the array" + // We don't support this, because we're returning a real element, not a position. + if (json_pointer == "-") { return INDEX_OUT_OF_BOUNDS; } + + // Read the array index + size_t array_index = 0; + size_t i; + for (i = 0; i < json_pointer.length() && json_pointer[i] != '/'; i++) { + uint8_t digit = uint8_t(json_pointer[i] - '0'); + // Check for non-digit in array index. If it's there, we're trying to get a field in an object + if (digit > 9) { return INCORRECT_TYPE; } + array_index = array_index*10 + digit; + } + + // 0 followed by other digits is invalid + if (i > 1 && json_pointer[0] == '0') { return INVALID_JSON_POINTER; } // "JSON pointer array index has other characters after 0" + + // Empty string is invalid; so is a "/" with no digits before it + if (i == 0) { return INVALID_JSON_POINTER; } // "Empty string in JSON pointer array index" + + // Get the child + auto child = array(tape).at(array_index); + // If there is an error, it ends here + if(child.error()) { + return child; + } + // If there is a /, we're not done yet, call recursively. + if (i < json_pointer.length()) { + child = child.at_pointer(json_pointer.substr(i)); + } + return child; +} + +inline simdjson_result array::at(size_t index) const noexcept { + size_t i=0; + for (auto element : *this) { + if (i == index) { return element; } + i++; + } + return INDEX_OUT_OF_BOUNDS; +} + +// +// array::iterator inline implementation +// +simdjson_really_inline array::iterator::iterator(const internal::tape_ref &_tape) noexcept : tape{_tape} { } +inline element array::iterator::operator*() const noexcept { + return element(tape); +} +inline array::iterator& array::iterator::operator++() noexcept { + tape.json_index = tape.after_element(); + return *this; +} +inline array::iterator array::iterator::operator++(int) noexcept { + array::iterator out = *this; + ++*this; + return out; +} +inline bool array::iterator::operator!=(const array::iterator& other) const noexcept { + return tape.json_index != other.tape.json_index; +} +inline bool array::iterator::operator==(const array::iterator& other) const noexcept { + return tape.json_index == other.tape.json_index; +} +inline bool array::iterator::operator<(const array::iterator& other) const noexcept { + return tape.json_index < other.tape.json_index; +} +inline bool array::iterator::operator<=(const array::iterator& other) const noexcept { + return tape.json_index <= other.tape.json_index; +} +inline bool array::iterator::operator>=(const array::iterator& other) const noexcept { + return tape.json_index >= other.tape.json_index; +} +inline bool array::iterator::operator>(const array::iterator& other) const noexcept { + return tape.json_index > other.tape.json_index; +} + +} // namespace dom + + +} // namespace simdjson + +/* begin file include/simdjson/dom/element-inl.h */ +#ifndef SIMDJSON_INLINE_ELEMENT_H +#define SIMDJSON_INLINE_ELEMENT_H + +#include +#include + +namespace simdjson { + +// +// simdjson_result inline implementation +// +simdjson_really_inline simdjson_result::simdjson_result() noexcept + : internal::simdjson_result_base() {} +simdjson_really_inline simdjson_result::simdjson_result(dom::element &&value) noexcept + : internal::simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : internal::simdjson_result_base(error) {} +inline simdjson_result simdjson_result::type() const noexcept { + if (error()) { return error(); } + return first.type(); +} + +template +simdjson_really_inline bool simdjson_result::is() const noexcept { + return !error() && first.is(); +} +template +simdjson_really_inline simdjson_result simdjson_result::get() const noexcept { + if (error()) { return error(); } + return first.get(); +} +template +simdjson_warn_unused simdjson_really_inline error_code simdjson_result::get(T &value) const noexcept { + if (error()) { return error(); } + return first.get(value); +} + +simdjson_really_inline simdjson_result simdjson_result::get_array() const noexcept { + if (error()) { return error(); } + return first.get_array(); +} +simdjson_really_inline simdjson_result simdjson_result::get_object() const noexcept { + if (error()) { return error(); } + return first.get_object(); +} +simdjson_really_inline simdjson_result simdjson_result::get_c_str() const noexcept { + if (error()) { return error(); } + return first.get_c_str(); +} +simdjson_really_inline simdjson_result simdjson_result::get_string_length() const noexcept { + if (error()) { return error(); } + return first.get_string_length(); +} +simdjson_really_inline simdjson_result simdjson_result::get_string() const noexcept { + if (error()) { return error(); } + return first.get_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_int64() const noexcept { + if (error()) { return error(); } + return first.get_int64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_uint64() const noexcept { + if (error()) { return error(); } + return first.get_uint64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_double() const noexcept { + if (error()) { return error(); } + return first.get_double(); +} +simdjson_really_inline simdjson_result simdjson_result::get_bool() const noexcept { + if (error()) { return error(); } + return first.get_bool(); +} + +simdjson_really_inline bool simdjson_result::is_array() const noexcept { + return !error() && first.is_array(); +} +simdjson_really_inline bool simdjson_result::is_object() const noexcept { + return !error() && first.is_object(); +} +simdjson_really_inline bool simdjson_result::is_string() const noexcept { + return !error() && first.is_string(); +} +simdjson_really_inline bool simdjson_result::is_int64() const noexcept { + return !error() && first.is_int64(); +} +simdjson_really_inline bool simdjson_result::is_uint64() const noexcept { + return !error() && first.is_uint64(); +} +simdjson_really_inline bool simdjson_result::is_double() const noexcept { + return !error() && first.is_double(); +} +simdjson_really_inline bool simdjson_result::is_number() const noexcept { + return !error() && first.is_number(); +} +simdjson_really_inline bool simdjson_result::is_bool() const noexcept { + return !error() && first.is_bool(); +} + +simdjson_really_inline bool simdjson_result::is_null() const noexcept { + return !error() && first.is_null(); +} + +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) const noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](const char *key) const noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::at_pointer(const std::string_view json_pointer) const noexcept { + if (error()) { return error(); } + return first.at_pointer(json_pointer); +} +#ifndef SIMDJSON_DISABLE_DEPRECATED_API +[[deprecated("For standard compliance, use at_pointer instead, and prefix your pointers with a slash '/', see RFC6901 ")]] +simdjson_really_inline simdjson_result simdjson_result::at(const std::string_view json_pointer) const noexcept { +SIMDJSON_PUSH_DISABLE_WARNINGS +SIMDJSON_DISABLE_DEPRECATED_WARNING + if (error()) { return error(); } + return first.at(json_pointer); +SIMDJSON_POP_DISABLE_WARNINGS +} +#endif // SIMDJSON_DISABLE_DEPRECATED_API +simdjson_really_inline simdjson_result simdjson_result::at(size_t index) const noexcept { + if (error()) { return error(); } + return first.at(index); +} +simdjson_really_inline simdjson_result simdjson_result::at_key(std::string_view key) const noexcept { + if (error()) { return error(); } + return first.at_key(key); +} +simdjson_really_inline simdjson_result simdjson_result::at_key_case_insensitive(std::string_view key) const noexcept { + if (error()) { return error(); } + return first.at_key_case_insensitive(key); +} + +#if SIMDJSON_EXCEPTIONS + +simdjson_really_inline simdjson_result::operator bool() const noexcept(false) { + return get(); +} +simdjson_really_inline simdjson_result::operator const char *() const noexcept(false) { + return get(); +} +simdjson_really_inline simdjson_result::operator std::string_view() const noexcept(false) { + return get(); +} +simdjson_really_inline simdjson_result::operator uint64_t() const noexcept(false) { + return get(); +} +simdjson_really_inline simdjson_result::operator int64_t() const noexcept(false) { + return get(); +} +simdjson_really_inline simdjson_result::operator double() const noexcept(false) { + return get(); +} +simdjson_really_inline simdjson_result::operator dom::array() const noexcept(false) { + return get(); +} +simdjson_really_inline simdjson_result::operator dom::object() const noexcept(false) { + return get(); +} + +simdjson_really_inline dom::array::iterator simdjson_result::begin() const noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first.begin(); +} +simdjson_really_inline dom::array::iterator simdjson_result::end() const noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first.end(); +} + +#endif // SIMDJSON_EXCEPTIONS + +namespace dom { + +// +// element inline implementation +// +simdjson_really_inline element::element() noexcept : tape{} {} +simdjson_really_inline element::element(const internal::tape_ref &_tape) noexcept : tape{_tape} { } + +inline element_type element::type() const noexcept { + auto tape_type = tape.tape_ref_type(); + return tape_type == internal::tape_type::FALSE_VALUE ? element_type::BOOL : static_cast(tape_type); +} + +inline simdjson_result element::get_bool() const noexcept { + if(tape.is_true()) { + return true; + } else if(tape.is_false()) { + return false; + } + return INCORRECT_TYPE; +} +inline simdjson_result element::get_c_str() const noexcept { + switch (tape.tape_ref_type()) { + case internal::tape_type::STRING: { + return tape.get_c_str(); + } + default: + return INCORRECT_TYPE; + } +} +inline simdjson_result element::get_string_length() const noexcept { + switch (tape.tape_ref_type()) { + case internal::tape_type::STRING: { + return tape.get_string_length(); + } + default: + return INCORRECT_TYPE; + } +} +inline simdjson_result element::get_string() const noexcept { + switch (tape.tape_ref_type()) { + case internal::tape_type::STRING: + return tape.get_string_view(); + default: + return INCORRECT_TYPE; + } +} +inline simdjson_result element::get_uint64() const noexcept { + if(simdjson_unlikely(!tape.is_uint64())) { // branch rarely taken + if(tape.is_int64()) { + int64_t result = tape.next_tape_value(); + if (result < 0) { + return NUMBER_OUT_OF_RANGE; + } + return uint64_t(result); + } + return INCORRECT_TYPE; + } + return tape.next_tape_value(); +} +inline simdjson_result element::get_int64() const noexcept { + if(simdjson_unlikely(!tape.is_int64())) { // branch rarely taken + if(tape.is_uint64()) { + uint64_t result = tape.next_tape_value(); + // Wrapping max in parens to handle Windows issue: https://stackoverflow.com/questions/11544073/how-do-i-deal-with-the-max-macro-in-windows-h-colliding-with-max-in-std + if (result > uint64_t((std::numeric_limits::max)())) { + return NUMBER_OUT_OF_RANGE; + } + return static_cast(result); + } + return INCORRECT_TYPE; + } + return tape.next_tape_value(); +} +inline simdjson_result element::get_double() const noexcept { + // Performance considerations: + // 1. Querying tape_ref_type() implies doing a shift, it is fast to just do a straight + // comparison. + // 2. Using a switch-case relies on the compiler guessing what kind of code generation + // we want... But the compiler cannot know that we expect the type to be "double" + // most of the time. + // We can expect get to refer to a double type almost all the time. + // It is important to craft the code accordingly so that the compiler can use this + // information. (This could also be solved with profile-guided optimization.) + if(simdjson_unlikely(!tape.is_double())) { // branch rarely taken + if(tape.is_uint64()) { + return double(tape.next_tape_value()); + } else if(tape.is_int64()) { + return double(tape.next_tape_value()); + } + return INCORRECT_TYPE; + } + // this is common: + return tape.next_tape_value(); +} +inline simdjson_result element::get_array() const noexcept { + switch (tape.tape_ref_type()) { + case internal::tape_type::START_ARRAY: + return array(tape); + default: + return INCORRECT_TYPE; + } +} +inline simdjson_result element::get_object() const noexcept { + switch (tape.tape_ref_type()) { + case internal::tape_type::START_OBJECT: + return object(tape); + default: + return INCORRECT_TYPE; + } +} + +template +simdjson_warn_unused simdjson_really_inline error_code element::get(T &value) const noexcept { + return get().get(value); +} +// An element-specific version prevents recursion with simdjson_result::get(value) +template<> +simdjson_warn_unused simdjson_really_inline error_code element::get(element &value) const noexcept { + value = element(tape); + return SUCCESS; +} +template +inline void element::tie(T &value, error_code &error) && noexcept { + error = get(value); +} + +template +simdjson_really_inline bool element::is() const noexcept { + auto result = get(); + return !result.error(); +} + +template<> inline simdjson_result element::get() const noexcept { return get_array(); } +template<> inline simdjson_result element::get() const noexcept { return get_object(); } +template<> inline simdjson_result element::get() const noexcept { return get_c_str(); } +template<> inline simdjson_result element::get() const noexcept { return get_string(); } +template<> inline simdjson_result element::get() const noexcept { return get_int64(); } +template<> inline simdjson_result element::get() const noexcept { return get_uint64(); } +template<> inline simdjson_result element::get() const noexcept { return get_double(); } +template<> inline simdjson_result element::get() const noexcept { return get_bool(); } + +inline bool element::is_array() const noexcept { return is(); } +inline bool element::is_object() const noexcept { return is(); } +inline bool element::is_string() const noexcept { return is(); } +inline bool element::is_int64() const noexcept { return is(); } +inline bool element::is_uint64() const noexcept { return is(); } +inline bool element::is_double() const noexcept { return is(); } +inline bool element::is_bool() const noexcept { return is(); } +inline bool element::is_number() const noexcept { return is_int64() || is_uint64() || is_double(); } + +inline bool element::is_null() const noexcept { + return tape.is_null_on_tape(); +} + +#if SIMDJSON_EXCEPTIONS + +inline element::operator bool() const noexcept(false) { return get(); } +inline element::operator const char*() const noexcept(false) { return get(); } +inline element::operator std::string_view() const noexcept(false) { return get(); } +inline element::operator uint64_t() const noexcept(false) { return get(); } +inline element::operator int64_t() const noexcept(false) { return get(); } +inline element::operator double() const noexcept(false) { return get(); } +inline element::operator array() const noexcept(false) { return get(); } +inline element::operator object() const noexcept(false) { return get(); } + +inline array::iterator element::begin() const noexcept(false) { + return get().begin(); +} +inline array::iterator element::end() const noexcept(false) { + return get().end(); +} + +#endif // SIMDJSON_EXCEPTIONS + +inline simdjson_result element::operator[](std::string_view key) const noexcept { + return at_key(key); +} +inline simdjson_result element::operator[](const char *key) const noexcept { + return at_key(key); +} + +inline simdjson_result element::at_pointer(std::string_view json_pointer) const noexcept { + switch (tape.tape_ref_type()) { + case internal::tape_type::START_OBJECT: + return object(tape).at_pointer(json_pointer); + case internal::tape_type::START_ARRAY: + return array(tape).at_pointer(json_pointer); + default: { + if(!json_pointer.empty()) { // a non-empty string is invalid on an atom + return INVALID_JSON_POINTER; + } + // an empty string means that we return the current node + dom::element copy(*this); + return simdjson_result(std::move(copy)); + } + } +} +#ifndef SIMDJSON_DISABLE_DEPRECATED_API +[[deprecated("For standard compliance, use at_pointer instead, and prefix your pointers with a slash '/', see RFC6901 ")]] +inline simdjson_result element::at(std::string_view json_pointer) const noexcept { + // version 0.4 of simdjson allowed non-compliant pointers + auto std_pointer = (json_pointer.empty() ? "" : "/") + std::string(json_pointer.begin(), json_pointer.end()); + return at_pointer(std_pointer); +} +#endif // SIMDJSON_DISABLE_DEPRECATED_API + +inline simdjson_result element::at(size_t index) const noexcept { + return get().at(index); +} +inline simdjson_result element::at_key(std::string_view key) const noexcept { + return get().at_key(key); +} +inline simdjson_result element::at_key_case_insensitive(std::string_view key) const noexcept { + return get().at_key_case_insensitive(key); +} + +inline bool element::dump_raw_tape(std::ostream &out) const noexcept { + return tape.doc->dump_raw_tape(out); +} + + +inline std::ostream& operator<<(std::ostream& out, element_type type) { + switch (type) { + case element_type::ARRAY: + return out << "array"; + case element_type::OBJECT: + return out << "object"; + case element_type::INT64: + return out << "int64_t"; + case element_type::UINT64: + return out << "uint64_t"; + case element_type::DOUBLE: + return out << "double"; + case element_type::STRING: + return out << "string"; + case element_type::BOOL: + return out << "bool"; + case element_type::NULL_VALUE: + return out << "null"; + default: + return out << "unexpected content!!!"; // abort() usage is forbidden in the library + } +} + +} // namespace dom + +} // namespace simdjson + +#endif // SIMDJSON_INLINE_ELEMENT_H +/* end file include/simdjson/dom/element-inl.h */ + +#if defined(__cpp_lib_ranges) +static_assert(std::ranges::view); +static_assert(std::ranges::sized_range); +#if SIMDJSON_EXCEPTIONS +static_assert(std::ranges::view>); +static_assert(std::ranges::sized_range>); +#endif // SIMDJSON_EXCEPTIONS +#endif // defined(__cpp_lib_ranges) + +#endif // SIMDJSON_INLINE_ARRAY_H +/* end file include/simdjson/dom/array-inl.h */ +/* begin file include/simdjson/dom/document_stream-inl.h */ +#ifndef SIMDJSON_INLINE_DOCUMENT_STREAM_H +#define SIMDJSON_INLINE_DOCUMENT_STREAM_H + +#include +#include +#include +namespace simdjson { +namespace dom { + +#ifdef SIMDJSON_THREADS_ENABLED +inline void stage1_worker::finish() { + // After calling "run" someone would call finish() to wait + // for the end of the processing. + // This function will wait until either the thread has done + // the processing or, else, the destructor has been called. + std::unique_lock lock(locking_mutex); + cond_var.wait(lock, [this]{return has_work == false;}); +} + +inline stage1_worker::~stage1_worker() { + // The thread may never outlive the stage1_worker instance + // and will always be stopped/joined before the stage1_worker + // instance is gone. + stop_thread(); +} + +inline void stage1_worker::start_thread() { + std::unique_lock lock(locking_mutex); + if(thread.joinable()) { + return; // This should never happen but we never want to create more than one thread. + } + thread = std::thread([this]{ + while(true) { + std::unique_lock thread_lock(locking_mutex); + // We wait for either "run" or "stop_thread" to be called. + cond_var.wait(thread_lock, [this]{return has_work || !can_work;}); + // If, for some reason, the stop_thread() method was called (i.e., the + // destructor of stage1_worker is called, then we want to immediately destroy + // the thread (and not do any more processing). + if(!can_work) { + break; + } + this->owner->stage1_thread_error = this->owner->run_stage1(*this->stage1_thread_parser, + this->_next_batch_start); + this->has_work = false; + // The condition variable call should be moved after thread_lock.unlock() for performance + // reasons but thread sanitizers may report it as a data race if we do. + // See https://stackoverflow.com/questions/35775501/c-should-condition-variable-be-notified-under-lock + cond_var.notify_one(); // will notify "finish" + thread_lock.unlock(); + } + } + ); +} + + +inline void stage1_worker::stop_thread() { + std::unique_lock lock(locking_mutex); + // We have to make sure that all locks can be released. + can_work = false; + has_work = false; + cond_var.notify_all(); + lock.unlock(); + if(thread.joinable()) { + thread.join(); + } +} + +inline void stage1_worker::run(document_stream * ds, dom::parser * stage1, size_t next_batch_start) { + std::unique_lock lock(locking_mutex); + owner = ds; + _next_batch_start = next_batch_start; + stage1_thread_parser = stage1; + has_work = true; + // The condition variable call should be moved after thread_lock.unlock() for performance + // reasons but thread sanitizers may report it as a data race if we do. + // See https://stackoverflow.com/questions/35775501/c-should-condition-variable-be-notified-under-lock + cond_var.notify_one(); // will notify the thread lock that we have work + lock.unlock(); +} +#endif + +simdjson_really_inline document_stream::document_stream( + dom::parser &_parser, + const uint8_t *_buf, + size_t _len, + size_t _batch_size +) noexcept + : parser{&_parser}, + buf{_buf}, + len{_len}, + batch_size{_batch_size <= MINIMAL_BATCH_SIZE ? MINIMAL_BATCH_SIZE : _batch_size}, + error{SUCCESS} +#ifdef SIMDJSON_THREADS_ENABLED + , use_thread(_parser.threaded) // we need to make a copy because _parser.threaded can change +#endif +{ +#ifdef SIMDJSON_THREADS_ENABLED + if(worker.get() == nullptr) { + error = MEMALLOC; + } +#endif +} + +simdjson_really_inline document_stream::document_stream() noexcept + : parser{nullptr}, + buf{nullptr}, + len{0}, + batch_size{0}, + error{UNINITIALIZED} +#ifdef SIMDJSON_THREADS_ENABLED + , use_thread(false) +#endif +{ +} + +simdjson_really_inline document_stream::~document_stream() noexcept { +#ifdef SIMDJSON_THREADS_ENABLED + worker.reset(); +#endif +} + +simdjson_really_inline document_stream::iterator document_stream::begin() noexcept { + start(); + // If there are no documents, we're finished. + return iterator(*this, error == EMPTY); +} + +simdjson_really_inline document_stream::iterator document_stream::end() noexcept { + return iterator(*this, true); +} + +simdjson_really_inline document_stream::iterator::iterator(document_stream& _stream, bool is_end) noexcept + : stream{_stream}, finished{is_end} { +} + +simdjson_really_inline simdjson_result document_stream::iterator::operator*() noexcept { + // Note that in case of error, we do not yet mark + // the iterator as "finished": this detection is done + // in the operator++ function since it is possible + // to call operator++ repeatedly while omitting + // calls to operator*. + if (stream.error) { return stream.error; } + return stream.parser->doc.root(); +} + +simdjson_really_inline document_stream::iterator& document_stream::iterator::operator++() noexcept { + // If there is an error, then we want the iterator + // to be finished, no matter what. (E.g., we do not + // keep generating documents with errors, or go beyond + // a document with errors.) + // + // Users do not have to call "operator*()" when they use operator++, + // so we need to end the stream in the operator++ function. + // + // Note that setting finished = true is essential otherwise + // we would enter an infinite loop. + if (stream.error) { finished = true; } + // Note that stream.error() is guarded against error conditions + // (it will immediately return if stream.error casts to false). + // In effect, this next function does nothing when (stream.error) + // is true (hence the risk of an infinite loop). + stream.next(); + // If that was the last document, we're finished. + // It is the only type of error we do not want to appear + // in operator*. + if (stream.error == EMPTY) { finished = true; } + // If we had any other kind of error (not EMPTY) then we want + // to pass it along to the operator* and we cannot mark the result + // as "finished" just yet. + return *this; +} + +simdjson_really_inline bool document_stream::iterator::operator!=(const document_stream::iterator &other) const noexcept { + return finished != other.finished; +} + +inline void document_stream::start() noexcept { + if (error) { return; } + error = parser->ensure_capacity(batch_size); + if (error) { return; } + + // Always run the first stage 1 parse immediately + batch_start = 0; + error = run_stage1(*parser, batch_start); + if(error == EMPTY) { + // In exceptional cases, we may start with an empty block + batch_start = next_batch_start(); + if (batch_start >= len) { return; } + error = run_stage1(*parser, batch_start); + } + if (error) { return; } +#ifdef SIMDJSON_THREADS_ENABLED + if (use_thread && next_batch_start() < len) { + // Kick off the first thread if needed + error = stage1_thread_parser.ensure_capacity(batch_size); + if (error) { return; } + worker->start_thread(); + start_stage1_thread(); + if (error) { return; } + } +#endif // SIMDJSON_THREADS_ENABLED + + next(); +} + +simdjson_really_inline size_t document_stream::iterator::current_index() const noexcept { + return stream.doc_index; +} + +simdjson_really_inline std::string_view document_stream::iterator::source() const noexcept { + size_t next_doc_index = stream.batch_start + stream.parser->implementation->structural_indexes[stream.parser->implementation->next_structural_index]; + return std::string_view(reinterpret_cast(stream.buf) + current_index(), next_doc_index - current_index() - 1); +} + + +inline void document_stream::next() noexcept { + // We always enter at once once in an error condition. + if (error) { return; } + + // Load the next document from the batch + doc_index = batch_start + parser->implementation->structural_indexes[parser->implementation->next_structural_index]; + error = parser->implementation->stage2_next(parser->doc); + // If that was the last document in the batch, load another batch (if available) + while (error == EMPTY) { + batch_start = next_batch_start(); + if (batch_start >= len) { break; } + +#ifdef SIMDJSON_THREADS_ENABLED + if(use_thread) { + load_from_stage1_thread(); + } else { + error = run_stage1(*parser, batch_start); + } +#else + error = run_stage1(*parser, batch_start); +#endif + if (error) { continue; } // If the error was EMPTY, we may want to load another batch. + // Run stage 2 on the first document in the batch + doc_index = batch_start + parser->implementation->structural_indexes[parser->implementation->next_structural_index]; + error = parser->implementation->stage2_next(parser->doc); + } +} + +inline size_t document_stream::next_batch_start() const noexcept { + return batch_start + parser->implementation->structural_indexes[parser->implementation->n_structural_indexes]; +} + +inline error_code document_stream::run_stage1(dom::parser &p, size_t _batch_start) noexcept { + // If this is the final batch, pass partial = false + size_t remaining = len - _batch_start; + if (remaining <= batch_size) { + return p.implementation->stage1(&buf[_batch_start], remaining, false); + } else { + return p.implementation->stage1(&buf[_batch_start], batch_size, true); + } +} + +#ifdef SIMDJSON_THREADS_ENABLED + +inline void document_stream::load_from_stage1_thread() noexcept { + worker->finish(); + // Swap to the parser that was loaded up in the thread. Make sure the parser has + // enough memory to swap to, as well. + std::swap(*parser, stage1_thread_parser); + error = stage1_thread_error; + if (error) { return; } + + // If there's anything left, start the stage 1 thread! + if (next_batch_start() < len) { + start_stage1_thread(); + } +} + +inline void document_stream::start_stage1_thread() noexcept { + // we call the thread on a lambda that will update + // this->stage1_thread_error + // there is only one thread that may write to this value + // TODO this is NOT exception-safe. + this->stage1_thread_error = UNINITIALIZED; // In case something goes wrong, make sure it's an error + size_t _next_batch_start = this->next_batch_start(); + + worker->run(this, & this->stage1_thread_parser, _next_batch_start); +} + +#endif // SIMDJSON_THREADS_ENABLED + +} // namespace dom + +simdjson_really_inline simdjson_result::simdjson_result() noexcept + : simdjson_result_base() { +} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : simdjson_result_base(error) { +} +simdjson_really_inline simdjson_result::simdjson_result(dom::document_stream &&value) noexcept + : simdjson_result_base(std::forward(value)) { +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline dom::document_stream::iterator simdjson_result::begin() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first.begin(); +} +simdjson_really_inline dom::document_stream::iterator simdjson_result::end() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first.end(); +} +#else // SIMDJSON_EXCEPTIONS +#ifndef SIMDJSON_DISABLE_DEPRECATED_API +simdjson_really_inline dom::document_stream::iterator simdjson_result::begin() noexcept { + first.error = error(); + return first.begin(); +} +simdjson_really_inline dom::document_stream::iterator simdjson_result::end() noexcept { + first.error = error(); + return first.end(); +} +#endif // SIMDJSON_DISABLE_DEPRECATED_API +#endif // SIMDJSON_EXCEPTIONS + +} // namespace simdjson +#endif // SIMDJSON_INLINE_DOCUMENT_STREAM_H +/* end file include/simdjson/dom/document_stream-inl.h */ +/* begin file include/simdjson/dom/document-inl.h */ +#ifndef SIMDJSON_INLINE_DOCUMENT_H +#define SIMDJSON_INLINE_DOCUMENT_H + +// Inline implementations go in here. + +#include +#include + +namespace simdjson { +namespace dom { + +// +// document inline implementation +// +inline element document::root() const noexcept { + return element(internal::tape_ref(this, 1)); +} + +simdjson_warn_unused +inline error_code document::allocate(size_t capacity) noexcept { + if (capacity == 0) { + string_buf.reset(); + tape.reset(); + return SUCCESS; + } + + // a pathological input like "[[[[..." would generate len tape elements, so + // need a capacity of at least len + 1, but it is also possible to do + // worse with "[7,7,7,7,6,7,7,7,6,7,7,6,[7,7,7,7,6,7,7,7,6,7,7,6,7,7,7,7,7,7,6" + //where len + 1 tape elements are + // generated, see issue https://github.com/lemire/simdjson/issues/345 + size_t tape_capacity = SIMDJSON_ROUNDUP_N(capacity + 3, 64); + // a document with only zero-length strings... could have len/3 string + // and we would need len/3 * 5 bytes on the string buffer + size_t string_capacity = SIMDJSON_ROUNDUP_N(5 * capacity / 3 + SIMDJSON_PADDING, 64); + string_buf.reset( new (std::nothrow) uint8_t[string_capacity]); + tape.reset(new (std::nothrow) uint64_t[tape_capacity]); + return string_buf && tape ? SUCCESS : MEMALLOC; +} + +inline bool document::dump_raw_tape(std::ostream &os) const noexcept { + uint32_t string_length; + size_t tape_idx = 0; + uint64_t tape_val = tape[tape_idx]; + uint8_t type = uint8_t(tape_val >> 56); + os << tape_idx << " : " << type; + tape_idx++; + size_t how_many = 0; + if (type == 'r') { + how_many = size_t(tape_val & internal::JSON_VALUE_MASK); + } else { + // Error: no starting root node? + return false; + } + os << "\t// pointing to " << how_many << " (right after last node)\n"; + uint64_t payload; + for (; tape_idx < how_many; tape_idx++) { + os << tape_idx << " : "; + tape_val = tape[tape_idx]; + payload = tape_val & internal::JSON_VALUE_MASK; + type = uint8_t(tape_val >> 56); + switch (type) { + case '"': // we have a string + os << "string \""; + std::memcpy(&string_length, string_buf.get() + payload, sizeof(uint32_t)); + os << internal::escape_json_string(std::string_view( + (const char *)(string_buf.get() + payload + sizeof(uint32_t)), + string_length + )); + os << '"'; + os << '\n'; + break; + case 'l': // we have a long int + if (tape_idx + 1 >= how_many) { + return false; + } + os << "integer " << static_cast(tape[++tape_idx]) << "\n"; + break; + case 'u': // we have a long uint + if (tape_idx + 1 >= how_many) { + return false; + } + os << "unsigned integer " << tape[++tape_idx] << "\n"; + break; + case 'd': // we have a double + os << "float "; + if (tape_idx + 1 >= how_many) { + return false; + } + double answer; + std::memcpy(&answer, &tape[++tape_idx], sizeof(answer)); + os << answer << '\n'; + break; + case 'n': // we have a null + os << "null\n"; + break; + case 't': // we have a true + os << "true\n"; + break; + case 'f': // we have a false + os << "false\n"; + break; + case '{': // we have an object + os << "{\t// pointing to next tape location " << payload + << " (first node after the scope) \n"; + break; + case '}': // we end an object + os << "}\t// pointing to previous tape location " << payload + << " (start of the scope) \n"; + break; + case '[': // we start an array + os << "[\t// pointing to next tape location " << payload + << " (first node after the scope) \n"; + break; + case ']': // we end an array + os << "]\t// pointing to previous tape location " << payload + << " (start of the scope) \n"; + break; + case 'r': // we start and end with the root node + // should we be hitting the root node? + return false; + default: + return false; + } + } + tape_val = tape[tape_idx]; + payload = tape_val & internal::JSON_VALUE_MASK; + type = uint8_t(tape_val >> 56); + os << tape_idx << " : " << type << "\t// pointing to " << payload + << " (start root)\n"; + return true; +} + +} // namespace dom +} // namespace simdjson + +#endif // SIMDJSON_INLINE_DOCUMENT_H +/* end file include/simdjson/dom/document-inl.h */ +/* begin file include/simdjson/error-inl.h */ +#ifndef SIMDJSON_INLINE_ERROR_H +#define SIMDJSON_INLINE_ERROR_H + +#include +#include +#include + +namespace simdjson { +namespace internal { + // We store the error code so we can validate the error message is associated with the right code + struct error_code_info { + error_code code; + const char* message; // do not use a fancy std::string where a simple C string will do (no alloc, no destructor) + }; + // These MUST match the codes in error_code. We check this constraint in basictests. + extern SIMDJSON_DLLIMPORTEXPORT const error_code_info error_codes[]; +} // namespace internal + + +inline const char *error_message(error_code error) noexcept { + // If you're using error_code, we're trusting you got it from the enum. + return internal::error_codes[int(error)].message; +} + +// deprecated function +#ifndef SIMDJSON_DISABLE_DEPRECATED_API +inline const std::string error_message(int error) noexcept { + if (error < 0 || error >= error_code::NUM_ERROR_CODES) { + return internal::error_codes[UNEXPECTED_ERROR].message; + } + return internal::error_codes[error].message; +} +#endif // SIMDJSON_DISABLE_DEPRECATED_API + +inline std::ostream& operator<<(std::ostream& out, error_code error) noexcept { + return out << error_message(error); +} + +namespace internal { + +// +// internal::simdjson_result_base inline implementation +// + +template +simdjson_really_inline void simdjson_result_base::tie(T &value, error_code &error) && noexcept { + // on the clang compiler that comes with current macOS (Apple clang version 11.0.0), + // tie(width, error) = size["w"].get(); + // fails with "error: no viable overloaded '='"" + error = this->second; + if (!error) { + value = std::forward>(*this).first; + } +} + +template +simdjson_warn_unused simdjson_really_inline error_code simdjson_result_base::get(T &value) && noexcept { + error_code error; + std::forward>(*this).tie(value, error); + return error; +} + +template +simdjson_really_inline error_code simdjson_result_base::error() const noexcept { + return this->second; +} + +#if SIMDJSON_EXCEPTIONS + +template +simdjson_really_inline T& simdjson_result_base::value() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return this->first; +} + +template +simdjson_really_inline T&& simdjson_result_base::value() && noexcept(false) { + return std::forward>(*this).take_value(); +} + +template +simdjson_really_inline T&& simdjson_result_base::take_value() && noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return std::forward(this->first); +} + +template +simdjson_really_inline simdjson_result_base::operator T&&() && noexcept(false) { + return std::forward>(*this).take_value(); +} + +#endif // SIMDJSON_EXCEPTIONS + +template +simdjson_really_inline const T& simdjson_result_base::value_unsafe() const& noexcept { + return this->first; +} + +template +simdjson_really_inline T&& simdjson_result_base::value_unsafe() && noexcept { + return std::forward(this->first);; +} + +template +simdjson_really_inline simdjson_result_base::simdjson_result_base(T &&value, error_code error) noexcept + : std::pair(std::forward(value), error) {} +template +simdjson_really_inline simdjson_result_base::simdjson_result_base(error_code error) noexcept + : simdjson_result_base(T{}, error) {} +template +simdjson_really_inline simdjson_result_base::simdjson_result_base(T &&value) noexcept + : simdjson_result_base(std::forward(value), SUCCESS) {} +template +simdjson_really_inline simdjson_result_base::simdjson_result_base() noexcept + : simdjson_result_base(T{}, UNINITIALIZED) {} + +} // namespace internal + +/// +/// simdjson_result inline implementation +/// + +template +simdjson_really_inline void simdjson_result::tie(T &value, error_code &error) && noexcept { + std::forward>(*this).tie(value, error); +} + +template +simdjson_warn_unused simdjson_really_inline error_code simdjson_result::get(T &value) && noexcept { + return std::forward>(*this).get(value); +} + +template +simdjson_really_inline error_code simdjson_result::error() const noexcept { + return internal::simdjson_result_base::error(); +} + +#if SIMDJSON_EXCEPTIONS + +template +simdjson_really_inline T& simdjson_result::value() & noexcept(false) { + return internal::simdjson_result_base::value(); +} + +template +simdjson_really_inline T&& simdjson_result::value() && noexcept(false) { + return std::forward>(*this).value(); +} + +template +simdjson_really_inline T&& simdjson_result::take_value() && noexcept(false) { + return std::forward>(*this).take_value(); +} + +template +simdjson_really_inline simdjson_result::operator T&&() && noexcept(false) { + return std::forward>(*this).take_value(); +} + +#endif // SIMDJSON_EXCEPTIONS + +template +simdjson_really_inline const T& simdjson_result::value_unsafe() const& noexcept { + return internal::simdjson_result_base::value_unsafe(); +} + +template +simdjson_really_inline T&& simdjson_result::value_unsafe() && noexcept { + return std::forward>(*this).value_unsafe(); +} + +template +simdjson_really_inline simdjson_result::simdjson_result(T &&value, error_code error) noexcept + : internal::simdjson_result_base(std::forward(value), error) {} +template +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : internal::simdjson_result_base(error) {} +template +simdjson_really_inline simdjson_result::simdjson_result(T &&value) noexcept + : internal::simdjson_result_base(std::forward(value)) {} +template +simdjson_really_inline simdjson_result::simdjson_result() noexcept + : internal::simdjson_result_base() {} + +} // namespace simdjson + +#endif // SIMDJSON_INLINE_ERROR_H +/* end file include/simdjson/error-inl.h */ +/* begin file include/simdjson/dom/object-inl.h */ +#ifndef SIMDJSON_INLINE_OBJECT_H +#define SIMDJSON_INLINE_OBJECT_H + +#include +#include + +namespace simdjson { + +// +// simdjson_result inline implementation +// +simdjson_really_inline simdjson_result::simdjson_result() noexcept + : internal::simdjson_result_base() {} +simdjson_really_inline simdjson_result::simdjson_result(dom::object value) noexcept + : internal::simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : internal::simdjson_result_base(error) {} + +inline simdjson_result simdjson_result::operator[](std::string_view key) const noexcept { + if (error()) { return error(); } + return first[key]; +} +inline simdjson_result simdjson_result::operator[](const char *key) const noexcept { + if (error()) { return error(); } + return first[key]; +} +inline simdjson_result simdjson_result::at_pointer(std::string_view json_pointer) const noexcept { + if (error()) { return error(); } + return first.at_pointer(json_pointer); +} +inline simdjson_result simdjson_result::at_key(std::string_view key) const noexcept { + if (error()) { return error(); } + return first.at_key(key); +} +inline simdjson_result simdjson_result::at_key_case_insensitive(std::string_view key) const noexcept { + if (error()) { return error(); } + return first.at_key_case_insensitive(key); +} + +#if SIMDJSON_EXCEPTIONS + +inline dom::object::iterator simdjson_result::begin() const noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first.begin(); +} +inline dom::object::iterator simdjson_result::end() const noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first.end(); +} +inline size_t simdjson_result::size() const noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first.size(); +} + +#endif // SIMDJSON_EXCEPTIONS + +namespace dom { + +// +// object inline implementation +// +simdjson_really_inline object::object() noexcept : tape{} {} +simdjson_really_inline object::object(const internal::tape_ref &_tape) noexcept : tape{_tape} { } +inline object::iterator object::begin() const noexcept { + return internal::tape_ref(tape.doc, tape.json_index + 1); +} +inline object::iterator object::end() const noexcept { + return internal::tape_ref(tape.doc, tape.after_element() - 1); +} +inline size_t object::size() const noexcept { + return tape.scope_count(); +} + +inline simdjson_result object::operator[](std::string_view key) const noexcept { + return at_key(key); +} +inline simdjson_result object::operator[](const char *key) const noexcept { + return at_key(key); +} +inline simdjson_result object::at_pointer(std::string_view json_pointer) const noexcept { + if(json_pointer.empty()) { // an empty string means that we return the current node + return element(this->tape); // copy the current node + } else if(json_pointer[0] != '/') { // otherwise there is an error + return INVALID_JSON_POINTER; + } + json_pointer = json_pointer.substr(1); + size_t slash = json_pointer.find('/'); + std::string_view key = json_pointer.substr(0, slash); + // Grab the child with the given key + simdjson_result child; + + // If there is an escape character in the key, unescape it and then get the child. + size_t escape = key.find('~'); + if (escape != std::string_view::npos) { + // Unescape the key + std::string unescaped(key); + do { + switch (unescaped[escape+1]) { + case '0': + unescaped.replace(escape, 2, "~"); + break; + case '1': + unescaped.replace(escape, 2, "/"); + break; + default: + return INVALID_JSON_POINTER; // "Unexpected ~ escape character in JSON pointer"); + } + escape = unescaped.find('~', escape+1); + } while (escape != std::string::npos); + child = at_key(unescaped); + } else { + child = at_key(key); + } + if(child.error()) { + return child; // we do not continue if there was an error + } + // If there is a /, we have to recurse and look up more of the path + if (slash != std::string_view::npos) { + child = child.at_pointer(json_pointer.substr(slash)); + } + return child; +} + +inline simdjson_result object::at_key(std::string_view key) const noexcept { + iterator end_field = end(); + for (iterator field = begin(); field != end_field; ++field) { + if (field.key_equals(key)) { + return field.value(); + } + } + return NO_SUCH_FIELD; +} +// In case you wonder why we need this, please see +// https://github.com/simdjson/simdjson/issues/323 +// People do seek keys in a case-insensitive manner. +inline simdjson_result object::at_key_case_insensitive(std::string_view key) const noexcept { + iterator end_field = end(); + for (iterator field = begin(); field != end_field; ++field) { + if (field.key_equals_case_insensitive(key)) { + return field.value(); + } + } + return NO_SUCH_FIELD; +} + +// +// object::iterator inline implementation +// +simdjson_really_inline object::iterator::iterator(const internal::tape_ref &_tape) noexcept : tape{_tape} { } +inline const key_value_pair object::iterator::operator*() const noexcept { + return key_value_pair(key(), value()); +} +inline bool object::iterator::operator!=(const object::iterator& other) const noexcept { + return tape.json_index != other.tape.json_index; +} +inline bool object::iterator::operator==(const object::iterator& other) const noexcept { + return tape.json_index == other.tape.json_index; +} +inline bool object::iterator::operator<(const object::iterator& other) const noexcept { + return tape.json_index < other.tape.json_index; +} +inline bool object::iterator::operator<=(const object::iterator& other) const noexcept { + return tape.json_index <= other.tape.json_index; +} +inline bool object::iterator::operator>=(const object::iterator& other) const noexcept { + return tape.json_index >= other.tape.json_index; +} +inline bool object::iterator::operator>(const object::iterator& other) const noexcept { + return tape.json_index > other.tape.json_index; +} +inline object::iterator& object::iterator::operator++() noexcept { + tape.json_index++; + tape.json_index = tape.after_element(); + return *this; +} +inline object::iterator object::iterator::operator++(int) noexcept { + object::iterator out = *this; + ++*this; + return out; +} +inline std::string_view object::iterator::key() const noexcept { + return tape.get_string_view(); +} +inline uint32_t object::iterator::key_length() const noexcept { + return tape.get_string_length(); +} +inline const char* object::iterator::key_c_str() const noexcept { + return reinterpret_cast(&tape.doc->string_buf[size_t(tape.tape_value()) + sizeof(uint32_t)]); +} +inline element object::iterator::value() const noexcept { + return element(internal::tape_ref(tape.doc, tape.json_index + 1)); +} + +/** + * Design notes: + * Instead of constructing a string_view and then comparing it with a + * user-provided strings, it is probably more performant to have dedicated + * functions taking as a parameter the string we want to compare against + * and return true when they are equal. That avoids the creation of a temporary + * std::string_view. Though it is possible for the compiler to avoid entirely + * any overhead due to string_view, relying too much on compiler magic is + * problematic: compiler magic sometimes fail, and then what do you do? + * Also, enticing users to rely on high-performance function is probably better + * on the long run. + */ + +inline bool object::iterator::key_equals(std::string_view o) const noexcept { + // We use the fact that the key length can be computed quickly + // without access to the string buffer. + const uint32_t len = key_length(); + if(o.size() == len) { + // We avoid construction of a temporary string_view instance. + return (memcmp(o.data(), key_c_str(), len) == 0); + } + return false; +} + +inline bool object::iterator::key_equals_case_insensitive(std::string_view o) const noexcept { + // We use the fact that the key length can be computed quickly + // without access to the string buffer. + const uint32_t len = key_length(); + if(o.size() == len) { + // See For case-insensitive string comparisons, avoid char-by-char functions + // https://lemire.me/blog/2020/04/30/for-case-insensitive-string-comparisons-avoid-char-by-char-functions/ + // Note that it might be worth rolling our own strncasecmp function, with vectorization. + return (simdjson_strncasecmp(o.data(), key_c_str(), len) == 0); + } + return false; +} +// +// key_value_pair inline implementation +// +inline key_value_pair::key_value_pair(std::string_view _key, element _value) noexcept : + key(_key), value(_value) {} + +} // namespace dom + +} // namespace simdjson + +#if defined(__cpp_lib_ranges) +static_assert(std::ranges::view); +static_assert(std::ranges::sized_range); +#if SIMDJSON_EXCEPTIONS +static_assert(std::ranges::view>); +static_assert(std::ranges::sized_range>); +#endif // SIMDJSON_EXCEPTIONS +#endif // defined(__cpp_lib_ranges) + +#endif // SIMDJSON_INLINE_OBJECT_H +/* end file include/simdjson/dom/object-inl.h */ +/* begin file include/simdjson/padded_string-inl.h */ +#ifndef SIMDJSON_INLINE_PADDED_STRING_H +#define SIMDJSON_INLINE_PADDED_STRING_H + + +#include +#include +#include +#include + +namespace simdjson { +namespace internal { + +// The allocate_padded_buffer function is a low-level function to allocate memory +// with padding so we can read past the "length" bytes safely. It is used by +// the padded_string class automatically. It returns nullptr in case +// of error: the caller should check for a null pointer. +// The length parameter is the maximum size in bytes of the string. +// The caller is responsible to free the memory (e.g., delete[] (...)). +inline char *allocate_padded_buffer(size_t length) noexcept { + const size_t totalpaddedlength = length + SIMDJSON_PADDING; + if(totalpaddedlength(1UL<<20)) { + return nullptr; + } +#endif + + char *padded_buffer = new (std::nothrow) char[totalpaddedlength]; + if (padded_buffer == nullptr) { + return nullptr; + } + // We write zeroes in the padded region to avoid having uninitized + // garbage. If nothing else, garbage getting read might trigger a + // warning in a memory checking. + std::memset(padded_buffer + length, 0, totalpaddedlength - length); + return padded_buffer; +} // allocate_padded_buffer() + +} // namespace internal + + +inline padded_string::padded_string() noexcept {} +inline padded_string::padded_string(size_t length) noexcept + : viable_size(length), data_ptr(internal::allocate_padded_buffer(length)) { +} +inline padded_string::padded_string(const char *data, size_t length) noexcept + : viable_size(length), data_ptr(internal::allocate_padded_buffer(length)) { + if ((data != nullptr) and (data_ptr != nullptr)) { + std::memcpy(data_ptr, data, length); + } +} +// note: do not pass std::string arguments by value +inline padded_string::padded_string(const std::string & str_ ) noexcept + : viable_size(str_.size()), data_ptr(internal::allocate_padded_buffer(str_.size())) { + if (data_ptr != nullptr) { + std::memcpy(data_ptr, str_.data(), str_.size()); + } +} +// note: do pass std::string_view arguments by value +inline padded_string::padded_string(std::string_view sv_) noexcept + : viable_size(sv_.size()), data_ptr(internal::allocate_padded_buffer(sv_.size())) { + if(simdjson_unlikely(!data_ptr)) { + //allocation failed or zero size + viable_size=0; + return; + } + if (sv_.size()) { + std::memcpy(data_ptr, sv_.data(), sv_.size()); + } +} +inline padded_string::padded_string(padded_string &&o) noexcept + : viable_size(o.viable_size), data_ptr(o.data_ptr) { + o.data_ptr = nullptr; // we take ownership +} + +inline padded_string &padded_string::operator=(padded_string &&o) noexcept { + delete[] data_ptr; + data_ptr = o.data_ptr; + viable_size = o.viable_size; + o.data_ptr = nullptr; // we take ownership + o.viable_size = 0; + return *this; +} + +inline void padded_string::swap(padded_string &o) noexcept { + size_t tmp_viable_size = viable_size; + char *tmp_data_ptr = data_ptr; + viable_size = o.viable_size; + data_ptr = o.data_ptr; + o.data_ptr = tmp_data_ptr; + o.viable_size = tmp_viable_size; +} + +inline padded_string::~padded_string() noexcept { + delete[] data_ptr; +} + +inline size_t padded_string::size() const noexcept { return viable_size; } + +inline size_t padded_string::length() const noexcept { return viable_size; } + +inline const char *padded_string::data() const noexcept { return data_ptr; } + +inline char *padded_string::data() noexcept { return data_ptr; } + +inline padded_string::operator std::string_view() const { return std::string_view(data(), length()); } + +inline simdjson_result padded_string::load(const std::string &filename) noexcept { + // Open the file + SIMDJSON_PUSH_DISABLE_WARNINGS + SIMDJSON_DISABLE_DEPRECATED_WARNING // Disable CRT_SECURE warning on MSVC: manually verified this is safe + std::FILE *fp = std::fopen(filename.c_str(), "rb"); + SIMDJSON_POP_DISABLE_WARNINGS + + if (fp == nullptr) { + return IO_ERROR; + } + + // Get the file size + if(std::fseek(fp, 0, SEEK_END) < 0) { + std::fclose(fp); + return IO_ERROR; + } + long llen = std::ftell(fp); + if((llen < 0) || (llen == LONG_MAX)) { + std::fclose(fp); + return IO_ERROR; + } + + // Allocate the padded_string + size_t len = (size_t) llen; + padded_string s(len); + if (s.data() == nullptr) { + std::fclose(fp); + return MEMALLOC; + } + + // Read the padded_string + std::rewind(fp); + size_t bytes_read = std::fread(s.data(), 1, len, fp); + if (std::fclose(fp) != 0 || bytes_read != len) { + return IO_ERROR; + } + + return s; +} + +} // namespace simdjson + +#endif // SIMDJSON_INLINE_PADDED_STRING_H +/* end file include/simdjson/padded_string-inl.h */ +/* begin file include/simdjson/dom/parsedjson_iterator-inl.h */ +#ifndef SIMDJSON_INLINE_PARSEDJSON_ITERATOR_H +#define SIMDJSON_INLINE_PARSEDJSON_ITERATOR_H + +#include + +#ifndef SIMDJSON_DISABLE_DEPRECATED_API + +namespace simdjson { + +// VS2017 reports deprecated warnings when you define a deprecated class's methods. +SIMDJSON_PUSH_DISABLE_WARNINGS +SIMDJSON_DISABLE_DEPRECATED_WARNING + +// Because of template weirdness, the actual class definition is inline in the document class +simdjson_warn_unused bool dom::parser::Iterator::is_ok() const { + return location < tape_length; +} + +// useful for debugging purposes +size_t dom::parser::Iterator::get_tape_location() const { + return location; +} + +// useful for debugging purposes +size_t dom::parser::Iterator::get_tape_length() const { + return tape_length; +} + +// returns the current depth (start at 1 with 0 reserved for the fictitious root +// node) +size_t dom::parser::Iterator::get_depth() const { + return depth; +} + +// A scope is a series of nodes at the same depth, typically it is either an +// object ({) or an array ([). The root node has type 'r'. +uint8_t dom::parser::Iterator::get_scope_type() const { + return depth_index[depth].scope_type; +} + +bool dom::parser::Iterator::move_forward() { + if (location + 1 >= tape_length) { + return false; // we are at the end! + } + + if ((current_type == '[') || (current_type == '{')) { + // We are entering a new scope + depth++; + assert(depth < max_depth); + depth_index[depth].start_of_scope = location; + depth_index[depth].scope_type = current_type; + } else if ((current_type == ']') || (current_type == '}')) { + // Leaving a scope. + depth--; + } else if (is_number()) { + // these types use 2 locations on the tape, not just one. + location += 1; + } + + location += 1; + current_val = doc.tape[location]; + current_type = uint8_t(current_val >> 56); + return true; +} + +void dom::parser::Iterator::move_to_value() { + // assume that we are on a key, so move by 1. + location += 1; + current_val = doc.tape[location]; + current_type = uint8_t(current_val >> 56); +} + +bool dom::parser::Iterator::move_to_key(const char *key) { + if (down()) { + do { + const bool right_key = (strcmp(get_string(), key) == 0); + move_to_value(); + if (right_key) { + return true; + } + } while (next()); + up(); + } + return false; +} + +bool dom::parser::Iterator::move_to_key_insensitive( + const char *key) { + if (down()) { + do { + const bool right_key = (simdjson_strcasecmp(get_string(), key) == 0); + move_to_value(); + if (right_key) { + return true; + } + } while (next()); + up(); + } + return false; +} + +bool dom::parser::Iterator::move_to_key(const char *key, + uint32_t length) { + if (down()) { + do { + bool right_key = ((get_string_length() == length) && + (memcmp(get_string(), key, length) == 0)); + move_to_value(); + if (right_key) { + return true; + } + } while (next()); + up(); + } + return false; +} + +bool dom::parser::Iterator::move_to_index(uint32_t index) { + if (down()) { + uint32_t i = 0; + for (; i < index; i++) { + if (!next()) { + break; + } + } + if (i == index) { + return true; + } + up(); + } + return false; +} + +bool dom::parser::Iterator::prev() { + size_t target_location = location; + to_start_scope(); + size_t npos = location; + if (target_location == npos) { + return false; // we were already at the start + } + size_t oldnpos; + // we have that npos < target_location here + do { + oldnpos = npos; + if ((current_type == '[') || (current_type == '{')) { + // we need to jump + npos = uint32_t(current_val); + } else { + npos = npos + ((current_type == 'd' || current_type == 'l') ? 2 : 1); + } + } while (npos < target_location); + location = oldnpos; + current_val = doc.tape[location]; + current_type = uint8_t(current_val >> 56); + return true; +} + +bool dom::parser::Iterator::up() { + if (depth == 1) { + return false; // don't allow moving back to root + } + to_start_scope(); + // next we just move to the previous value + depth--; + location -= 1; + current_val = doc.tape[location]; + current_type = uint8_t(current_val >> 56); + return true; +} + +bool dom::parser::Iterator::down() { + if (location + 1 >= tape_length) { + return false; + } + if ((current_type == '[') || (current_type == '{')) { + size_t npos = uint32_t(current_val); + if (npos == location + 2) { + return false; // we have an empty scope + } + depth++; + assert(depth < max_depth); + location = location + 1; + depth_index[depth].start_of_scope = location; + depth_index[depth].scope_type = current_type; + current_val = doc.tape[location]; + current_type = uint8_t(current_val >> 56); + return true; + } + return false; +} + +void dom::parser::Iterator::to_start_scope() { + location = depth_index[depth].start_of_scope; + current_val = doc.tape[location]; + current_type = uint8_t(current_val >> 56); +} + +bool dom::parser::Iterator::next() { + size_t npos; + if ((current_type == '[') || (current_type == '{')) { + // we need to jump + npos = uint32_t(current_val); + } else { + npos = location + (is_number() ? 2 : 1); + } + uint64_t next_val = doc.tape[npos]; + uint8_t next_type = uint8_t(next_val >> 56); + if ((next_type == ']') || (next_type == '}')) { + return false; // we reached the end of the scope + } + location = npos; + current_val = next_val; + current_type = next_type; + return true; +} +dom::parser::Iterator::Iterator(const dom::parser &pj) noexcept(false) + : doc(pj.doc) +{ +#if SIMDJSON_EXCEPTIONS + if (!pj.valid) { throw simdjson_error(pj.error); } +#else + if (!pj.valid) { return; } // abort() usage is forbidden in the library +#endif + + max_depth = pj.max_depth(); + depth_index = new scopeindex_t[max_depth + 1]; + depth_index[0].start_of_scope = location; + current_val = doc.tape[location++]; + current_type = uint8_t(current_val >> 56); + depth_index[0].scope_type = current_type; + tape_length = size_t(current_val & internal::JSON_VALUE_MASK); + if (location < tape_length) { + // If we make it here, then depth_capacity must >=2, but the compiler + // may not know this. + current_val = doc.tape[location]; + current_type = uint8_t(current_val >> 56); + depth++; + assert(depth < max_depth); + depth_index[depth].start_of_scope = location; + depth_index[depth].scope_type = current_type; + } +} +dom::parser::Iterator::Iterator( + const dom::parser::Iterator &o) noexcept + : doc(o.doc), + max_depth(o.depth), + depth(o.depth), + location(o.location), + tape_length(o.tape_length), + current_type(o.current_type), + current_val(o.current_val) +{ + depth_index = new scopeindex_t[max_depth+1]; + std::memcpy(depth_index, o.depth_index, (depth + 1) * sizeof(depth_index[0])); +} + +dom::parser::Iterator::~Iterator() noexcept { + if (depth_index) { delete[] depth_index; } +} + +bool dom::parser::Iterator::print(std::ostream &os, bool escape_strings) const { + if (!is_ok()) { + return false; + } + switch (current_type) { + case '"': // we have a string + os << '"'; + if (escape_strings) { + os << internal::escape_json_string(std::string_view(get_string(), get_string_length())); + } else { + // was: os << get_string();, but given that we can include null chars, we + // have to do something crazier: + std::copy(get_string(), get_string() + get_string_length(), std::ostream_iterator(os)); + } + os << '"'; + break; + case 'l': // we have a long int + os << get_integer(); + break; + case 'u': + os << get_unsigned_integer(); + break; + case 'd': + os << get_double(); + break; + case 'n': // we have a null + os << "null"; + break; + case 't': // we have a true + os << "true"; + break; + case 'f': // we have a false + os << "false"; + break; + case '{': // we have an object + case '}': // we end an object + case '[': // we start an array + case ']': // we end an array + os << char(current_type); + break; + default: + return false; + } + return true; +} + +bool dom::parser::Iterator::move_to(const char *pointer, + uint32_t length) { + char *new_pointer = nullptr; + if (pointer[0] == '#') { + // Converting fragment representation to string representation + new_pointer = new char[length]; + uint32_t new_length = 0; + for (uint32_t i = 1; i < length; i++) { + if (pointer[i] == '%' && pointer[i + 1] == 'x') { +#if __cpp_exceptions + try { +#endif + int fragment = + std::stoi(std::string(&pointer[i + 2], 2), nullptr, 16); + if (fragment == '\\' || fragment == '"' || (fragment <= 0x1F)) { + // escaping the character + new_pointer[new_length] = '\\'; + new_length++; + } + new_pointer[new_length] = char(fragment); + i += 3; +#if __cpp_exceptions + } catch (std::invalid_argument &) { + delete[] new_pointer; + return false; // the fragment is invalid + } +#endif + } else { + new_pointer[new_length] = pointer[i]; + } + new_length++; + } + length = new_length; + pointer = new_pointer; + } + + // saving the current state + size_t depth_s = depth; + size_t location_s = location; + uint8_t current_type_s = current_type; + uint64_t current_val_s = current_val; + + rewind(); // The json pointer is used from the root of the document. + + bool found = relative_move_to(pointer, length); + delete[] new_pointer; + + if (!found) { + // since the pointer has found nothing, we get back to the original + // position. + depth = depth_s; + location = location_s; + current_type = current_type_s; + current_val = current_val_s; + } + + return found; +} + +bool dom::parser::Iterator::relative_move_to(const char *pointer, + uint32_t length) { + if (length == 0) { + // returns the whole document + return true; + } + + if (pointer[0] != '/') { + // '/' must be the first character + return false; + } + + // finding the key in an object or the index in an array + std::string key_or_index; + uint32_t offset = 1; + + // checking for the "-" case + if (is_array() && pointer[1] == '-') { + if (length != 2) { + // the pointer must be exactly "/-" + // there can't be anything more after '-' as an index + return false; + } + key_or_index = '-'; + offset = length; // will skip the loop coming right after + } + + // We either transform the first reference token to a valid json key + // or we make sure it is a valid index in an array. + for (; offset < length; offset++) { + if (pointer[offset] == '/') { + // beginning of the next key or index + break; + } + if (is_array() && (pointer[offset] < '0' || pointer[offset] > '9')) { + // the index of an array must be an integer + // we also make sure std::stoi won't discard whitespaces later + return false; + } + if (pointer[offset] == '~') { + // "~1" represents "/" + if (pointer[offset + 1] == '1') { + key_or_index += '/'; + offset++; + continue; + } + // "~0" represents "~" + if (pointer[offset + 1] == '0') { + key_or_index += '~'; + offset++; + continue; + } + } + if (pointer[offset] == '\\') { + if (pointer[offset + 1] == '\\' || pointer[offset + 1] == '"' || + (pointer[offset + 1] <= 0x1F)) { + key_or_index += pointer[offset + 1]; + offset++; + continue; + } + return false; // invalid escaped character + } + if (pointer[offset] == '\"') { + // unescaped quote character. this is an invalid case. + // lets do nothing and assume most pointers will be valid. + // it won't find any corresponding json key anyway. + // return false; + } + key_or_index += pointer[offset]; + } + + bool found = false; + if (is_object()) { + if (move_to_key(key_or_index.c_str(), uint32_t(key_or_index.length()))) { + found = relative_move_to(pointer + offset, length - offset); + } + } else if (is_array()) { + if (key_or_index == "-") { // handling "-" case first + if (down()) { + while (next()) + ; // moving to the end of the array + // moving to the nonexistent value right after... + size_t npos; + if ((current_type == '[') || (current_type == '{')) { + // we need to jump + npos = uint32_t(current_val); + } else { + npos = + location + ((current_type == 'd' || current_type == 'l') ? 2 : 1); + } + location = npos; + current_val = doc.tape[npos]; + current_type = uint8_t(current_val >> 56); + return true; // how could it fail ? + } + } else { // regular numeric index + // The index can't have a leading '0' + if (key_or_index[0] == '0' && key_or_index.length() > 1) { + return false; + } + // it cannot be empty + if (key_or_index.length() == 0) { + return false; + } + // we already checked the index contains only valid digits + uint32_t index = std::stoi(key_or_index); + if (move_to_index(index)) { + found = relative_move_to(pointer + offset, length - offset); + } + } + } + + return found; +} + +SIMDJSON_POP_DISABLE_WARNINGS +} // namespace simdjson + +#endif // SIMDJSON_DISABLE_DEPRECATED_API + + +#endif // SIMDJSON_INLINE_PARSEDJSON_ITERATOR_H +/* end file include/simdjson/dom/parsedjson_iterator-inl.h */ +/* begin file include/simdjson/dom/parser-inl.h */ +#ifndef SIMDJSON_INLINE_PARSER_H +#define SIMDJSON_INLINE_PARSER_H + +#include +#include + +namespace simdjson { +namespace dom { + +// +// parser inline implementation +// +simdjson_really_inline parser::parser(size_t max_capacity) noexcept + : _max_capacity{max_capacity}, + loaded_bytes(nullptr) { +} +simdjson_really_inline parser::parser(parser &&other) noexcept = default; +simdjson_really_inline parser &parser::operator=(parser &&other) noexcept = default; + +inline bool parser::is_valid() const noexcept { return valid; } +inline int parser::get_error_code() const noexcept { return error; } +inline std::string parser::get_error_message() const noexcept { return error_message(error); } + +inline bool parser::dump_raw_tape(std::ostream &os) const noexcept { + return valid ? doc.dump_raw_tape(os) : false; +} + +inline simdjson_result parser::read_file(const std::string &path) noexcept { + // Open the file + SIMDJSON_PUSH_DISABLE_WARNINGS + SIMDJSON_DISABLE_DEPRECATED_WARNING // Disable CRT_SECURE warning on MSVC: manually verified this is safe + std::FILE *fp = std::fopen(path.c_str(), "rb"); + SIMDJSON_POP_DISABLE_WARNINGS + + if (fp == nullptr) { + return IO_ERROR; + } + + // Get the file size + if(std::fseek(fp, 0, SEEK_END) < 0) { + std::fclose(fp); + return IO_ERROR; + } + long len = std::ftell(fp); + if((len < 0) || (len == LONG_MAX)) { + std::fclose(fp); + return IO_ERROR; + } + + // Make sure we have enough capacity to load the file + if (_loaded_bytes_capacity < size_t(len)) { + loaded_bytes.reset( internal::allocate_padded_buffer(len) ); + if (!loaded_bytes) { + std::fclose(fp); + return MEMALLOC; + } + _loaded_bytes_capacity = len; + } + + // Read the string + std::rewind(fp); + size_t bytes_read = std::fread(loaded_bytes.get(), 1, len, fp); + if (std::fclose(fp) != 0 || bytes_read != size_t(len)) { + return IO_ERROR; + } + + return bytes_read; +} + +inline simdjson_result parser::load(const std::string &path) & noexcept { + size_t len; + auto _error = read_file(path).get(len); + if (_error) { return _error; } + return parse(loaded_bytes.get(), len, false); +} + +inline simdjson_result parser::load_many(const std::string &path, size_t batch_size) noexcept { + size_t len; + auto _error = read_file(path).get(len); + if (_error) { return _error; } + if(batch_size < MINIMAL_BATCH_SIZE) { batch_size = MINIMAL_BATCH_SIZE; } + return document_stream(*this, (const uint8_t*)loaded_bytes.get(), len, batch_size); +} + +inline simdjson_result parser::parse(const uint8_t *buf, size_t len, bool realloc_if_needed) & noexcept { + error_code _error = ensure_capacity(len); + if (_error) { return _error; } + std::unique_ptr tmp_buf; + + if (realloc_if_needed) { + tmp_buf.reset((uint8_t *)internal::allocate_padded_buffer(len)); + if (tmp_buf.get() == nullptr) { return MEMALLOC; } + std::memcpy((void *)tmp_buf.get(), buf, len); + } + _error = implementation->parse(realloc_if_needed ? tmp_buf.get() : buf, len, doc); + if (_error) { return _error; } + + return doc.root(); +} +simdjson_really_inline simdjson_result parser::parse(const char *buf, size_t len, bool realloc_if_needed) & noexcept { + return parse((const uint8_t *)buf, len, realloc_if_needed); +} +simdjson_really_inline simdjson_result parser::parse(const std::string &s) & noexcept { + return parse(s.data(), s.length(), s.capacity() - s.length() < SIMDJSON_PADDING); +} +simdjson_really_inline simdjson_result parser::parse(const padded_string &s) & noexcept { + return parse(s.data(), s.length(), false); +} + +inline simdjson_result parser::parse_many(const uint8_t *buf, size_t len, size_t batch_size) noexcept { + if(batch_size < MINIMAL_BATCH_SIZE) { batch_size = MINIMAL_BATCH_SIZE; } + return document_stream(*this, buf, len, batch_size); +} +inline simdjson_result parser::parse_many(const char *buf, size_t len, size_t batch_size) noexcept { + return parse_many((const uint8_t *)buf, len, batch_size); +} +inline simdjson_result parser::parse_many(const std::string &s, size_t batch_size) noexcept { + return parse_many(s.data(), s.length(), batch_size); +} +inline simdjson_result parser::parse_many(const padded_string &s, size_t batch_size) noexcept { + return parse_many(s.data(), s.length(), batch_size); +} + +simdjson_really_inline size_t parser::capacity() const noexcept { + return implementation ? implementation->capacity() : 0; +} +simdjson_really_inline size_t parser::max_capacity() const noexcept { + return _max_capacity; +} +simdjson_really_inline size_t parser::max_depth() const noexcept { + return implementation ? implementation->max_depth() : DEFAULT_MAX_DEPTH; +} + +simdjson_warn_unused +inline error_code parser::allocate(size_t capacity, size_t max_depth) noexcept { + // + // Reallocate implementation and document if needed + // + error_code err; + // + // It is possible that we change max_depth without touching capacity, in + // which case, we do not want to reallocate the document buffers. + // + bool need_doc_allocation{false}; + if (implementation) { + need_doc_allocation = implementation->capacity() != capacity || !doc.tape; + err = implementation->allocate(capacity, max_depth); + } else { + need_doc_allocation = true; + err = simdjson::active_implementation->create_dom_parser_implementation(capacity, max_depth, implementation); + } + if (err) { return err; } + if (need_doc_allocation) { + err = doc.allocate(capacity); + if (err) { return err; } + } + return SUCCESS; +} + +#ifndef SIMDJSON_DISABLE_DEPRECATED_API +simdjson_warn_unused +inline bool parser::allocate_capacity(size_t capacity, size_t max_depth) noexcept { + return !allocate(capacity, max_depth); +} +#endif // SIMDJSON_DISABLE_DEPRECATED_API +inline error_code parser::ensure_capacity(size_t desired_capacity) noexcept { + // If we don't have enough capacity, (try to) automatically bump it. + // If the document was taken, reallocate that too. + // Both in one if statement to minimize unlikely branching. + if (simdjson_unlikely(capacity() < desired_capacity || !doc.tape)) { + if (desired_capacity > max_capacity()) { + return error = CAPACITY; + } + return allocate(desired_capacity, max_depth()); + } + + return SUCCESS; +} + +simdjson_really_inline void parser::set_max_capacity(size_t max_capacity) noexcept { + _max_capacity = max_capacity; +} + +} // namespace dom +} // namespace simdjson + +#endif // SIMDJSON_INLINE_PARSER_H +/* end file include/simdjson/dom/parser-inl.h */ +/* begin file include/simdjson/internal/tape_ref-inl.h */ +#ifndef SIMDJSON_INLINE_TAPE_REF_H +#define SIMDJSON_INLINE_TAPE_REF_H + +#include + +namespace simdjson { +namespace internal { + +// +// tape_ref inline implementation +// +simdjson_really_inline tape_ref::tape_ref() noexcept : doc{nullptr}, json_index{0} {} +simdjson_really_inline tape_ref::tape_ref(const dom::document *_doc, size_t _json_index) noexcept : doc{_doc}, json_index{_json_index} {} + + +simdjson_really_inline bool tape_ref::is_document_root() const noexcept { + return json_index == 1; // should we ever change the structure of the tape, this should get updated. +} + +// Some value types have a specific on-tape word value. It can be faster +// to check the type by doing a word-to-word comparison instead of extracting the +// most significant 8 bits. + +simdjson_really_inline bool tape_ref::is_double() const noexcept { + constexpr uint64_t tape_double = uint64_t(tape_type::DOUBLE)<<56; + return doc->tape[json_index] == tape_double; +} +simdjson_really_inline bool tape_ref::is_int64() const noexcept { + constexpr uint64_t tape_int64 = uint64_t(tape_type::INT64)<<56; + return doc->tape[json_index] == tape_int64; +} +simdjson_really_inline bool tape_ref::is_uint64() const noexcept { + constexpr uint64_t tape_uint64 = uint64_t(tape_type::UINT64)<<56; + return doc->tape[json_index] == tape_uint64; +} +simdjson_really_inline bool tape_ref::is_false() const noexcept { + constexpr uint64_t tape_false = uint64_t(tape_type::FALSE_VALUE)<<56; + return doc->tape[json_index] == tape_false; +} +simdjson_really_inline bool tape_ref::is_true() const noexcept { + constexpr uint64_t tape_true = uint64_t(tape_type::TRUE_VALUE)<<56; + return doc->tape[json_index] == tape_true; +} +simdjson_really_inline bool tape_ref::is_null_on_tape() const noexcept { + constexpr uint64_t tape_null = uint64_t(tape_type::NULL_VALUE)<<56; + return doc->tape[json_index] == tape_null; +} + +inline size_t tape_ref::after_element() const noexcept { + switch (tape_ref_type()) { + case tape_type::START_ARRAY: + case tape_type::START_OBJECT: + return matching_brace_index(); + case tape_type::UINT64: + case tape_type::INT64: + case tape_type::DOUBLE: + return json_index + 2; + default: + return json_index + 1; + } +} +simdjson_really_inline tape_type tape_ref::tape_ref_type() const noexcept { + return static_cast(doc->tape[json_index] >> 56); +} +simdjson_really_inline uint64_t internal::tape_ref::tape_value() const noexcept { + return doc->tape[json_index] & internal::JSON_VALUE_MASK; +} +simdjson_really_inline uint32_t internal::tape_ref::matching_brace_index() const noexcept { + return uint32_t(doc->tape[json_index]); +} +simdjson_really_inline uint32_t internal::tape_ref::scope_count() const noexcept { + return uint32_t((doc->tape[json_index] >> 32) & internal::JSON_COUNT_MASK); +} + +template +simdjson_really_inline T tape_ref::next_tape_value() const noexcept { + static_assert(sizeof(T) == sizeof(uint64_t), "next_tape_value() template parameter must be 64-bit"); + // Though the following is tempting... + // return *reinterpret_cast(&doc->tape[json_index + 1]); + // It is not generally safe. It is safer, and often faster to rely + // on memcpy. Yes, it is uglier, but it is also encapsulated. + T x; + std::memcpy(&x,&doc->tape[json_index + 1],sizeof(uint64_t)); + return x; +} + +simdjson_really_inline uint32_t internal::tape_ref::get_string_length() const noexcept { + size_t string_buf_index = size_t(tape_value()); + uint32_t len; + std::memcpy(&len, &doc->string_buf[string_buf_index], sizeof(len)); + return len; +} + +simdjson_really_inline const char * internal::tape_ref::get_c_str() const noexcept { + size_t string_buf_index = size_t(tape_value()); + return reinterpret_cast(&doc->string_buf[string_buf_index + sizeof(uint32_t)]); +} + +inline std::string_view internal::tape_ref::get_string_view() const noexcept { + return std::string_view( + get_c_str(), + get_string_length() + ); +} + +} // namespace internal +} // namespace simdjson + +#endif // SIMDJSON_INLINE_TAPE_REF_H +/* end file include/simdjson/internal/tape_ref-inl.h */ +/* begin file include/simdjson/dom/serialization-inl.h */ + +#ifndef SIMDJSON_SERIALIZATION_INL_H +#define SIMDJSON_SERIALIZATION_INL_H + + +#include +#include + +namespace simdjson { +namespace dom { +inline bool parser::print_json(std::ostream &os) const noexcept { + if (!valid) { return false; } + simdjson::internal::string_builder<> sb; + sb.append(doc.root()); + std::string_view answer = sb.str(); + os << answer; + return true; +} +} +/*** + * Number utility functions + **/ + + +namespace { +/**@private + * Escape sequence like \b or \u0001 + * We expect that most compilers will use 8 bytes for this data structure. + **/ +struct escape_sequence { + uint8_t length; + const char string[7]; // technically, we only ever need 6 characters, we pad to 8 +}; +/**@private + * This converts a signed integer into a character sequence. + * The caller is responsible for providing enough memory (at least + * 20 characters.) + * Though various runtime libraries provide itoa functions, + * it is not part of the C++ standard. The C++17 standard + * adds the to_chars functions which would do as well, but + * we want to support C++11. + */ +char *fast_itoa(char *output, int64_t value) noexcept { + // This is a standard implementation of itoa. + char buffer[20]; + uint64_t value_positive; + // In general, negating a signed integer is unsafe. + if(value < 0) { + *output++ = '-'; + // Doing value_positive = -value; while avoiding + // undefined behavior warnings. + // It assumes two complement's which is universal at this + // point in time. + std::memcpy(&value_positive, &value, sizeof(value)); + value_positive = (~value_positive) + 1; // this is a negation + } else { + value_positive = value; + } + // We work solely with value_positive. It *might* be easier + // for an optimizing compiler to deal with an unsigned variable + // as far as performance goes. + const char *const end_buffer = buffer + 20; + char *write_pointer = buffer + 19; + // A faster approach is possible if we expect large integers: + // unroll the loop (work in 100s, 1000s) and use some kind of + // memoization. + while(value_positive >= 10) { + *write_pointer-- = char('0' + (value_positive % 10)); + value_positive /= 10; + } + *write_pointer = char('0' + value_positive); + size_t len = end_buffer - write_pointer; + std::memcpy(output, write_pointer, len); + return output + len; +} +/**@private + * This converts an unsigned integer into a character sequence. + * The caller is responsible for providing enough memory (at least + * 19 characters.) + * Though various runtime libraries provide itoa functions, + * it is not part of the C++ standard. The C++17 standard + * adds the to_chars functions which would do as well, but + * we want to support C++11. + */ +char *fast_itoa(char *output, uint64_t value) noexcept { + // This is a standard implementation of itoa. + char buffer[20]; + const char *const end_buffer = buffer + 20; + char *write_pointer = buffer + 19; + // A faster approach is possible if we expect large integers: + // unroll the loop (work in 100s, 1000s) and use some kind of + // memoization. + while(value >= 10) { + *write_pointer-- = char('0' + (value % 10)); + value /= 10; + }; + *write_pointer = char('0' + value); + size_t len = end_buffer - write_pointer; + std::memcpy(output, write_pointer, len); + return output + len; +} +} // anonymous namespace +namespace internal { + +/*** + * Minifier/formatter code. + **/ + +simdjson_really_inline void mini_formatter::number(uint64_t x) { + char number_buffer[24]; + char *newp = fast_itoa(number_buffer, x); + buffer.insert(buffer.end(), number_buffer, newp); +} + +simdjson_really_inline void mini_formatter::number(int64_t x) { + char number_buffer[24]; + char *newp = fast_itoa(number_buffer, x); + buffer.insert(buffer.end(), number_buffer, newp); +} + +simdjson_really_inline void mini_formatter::number(double x) { + char number_buffer[24]; + // Currently, passing the nullptr to the second argument is + // safe because our implementation does not check the second + // argument. + char *newp = internal::to_chars(number_buffer, nullptr, x); + buffer.insert(buffer.end(), number_buffer, newp); +} + +simdjson_really_inline void mini_formatter::start_array() { one_char('['); } +simdjson_really_inline void mini_formatter::end_array() { one_char(']'); } +simdjson_really_inline void mini_formatter::start_object() { one_char('{'); } +simdjson_really_inline void mini_formatter::end_object() { one_char('}'); } +simdjson_really_inline void mini_formatter::comma() { one_char(','); } + + +simdjson_really_inline void mini_formatter::true_atom() { + const char * s = "true"; + buffer.insert(buffer.end(), s, s + 4); +} +simdjson_really_inline void mini_formatter::false_atom() { + const char * s = "false"; + buffer.insert(buffer.end(), s, s + 5); +} +simdjson_really_inline void mini_formatter::null_atom() { + const char * s = "null"; + buffer.insert(buffer.end(), s, s + 4); +} +simdjson_really_inline void mini_formatter::one_char(char c) { buffer.push_back(c); } +simdjson_really_inline void mini_formatter::key(std::string_view unescaped) { + string(unescaped); + one_char(':'); +} +simdjson_really_inline void mini_formatter::string(std::string_view unescaped) { + one_char('\"'); + size_t i = 0; + // Fast path for the case where we have no control character, no ", and no backslash. + // This should include most keys. + constexpr static bool needs_escaping[] = {1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}; + for(;i + 8 <= unescaped.length(); i += 8) { + // Poor's man vectorization. This could get much faster if we used SIMD. + if(needs_escaping[uint8_t(unescaped[i])] | needs_escaping[uint8_t(unescaped[i+1])] + | needs_escaping[uint8_t(unescaped[i+2])] | needs_escaping[uint8_t(unescaped[i+3])] + | needs_escaping[uint8_t(unescaped[i+4])] | needs_escaping[uint8_t(unescaped[i+5])] + | needs_escaping[uint8_t(unescaped[i+6])] | needs_escaping[uint8_t(unescaped[i+7])] + ) { break; } + } + for(;i < unescaped.length(); i++) { + if(needs_escaping[uint8_t(unescaped[i])]) { break; } + } + // The following is also possible and omits a 256-byte table, but it is slower: + // for (; (i < unescaped.length()) && (uint8_t(unescaped[i]) > 0x1F) + // && (unescaped[i] != '\"') && (unescaped[i] != '\\'); i++) {} + + // At least for long strings, the following should be fast. We could + // do better by integrating the checks and the insertion. + buffer.insert(buffer.end(), unescaped.data(), unescaped.data() + i); + // We caught a control character if we enter this loop (slow). + // Note that we are do not restart from the beginning, but rather we continue + // from the point where we encountered something that requires escaping. + for (; i < unescaped.length(); i++) { + switch (unescaped[i]) { + case '\"': + { + const char * s = "\\\""; + buffer.insert(buffer.end(), s, s + 2); + } + break; + case '\\': + { + const char * s = "\\\\"; + buffer.insert(buffer.end(), s, s + 2); + } + break; + default: + if (uint8_t(unescaped[i]) <= 0x1F) { + // If packed, this uses 8 * 32 bytes. + // Note that we expect most compilers to embed this code in the data + // section. + constexpr static escape_sequence escaped[32] = { + {6, "\\u0000"}, {6, "\\u0001"}, {6, "\\u0002"}, {6, "\\u0003"}, + {6, "\\u0004"}, {6, "\\u0005"}, {6, "\\u0006"}, {6, "\\u0007"}, + {2, "\\b"}, {2, "\\t"}, {2, "\\n"}, {6, "\\u000b"}, + {2, "\\f"}, {2, "\\r"}, {6, "\\u000e"}, {6, "\\u000f"}, + {6, "\\u0010"}, {6, "\\u0011"}, {6, "\\u0012"}, {6, "\\u0013"}, + {6, "\\u0014"}, {6, "\\u0015"}, {6, "\\u0016"}, {6, "\\u0017"}, + {6, "\\u0018"}, {6, "\\u0019"}, {6, "\\u001a"}, {6, "\\u001b"}, + {6, "\\u001c"}, {6, "\\u001d"}, {6, "\\u001e"}, {6, "\\u001f"}}; + auto u = escaped[uint8_t(unescaped[i])]; + buffer.insert(buffer.end(), u.string, u.string + u.length); + } else { + one_char(unescaped[i]); + } + } // switch + } // for + one_char('\"'); +} + +inline void mini_formatter::clear() { + buffer.clear(); +} + +simdjson_really_inline std::string_view mini_formatter::str() const { + return std::string_view(buffer.data(), buffer.size()); +} + + +/*** + * String building code. + **/ + +template +inline void string_builder::append(simdjson::dom::element value) { + // using tape_type = simdjson::internal::tape_type; + size_t depth = 0; + constexpr size_t MAX_DEPTH = 16; + bool is_object[MAX_DEPTH]; + is_object[0] = false; + bool after_value = false; + + internal::tape_ref iter(value.tape); + do { + // print commas after each value + if (after_value) { + format.comma(); + } + // If we are in an object, print the next key and :, and skip to the next + // value. + if (is_object[depth]) { + format.key(iter.get_string_view()); + iter.json_index++; + } + switch (iter.tape_ref_type()) { + + // Arrays + case tape_type::START_ARRAY: { + // If we're too deep, we need to recurse to go deeper. + depth++; + if (simdjson_unlikely(depth >= MAX_DEPTH)) { + append(simdjson::dom::array(iter)); + iter.json_index = iter.matching_brace_index() - 1; // Jump to the ] + depth--; + break; + } + + // Output start [ + format.start_array(); + iter.json_index++; + + // Handle empty [] (we don't want to come back around and print commas) + if (iter.tape_ref_type() == tape_type::END_ARRAY) { + format.end_array(); + depth--; + break; + } + + is_object[depth] = false; + after_value = false; + continue; + } + + // Objects + case tape_type::START_OBJECT: { + // If we're too deep, we need to recurse to go deeper. + depth++; + if (simdjson_unlikely(depth >= MAX_DEPTH)) { + append(simdjson::dom::object(iter)); + iter.json_index = iter.matching_brace_index() - 1; // Jump to the } + depth--; + break; + } + + // Output start { + format.start_object(); + iter.json_index++; + + // Handle empty {} (we don't want to come back around and print commas) + if (iter.tape_ref_type() == tape_type::END_OBJECT) { + format.end_object(); + depth--; + break; + } + + is_object[depth] = true; + after_value = false; + continue; + } + + // Scalars + case tape_type::STRING: + format.string(iter.get_string_view()); + break; + case tape_type::INT64: + format.number(iter.next_tape_value()); + iter.json_index++; // numbers take up 2 spots, so we need to increment + // extra + break; + case tape_type::UINT64: + format.number(iter.next_tape_value()); + iter.json_index++; // numbers take up 2 spots, so we need to increment + // extra + break; + case tape_type::DOUBLE: + format.number(iter.next_tape_value()); + iter.json_index++; // numbers take up 2 spots, so we need to increment + // extra + break; + case tape_type::TRUE_VALUE: + format.true_atom(); + break; + case tape_type::FALSE_VALUE: + format.false_atom(); + break; + case tape_type::NULL_VALUE: + format.null_atom(); + break; + + // These are impossible + case tape_type::END_ARRAY: + case tape_type::END_OBJECT: + case tape_type::ROOT: + SIMDJSON_UNREACHABLE(); + } + iter.json_index++; + after_value = true; + + // Handle multiple ends in a row + while (depth != 0 && (iter.tape_ref_type() == tape_type::END_ARRAY || + iter.tape_ref_type() == tape_type::END_OBJECT)) { + if (iter.tape_ref_type() == tape_type::END_ARRAY) { + format.end_array(); + } else { + format.end_object(); + } + depth--; + iter.json_index++; + } + + // Stop when we're at depth 0 + } while (depth != 0); +} + +template +inline void string_builder::append(simdjson::dom::object value) { + format.start_object(); + auto pair = value.begin(); + auto end = value.end(); + if (pair != end) { + append(*pair); + for (++pair; pair != end; ++pair) { + format.comma(); + append(*pair); + } + } + format.end_object(); +} + +template +inline void string_builder::append(simdjson::dom::array value) { + format.start_array(); + auto iter = value.begin(); + auto end = value.end(); + if (iter != end) { + append(*iter); + for (++iter; iter != end; ++iter) { + format.comma(); + append(*iter); + } + } + format.end_array(); +} + +template +simdjson_really_inline void string_builder::append(simdjson::dom::key_value_pair kv) { + format.key(kv.key); + append(kv.value); +} + +template +simdjson_really_inline void string_builder::clear() { + format.clear(); +} + +template +simdjson_really_inline std::string_view string_builder::str() const { + return format.str(); +} + + +} // namespace internal +} // namespace simdjson + +#endif +/* end file include/simdjson/dom/serialization-inl.h */ + +// Implementation-internal files (must be included before the implementations themselves, to keep +// amalgamation working--otherwise, the first time a file is included, it might be put inside the +// #ifdef SIMDJSON_IMPLEMENTATION_ARM64/FALLBACK/etc., which means the other implementations can't +// compile unless that implementation is turned on). +/* begin file include/simdjson/internal/jsoncharutils_tables.h */ +#ifndef SIMDJSON_INTERNAL_JSONCHARUTILS_TABLES_H +#define SIMDJSON_INTERNAL_JSONCHARUTILS_TABLES_H + + +#ifdef JSON_TEST_STRINGS +void found_string(const uint8_t *buf, const uint8_t *parsed_begin, + const uint8_t *parsed_end); +void found_bad_string(const uint8_t *buf); +#endif + +namespace simdjson { +namespace internal { +// structural chars here are +// they are { 0x7b } 0x7d : 0x3a [ 0x5b ] 0x5d , 0x2c (and NULL) +// we are also interested in the four whitespace characters +// space 0x20, linefeed 0x0a, horizontal tab 0x09 and carriage return 0x0d + +extern SIMDJSON_DLLIMPORTEXPORT const bool structural_or_whitespace_negated[256]; +extern SIMDJSON_DLLIMPORTEXPORT const bool structural_or_whitespace[256]; +extern SIMDJSON_DLLIMPORTEXPORT const uint32_t digit_to_val32[886]; + +} // namespace internal +} // namespace simdjson + +#endif // SIMDJSON_INTERNAL_JSONCHARUTILS_TABLES_H +/* end file include/simdjson/internal/jsoncharutils_tables.h */ +/* begin file include/simdjson/internal/numberparsing_tables.h */ +#ifndef SIMDJSON_INTERNAL_NUMBERPARSING_TABLES_H +#define SIMDJSON_INTERNAL_NUMBERPARSING_TABLES_H + + +namespace simdjson { +namespace internal { +/** + * The smallest non-zero float (binary64) is 2^-1074. + * We take as input numbers of the form w x 10^q where w < 2^64. + * We have that w * 10^-343 < 2^(64-344) 5^-343 < 2^-1076. + * However, we have that + * (2^64-1) * 10^-342 = (2^64-1) * 2^-342 * 5^-342 > 2^-1074. + * Thus it is possible for a number of the form w * 10^-342 where + * w is a 64-bit value to be a non-zero floating-point number. + ********* + * Any number of form w * 10^309 where w>= 1 is going to be + * infinite in binary64 so we never need to worry about powers + * of 5 greater than 308. + */ +constexpr int smallest_power = -342; +constexpr int largest_power = 308; + +/** + * Represents a 128-bit value. + * low: least significant 64 bits. + * high: most significant 64 bits. + */ +struct value128 { + uint64_t low; + uint64_t high; +}; + + +// Precomputed powers of ten from 10^0 to 10^22. These +// can be represented exactly using the double type. +extern SIMDJSON_DLLIMPORTEXPORT const double power_of_ten[]; + + +/** + * When mapping numbers from decimal to binary, + * we go from w * 10^q to m * 2^p but we have + * 10^q = 5^q * 2^q, so effectively + * we are trying to match + * w * 2^q * 5^q to m * 2^p. Thus the powers of two + * are not a concern since they can be represented + * exactly using the binary notation, only the powers of five + * affect the binary significand. + */ + + +// The truncated powers of five from 5^-342 all the way to 5^308 +// The mantissa is truncated to 128 bits, and +// never rounded up. Uses about 10KB. +extern SIMDJSON_DLLIMPORTEXPORT const uint64_t power_of_five_128[]; +} // namespace internal +} // namespace simdjson + +#endif // SIMDJSON_INTERNAL_NUMBERPARSING_TABLES_H +/* end file include/simdjson/internal/numberparsing_tables.h */ +/* begin file include/simdjson/internal/simdprune_tables.h */ +#ifndef SIMDJSON_INTERNAL_SIMDPRUNE_TABLES_H +#define SIMDJSON_INTERNAL_SIMDPRUNE_TABLES_H + +#include + +namespace simdjson { // table modified and copied from +namespace internal { // http://graphics.stanford.edu/~seander/bithacks.html#CountBitsSetTable + +extern SIMDJSON_DLLIMPORTEXPORT const unsigned char BitsSetTable256mul2[256]; + +extern SIMDJSON_DLLIMPORTEXPORT const uint8_t pshufb_combine_table[272]; + +// 256 * 8 bytes = 2kB, easily fits in cache. +extern SIMDJSON_DLLIMPORTEXPORT const uint64_t thintable_epi8[256]; + +} // namespace internal +} // namespace simdjson + +#endif // SIMDJSON_INTERNAL_SIMDPRUNE_TABLES_H +/* end file include/simdjson/internal/simdprune_tables.h */ + +// Implementations +/* begin file include/simdjson/arm64.h */ +#ifndef SIMDJSON_ARM64_H +#define SIMDJSON_ARM64_H + +#ifdef SIMDJSON_FALLBACK_H +#error "arm64.h must be included before fallback.h" +#endif + + +#ifndef SIMDJSON_IMPLEMENTATION_ARM64 +#define SIMDJSON_IMPLEMENTATION_ARM64 (SIMDJSON_IS_ARM64) +#endif +#define SIMDJSON_CAN_ALWAYS_RUN_ARM64 SIMDJSON_IMPLEMENTATION_ARM64 && SIMDJSON_IS_ARM64 + + + +#if SIMDJSON_IMPLEMENTATION_ARM64 + +namespace simdjson { +/** + * Implementation for NEON (ARMv8). + */ +namespace arm64 { +} // namespace arm64 +} // namespace simdjson + +/* begin file include/simdjson/arm64/implementation.h */ +#ifndef SIMDJSON_ARM64_IMPLEMENTATION_H +#define SIMDJSON_ARM64_IMPLEMENTATION_H + + +namespace simdjson { +namespace arm64 { + +namespace { +using namespace simdjson; +using namespace simdjson::dom; +} + +class implementation final : public simdjson::implementation { +public: + simdjson_really_inline implementation() : simdjson::implementation("arm64", "ARM NEON", internal::instruction_set::NEON) {} + simdjson_warn_unused error_code create_dom_parser_implementation( + size_t capacity, + size_t max_length, + std::unique_ptr& dst + ) const noexcept final; + simdjson_warn_unused error_code minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) const noexcept final; + simdjson_warn_unused bool validate_utf8(const char *buf, size_t len) const noexcept final; +}; + +} // namespace arm64 +} // namespace simdjson + +#endif // SIMDJSON_ARM64_IMPLEMENTATION_H +/* end file include/simdjson/arm64/implementation.h */ + +/* begin file include/simdjson/arm64/begin.h */ +// redefining SIMDJSON_IMPLEMENTATION to "arm64" +// #define SIMDJSON_IMPLEMENTATION arm64 +/* end file include/simdjson/arm64/begin.h */ + +// Declarations +/* begin file include/simdjson/generic/dom_parser_implementation.h */ + +namespace simdjson { +namespace arm64 { + +// expectation: sizeof(open_container) = 64/8. +struct open_container { + uint32_t tape_index; // where, on the tape, does the scope ([,{) begins + uint32_t count; // how many elements in the scope +}; // struct open_container + +static_assert(sizeof(open_container) == 64/8, "Open container must be 64 bits"); + +class dom_parser_implementation final : public internal::dom_parser_implementation { +public: + /** Tape location of each open { or [ */ + std::unique_ptr open_containers{}; + /** Whether each open container is a [ or { */ + std::unique_ptr is_array{}; + /** Buffer passed to stage 1 */ + const uint8_t *buf{}; + /** Length passed to stage 1 */ + size_t len{0}; + /** Document passed to stage 2 */ + dom::document *doc{}; + + inline dom_parser_implementation() noexcept; + inline dom_parser_implementation(dom_parser_implementation &&other) noexcept; + inline dom_parser_implementation &operator=(dom_parser_implementation &&other) noexcept; + dom_parser_implementation(const dom_parser_implementation &) = delete; + dom_parser_implementation &operator=(const dom_parser_implementation &) = delete; + + simdjson_warn_unused error_code parse(const uint8_t *buf, size_t len, dom::document &doc) noexcept final; + simdjson_warn_unused error_code stage1(const uint8_t *buf, size_t len, bool partial) noexcept final; + simdjson_warn_unused error_code check_for_unclosed_array() noexcept; + simdjson_warn_unused error_code stage2(dom::document &doc) noexcept final; + simdjson_warn_unused error_code stage2_next(dom::document &doc) noexcept final; + inline simdjson_warn_unused error_code set_capacity(size_t capacity) noexcept final; + inline simdjson_warn_unused error_code set_max_depth(size_t max_depth) noexcept final; +private: + simdjson_really_inline simdjson_warn_unused error_code set_capacity_stage1(size_t capacity); + +}; + +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { +namespace arm64 { + +inline dom_parser_implementation::dom_parser_implementation() noexcept = default; +inline dom_parser_implementation::dom_parser_implementation(dom_parser_implementation &&other) noexcept = default; +inline dom_parser_implementation &dom_parser_implementation::operator=(dom_parser_implementation &&other) noexcept = default; + +// Leaving these here so they can be inlined if so desired +inline simdjson_warn_unused error_code dom_parser_implementation::set_capacity(size_t capacity) noexcept { + // Stage 1 index output + size_t max_structures = SIMDJSON_ROUNDUP_N(capacity, 64) + 2 + 7; + structural_indexes.reset( new (std::nothrow) uint32_t[max_structures] ); + if (!structural_indexes) { _capacity = 0; return MEMALLOC; } + structural_indexes[0] = 0; + n_structural_indexes = 0; + + _capacity = capacity; + return SUCCESS; +} + +inline simdjson_warn_unused error_code dom_parser_implementation::set_max_depth(size_t max_depth) noexcept { + // Stage 2 stacks + open_containers.reset(new (std::nothrow) open_container[max_depth]); + is_array.reset(new (std::nothrow) bool[max_depth]); + if (!is_array || !open_containers) { _max_depth = 0; return MEMALLOC; } + + _max_depth = max_depth; + return SUCCESS; +} + +} // namespace arm64 +} // namespace simdjson +/* end file include/simdjson/generic/dom_parser_implementation.h */ +/* begin file include/simdjson/arm64/intrinsics.h */ +#ifndef SIMDJSON_ARM64_INTRINSICS_H +#define SIMDJSON_ARM64_INTRINSICS_H + + +// This should be the correct header whether +// you use visual studio or other compilers. +#include + +#endif // SIMDJSON_ARM64_INTRINSICS_H +/* end file include/simdjson/arm64/intrinsics.h */ +/* begin file include/simdjson/arm64/bitmanipulation.h */ +#ifndef SIMDJSON_ARM64_BITMANIPULATION_H +#define SIMDJSON_ARM64_BITMANIPULATION_H + +namespace simdjson { +namespace arm64 { +namespace { + +// We sometimes call trailing_zero on inputs that are zero, +// but the algorithms do not end up using the returned value. +// Sadly, sanitizers are not smart enough to figure it out. +NO_SANITIZE_UNDEFINED +simdjson_really_inline int trailing_zeroes(uint64_t input_num) { +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO + unsigned long ret; + // Search the mask data from least significant bit (LSB) + // to the most significant bit (MSB) for a set bit (1). + _BitScanForward64(&ret, input_num); + return (int)ret; +#else // SIMDJSON_REGULAR_VISUAL_STUDIO + return __builtin_ctzll(input_num); +#endif // SIMDJSON_REGULAR_VISUAL_STUDIO +} + +/* result might be undefined when input_num is zero */ +simdjson_really_inline uint64_t clear_lowest_bit(uint64_t input_num) { + return input_num & (input_num-1); +} + +/* result might be undefined when input_num is zero */ +simdjson_really_inline int leading_zeroes(uint64_t input_num) { +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO + unsigned long leading_zero = 0; + // Search the mask data from most significant bit (MSB) + // to least significant bit (LSB) for a set bit (1). + if (_BitScanReverse64(&leading_zero, input_num)) + return (int)(63 - leading_zero); + else + return 64; +#else + return __builtin_clzll(input_num); +#endif// SIMDJSON_REGULAR_VISUAL_STUDIO +} + +/* result might be undefined when input_num is zero */ +simdjson_really_inline int count_ones(uint64_t input_num) { + return vaddv_u8(vcnt_u8(vcreate_u8(input_num))); +} + +simdjson_really_inline bool add_overflow(uint64_t value1, uint64_t value2, uint64_t *result) { +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO + *result = value1 + value2; + return *result < value1; +#else + return __builtin_uaddll_overflow(value1, value2, + (unsigned long long *)result); +#endif +} + +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson + +#endif // SIMDJSON_ARM64_BITMANIPULATION_H +/* end file include/simdjson/arm64/bitmanipulation.h */ +/* begin file include/simdjson/arm64/bitmask.h */ +#ifndef SIMDJSON_ARM64_BITMASK_H +#define SIMDJSON_ARM64_BITMASK_H + +namespace simdjson { +namespace arm64 { +namespace { + +// +// Perform a "cumulative bitwise xor," flipping bits each time a 1 is encountered. +// +// For example, prefix_xor(00100100) == 00011100 +// +simdjson_really_inline uint64_t prefix_xor(uint64_t bitmask) { + ///////////// + // We could do this with PMULL, but it is apparently slow. + // + //#ifdef __ARM_FEATURE_CRYPTO // some ARM processors lack this extension + //return vmull_p64(-1ULL, bitmask); + //#else + // Analysis by @sebpop: + // When diffing the assembly for src/stage1_find_marks.cpp I see that the eors are all spread out + // in between other vector code, so effectively the extra cycles of the sequence do not matter + // because the GPR units are idle otherwise and the critical path is on the FP side. + // Also the PMULL requires two extra fmovs: GPR->FP (3 cycles in N1, 5 cycles in A72 ) + // and FP->GPR (2 cycles on N1 and 5 cycles on A72.) + /////////// + bitmask ^= bitmask << 1; + bitmask ^= bitmask << 2; + bitmask ^= bitmask << 4; + bitmask ^= bitmask << 8; + bitmask ^= bitmask << 16; + bitmask ^= bitmask << 32; + return bitmask; +} + +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson + +#endif +/* end file include/simdjson/arm64/bitmask.h */ +/* begin file include/simdjson/arm64/simd.h */ +#ifndef SIMDJSON_ARM64_SIMD_H +#define SIMDJSON_ARM64_SIMD_H + +#include + + +namespace simdjson { +namespace arm64 { +namespace { +namespace simd { + +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO +namespace { +// Start of private section with Visual Studio workaround + + +/** + * make_uint8x16_t initializes a SIMD register (uint8x16_t). + * This is needed because, incredibly, the syntax uint8x16_t x = {1,2,3...} + * is not recognized under Visual Studio! This is a workaround. + * Using a std::initializer_list as a parameter resulted in + * inefficient code. With the current approach, if the parameters are + * compile-time constants, + * GNU GCC compiles it to ldr, the same as uint8x16_t x = {1,2,3...}. + * You should not use this function except for compile-time constants: + * it is not efficient. + */ +simdjson_really_inline uint8x16_t make_uint8x16_t(uint8_t x1, uint8_t x2, uint8_t x3, uint8_t x4, + uint8_t x5, uint8_t x6, uint8_t x7, uint8_t x8, + uint8_t x9, uint8_t x10, uint8_t x11, uint8_t x12, + uint8_t x13, uint8_t x14, uint8_t x15, uint8_t x16) { + // Doing a load like so end ups generating worse code. + // uint8_t array[16] = {x1, x2, x3, x4, x5, x6, x7, x8, + // x9, x10,x11,x12,x13,x14,x15,x16}; + // return vld1q_u8(array); + uint8x16_t x{}; + // incredibly, Visual Studio does not allow x[0] = x1 + x = vsetq_lane_u8(x1, x, 0); + x = vsetq_lane_u8(x2, x, 1); + x = vsetq_lane_u8(x3, x, 2); + x = vsetq_lane_u8(x4, x, 3); + x = vsetq_lane_u8(x5, x, 4); + x = vsetq_lane_u8(x6, x, 5); + x = vsetq_lane_u8(x7, x, 6); + x = vsetq_lane_u8(x8, x, 7); + x = vsetq_lane_u8(x9, x, 8); + x = vsetq_lane_u8(x10, x, 9); + x = vsetq_lane_u8(x11, x, 10); + x = vsetq_lane_u8(x12, x, 11); + x = vsetq_lane_u8(x13, x, 12); + x = vsetq_lane_u8(x14, x, 13); + x = vsetq_lane_u8(x15, x, 14); + x = vsetq_lane_u8(x16, x, 15); + return x; +} + + +// We have to do the same work for make_int8x16_t +simdjson_really_inline int8x16_t make_int8x16_t(int8_t x1, int8_t x2, int8_t x3, int8_t x4, + int8_t x5, int8_t x6, int8_t x7, int8_t x8, + int8_t x9, int8_t x10, int8_t x11, int8_t x12, + int8_t x13, int8_t x14, int8_t x15, int8_t x16) { + // Doing a load like so end ups generating worse code. + // int8_t array[16] = {x1, x2, x3, x4, x5, x6, x7, x8, + // x9, x10,x11,x12,x13,x14,x15,x16}; + // return vld1q_s8(array); + int8x16_t x{}; + // incredibly, Visual Studio does not allow x[0] = x1 + x = vsetq_lane_s8(x1, x, 0); + x = vsetq_lane_s8(x2, x, 1); + x = vsetq_lane_s8(x3, x, 2); + x = vsetq_lane_s8(x4, x, 3); + x = vsetq_lane_s8(x5, x, 4); + x = vsetq_lane_s8(x6, x, 5); + x = vsetq_lane_s8(x7, x, 6); + x = vsetq_lane_s8(x8, x, 7); + x = vsetq_lane_s8(x9, x, 8); + x = vsetq_lane_s8(x10, x, 9); + x = vsetq_lane_s8(x11, x, 10); + x = vsetq_lane_s8(x12, x, 11); + x = vsetq_lane_s8(x13, x, 12); + x = vsetq_lane_s8(x14, x, 13); + x = vsetq_lane_s8(x15, x, 14); + x = vsetq_lane_s8(x16, x, 15); + return x; +} + +// End of private section with Visual Studio workaround +} // namespace +#endif // SIMDJSON_REGULAR_VISUAL_STUDIO + + + template + struct simd8; + + // + // Base class of simd8 and simd8, both of which use uint8x16_t internally. + // + template> + struct base_u8 { + uint8x16_t value; + static const int SIZE = sizeof(value); + + // Conversion from/to SIMD register + simdjson_really_inline base_u8(const uint8x16_t _value) : value(_value) {} + simdjson_really_inline operator const uint8x16_t&() const { return this->value; } + simdjson_really_inline operator uint8x16_t&() { return this->value; } + + // Bit operations + simdjson_really_inline simd8 operator|(const simd8 other) const { return vorrq_u8(*this, other); } + simdjson_really_inline simd8 operator&(const simd8 other) const { return vandq_u8(*this, other); } + simdjson_really_inline simd8 operator^(const simd8 other) const { return veorq_u8(*this, other); } + simdjson_really_inline simd8 bit_andnot(const simd8 other) const { return vbicq_u8(*this, other); } + simdjson_really_inline simd8 operator~() const { return *this ^ 0xFFu; } + simdjson_really_inline simd8& operator|=(const simd8 other) { auto this_cast = (simd8*)this; *this_cast = *this_cast | other; return *this_cast; } + simdjson_really_inline simd8& operator&=(const simd8 other) { auto this_cast = (simd8*)this; *this_cast = *this_cast & other; return *this_cast; } + simdjson_really_inline simd8& operator^=(const simd8 other) { auto this_cast = (simd8*)this; *this_cast = *this_cast ^ other; return *this_cast; } + + simdjson_really_inline Mask operator==(const simd8 other) const { return vceqq_u8(*this, other); } + + template + simdjson_really_inline simd8 prev(const simd8 prev_chunk) const { + return vextq_u8(prev_chunk, *this, 16 - N); + } + }; + + // SIMD byte mask type (returned by things like eq and gt) + template<> + struct simd8: base_u8 { + typedef uint16_t bitmask_t; + typedef uint32_t bitmask2_t; + + static simdjson_really_inline simd8 splat(bool _value) { return vmovq_n_u8(uint8_t(-(!!_value))); } + + simdjson_really_inline simd8(const uint8x16_t _value) : base_u8(_value) {} + // False constructor + simdjson_really_inline simd8() : simd8(vdupq_n_u8(0)) {} + // Splat constructor + simdjson_really_inline simd8(bool _value) : simd8(splat(_value)) {} + + // We return uint32_t instead of uint16_t because that seems to be more efficient for most + // purposes (cutting it down to uint16_t costs performance in some compilers). + simdjson_really_inline uint32_t to_bitmask() const { +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO + const uint8x16_t bit_mask = make_uint8x16_t(0x01, 0x02, 0x4, 0x8, 0x10, 0x20, 0x40, 0x80, + 0x01, 0x02, 0x4, 0x8, 0x10, 0x20, 0x40, 0x80); +#else + const uint8x16_t bit_mask = {0x01, 0x02, 0x4, 0x8, 0x10, 0x20, 0x40, 0x80, + 0x01, 0x02, 0x4, 0x8, 0x10, 0x20, 0x40, 0x80}; +#endif + auto minput = *this & bit_mask; + uint8x16_t tmp = vpaddq_u8(minput, minput); + tmp = vpaddq_u8(tmp, tmp); + tmp = vpaddq_u8(tmp, tmp); + return vgetq_lane_u16(vreinterpretq_u16_u8(tmp), 0); + } + simdjson_really_inline bool any() const { return vmaxvq_u8(*this) != 0; } + }; + + // Unsigned bytes + template<> + struct simd8: base_u8 { + static simdjson_really_inline uint8x16_t splat(uint8_t _value) { return vmovq_n_u8(_value); } + static simdjson_really_inline uint8x16_t zero() { return vdupq_n_u8(0); } + static simdjson_really_inline uint8x16_t load(const uint8_t* values) { return vld1q_u8(values); } + + simdjson_really_inline simd8(const uint8x16_t _value) : base_u8(_value) {} + // Zero constructor + simdjson_really_inline simd8() : simd8(zero()) {} + // Array constructor + simdjson_really_inline simd8(const uint8_t values[16]) : simd8(load(values)) {} + // Splat constructor + simdjson_really_inline simd8(uint8_t _value) : simd8(splat(_value)) {} + // Member-by-member initialization +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO + simdjson_really_inline simd8( + uint8_t v0, uint8_t v1, uint8_t v2, uint8_t v3, uint8_t v4, uint8_t v5, uint8_t v6, uint8_t v7, + uint8_t v8, uint8_t v9, uint8_t v10, uint8_t v11, uint8_t v12, uint8_t v13, uint8_t v14, uint8_t v15 + ) : simd8(make_uint8x16_t( + v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10,v11,v12,v13,v14,v15 + )) {} +#else + simdjson_really_inline simd8( + uint8_t v0, uint8_t v1, uint8_t v2, uint8_t v3, uint8_t v4, uint8_t v5, uint8_t v6, uint8_t v7, + uint8_t v8, uint8_t v9, uint8_t v10, uint8_t v11, uint8_t v12, uint8_t v13, uint8_t v14, uint8_t v15 + ) : simd8(uint8x16_t{ + v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10,v11,v12,v13,v14,v15 + }) {} +#endif + + // Repeat 16 values as many times as necessary (usually for lookup tables) + simdjson_really_inline static simd8 repeat_16( + uint8_t v0, uint8_t v1, uint8_t v2, uint8_t v3, uint8_t v4, uint8_t v5, uint8_t v6, uint8_t v7, + uint8_t v8, uint8_t v9, uint8_t v10, uint8_t v11, uint8_t v12, uint8_t v13, uint8_t v14, uint8_t v15 + ) { + return simd8( + v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10,v11,v12,v13,v14,v15 + ); + } + + // Store to array + simdjson_really_inline void store(uint8_t dst[16]) const { return vst1q_u8(dst, *this); } + + // Saturated math + simdjson_really_inline simd8 saturating_add(const simd8 other) const { return vqaddq_u8(*this, other); } + simdjson_really_inline simd8 saturating_sub(const simd8 other) const { return vqsubq_u8(*this, other); } + + // Addition/subtraction are the same for signed and unsigned + simdjson_really_inline simd8 operator+(const simd8 other) const { return vaddq_u8(*this, other); } + simdjson_really_inline simd8 operator-(const simd8 other) const { return vsubq_u8(*this, other); } + simdjson_really_inline simd8& operator+=(const simd8 other) { *this = *this + other; return *this; } + simdjson_really_inline simd8& operator-=(const simd8 other) { *this = *this - other; return *this; } + + // Order-specific operations + simdjson_really_inline uint8_t max_val() const { return vmaxvq_u8(*this); } + simdjson_really_inline uint8_t min_val() const { return vminvq_u8(*this); } + simdjson_really_inline simd8 max_val(const simd8 other) const { return vmaxq_u8(*this, other); } + simdjson_really_inline simd8 min_val(const simd8 other) const { return vminq_u8(*this, other); } + simdjson_really_inline simd8 operator<=(const simd8 other) const { return vcleq_u8(*this, other); } + simdjson_really_inline simd8 operator>=(const simd8 other) const { return vcgeq_u8(*this, other); } + simdjson_really_inline simd8 operator<(const simd8 other) const { return vcltq_u8(*this, other); } + simdjson_really_inline simd8 operator>(const simd8 other) const { return vcgtq_u8(*this, other); } + // Same as >, but instead of guaranteeing all 1's == true, false = 0 and true = nonzero. For ARM, returns all 1's. + simdjson_really_inline simd8 gt_bits(const simd8 other) const { return simd8(*this > other); } + // Same as <, but instead of guaranteeing all 1's == true, false = 0 and true = nonzero. For ARM, returns all 1's. + simdjson_really_inline simd8 lt_bits(const simd8 other) const { return simd8(*this < other); } + + // Bit-specific operations + simdjson_really_inline simd8 any_bits_set(simd8 bits) const { return vtstq_u8(*this, bits); } + simdjson_really_inline bool any_bits_set_anywhere() const { return this->max_val() != 0; } + simdjson_really_inline bool any_bits_set_anywhere(simd8 bits) const { return (*this & bits).any_bits_set_anywhere(); } + template + simdjson_really_inline simd8 shr() const { return vshrq_n_u8(*this, N); } + template + simdjson_really_inline simd8 shl() const { return vshlq_n_u8(*this, N); } + + // Perform a lookup assuming the value is between 0 and 16 (undefined behavior for out of range values) + template + simdjson_really_inline simd8 lookup_16(simd8 lookup_table) const { + return lookup_table.apply_lookup_16_to(*this); + } + + + // Copies to 'output" all bytes corresponding to a 0 in the mask (interpreted as a bitset). + // Passing a 0 value for mask would be equivalent to writing out every byte to output. + // Only the first 16 - count_ones(mask) bytes of the result are significant but 16 bytes + // get written. + // Design consideration: it seems like a function with the + // signature simd8 compress(uint16_t mask) would be + // sensible, but the AVX ISA makes this kind of approach difficult. + template + simdjson_really_inline void compress(uint16_t mask, L * output) const { + using internal::thintable_epi8; + using internal::BitsSetTable256mul2; + using internal::pshufb_combine_table; + // this particular implementation was inspired by work done by @animetosho + // we do it in two steps, first 8 bytes and then second 8 bytes + uint8_t mask1 = uint8_t(mask); // least significant 8 bits + uint8_t mask2 = uint8_t(mask >> 8); // most significant 8 bits + // next line just loads the 64-bit values thintable_epi8[mask1] and + // thintable_epi8[mask2] into a 128-bit register, using only + // two instructions on most compilers. + uint64x2_t shufmask64 = {thintable_epi8[mask1], thintable_epi8[mask2]}; + uint8x16_t shufmask = vreinterpretq_u8_u64(shufmask64); + // we increment by 0x08 the second half of the mask +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO + uint8x16_t inc = make_uint8x16_t(0, 0, 0, 0, 0, 0, 0, 0, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08); +#else + uint8x16_t inc = {0, 0, 0, 0, 0, 0, 0, 0, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08, 0x08}; +#endif + shufmask = vaddq_u8(shufmask, inc); + // this is the version "nearly pruned" + uint8x16_t pruned = vqtbl1q_u8(*this, shufmask); + // we still need to put the two halves together. + // we compute the popcount of the first half: + int pop1 = BitsSetTable256mul2[mask1]; + // then load the corresponding mask, what it does is to write + // only the first pop1 bytes from the first 8 bytes, and then + // it fills in with the bytes from the second 8 bytes + some filling + // at the end. + uint8x16_t compactmask = vld1q_u8((const uint8_t *)(pshufb_combine_table + pop1 * 8)); + uint8x16_t answer = vqtbl1q_u8(pruned, compactmask); + vst1q_u8((uint8_t*) output, answer); + } + + template + simdjson_really_inline simd8 lookup_16( + L replace0, L replace1, L replace2, L replace3, + L replace4, L replace5, L replace6, L replace7, + L replace8, L replace9, L replace10, L replace11, + L replace12, L replace13, L replace14, L replace15) const { + return lookup_16(simd8::repeat_16( + replace0, replace1, replace2, replace3, + replace4, replace5, replace6, replace7, + replace8, replace9, replace10, replace11, + replace12, replace13, replace14, replace15 + )); + } + + template + simdjson_really_inline simd8 apply_lookup_16_to(const simd8 original) { + return vqtbl1q_u8(*this, simd8(original)); + } + }; + + // Signed bytes + template<> + struct simd8 { + int8x16_t value; + + static simdjson_really_inline simd8 splat(int8_t _value) { return vmovq_n_s8(_value); } + static simdjson_really_inline simd8 zero() { return vdupq_n_s8(0); } + static simdjson_really_inline simd8 load(const int8_t values[16]) { return vld1q_s8(values); } + + // Conversion from/to SIMD register + simdjson_really_inline simd8(const int8x16_t _value) : value{_value} {} + simdjson_really_inline operator const int8x16_t&() const { return this->value; } + simdjson_really_inline operator int8x16_t&() { return this->value; } + + // Zero constructor + simdjson_really_inline simd8() : simd8(zero()) {} + // Splat constructor + simdjson_really_inline simd8(int8_t _value) : simd8(splat(_value)) {} + // Array constructor + simdjson_really_inline simd8(const int8_t* values) : simd8(load(values)) {} + // Member-by-member initialization +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO + simdjson_really_inline simd8( + int8_t v0, int8_t v1, int8_t v2, int8_t v3, int8_t v4, int8_t v5, int8_t v6, int8_t v7, + int8_t v8, int8_t v9, int8_t v10, int8_t v11, int8_t v12, int8_t v13, int8_t v14, int8_t v15 + ) : simd8(make_int8x16_t( + v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10,v11,v12,v13,v14,v15 + )) {} +#else + simdjson_really_inline simd8( + int8_t v0, int8_t v1, int8_t v2, int8_t v3, int8_t v4, int8_t v5, int8_t v6, int8_t v7, + int8_t v8, int8_t v9, int8_t v10, int8_t v11, int8_t v12, int8_t v13, int8_t v14, int8_t v15 + ) : simd8(int8x16_t{ + v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10,v11,v12,v13,v14,v15 + }) {} +#endif + // Repeat 16 values as many times as necessary (usually for lookup tables) + simdjson_really_inline static simd8 repeat_16( + int8_t v0, int8_t v1, int8_t v2, int8_t v3, int8_t v4, int8_t v5, int8_t v6, int8_t v7, + int8_t v8, int8_t v9, int8_t v10, int8_t v11, int8_t v12, int8_t v13, int8_t v14, int8_t v15 + ) { + return simd8( + v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10,v11,v12,v13,v14,v15 + ); + } + + // Store to array + simdjson_really_inline void store(int8_t dst[16]) const { return vst1q_s8(dst, *this); } + + // Explicit conversion to/from unsigned + // + // Under Visual Studio/ARM64 uint8x16_t and int8x16_t are apparently the same type. + // In theory, we could check this occurence with std::same_as and std::enabled_if but it is C++14 + // and relatively ugly and hard to read. +#ifndef SIMDJSON_REGULAR_VISUAL_STUDIO + simdjson_really_inline explicit simd8(const uint8x16_t other): simd8(vreinterpretq_s8_u8(other)) {} +#endif + simdjson_really_inline explicit operator simd8() const { return vreinterpretq_u8_s8(this->value); } + + // Math + simdjson_really_inline simd8 operator+(const simd8 other) const { return vaddq_s8(*this, other); } + simdjson_really_inline simd8 operator-(const simd8 other) const { return vsubq_s8(*this, other); } + simdjson_really_inline simd8& operator+=(const simd8 other) { *this = *this + other; return *this; } + simdjson_really_inline simd8& operator-=(const simd8 other) { *this = *this - other; return *this; } + + // Order-sensitive comparisons + simdjson_really_inline simd8 max_val(const simd8 other) const { return vmaxq_s8(*this, other); } + simdjson_really_inline simd8 min_val(const simd8 other) const { return vminq_s8(*this, other); } + simdjson_really_inline simd8 operator>(const simd8 other) const { return vcgtq_s8(*this, other); } + simdjson_really_inline simd8 operator<(const simd8 other) const { return vcltq_s8(*this, other); } + simdjson_really_inline simd8 operator==(const simd8 other) const { return vceqq_s8(*this, other); } + + template + simdjson_really_inline simd8 prev(const simd8 prev_chunk) const { + return vextq_s8(prev_chunk, *this, 16 - N); + } + + // Perform a lookup assuming no value is larger than 16 + template + simdjson_really_inline simd8 lookup_16(simd8 lookup_table) const { + return lookup_table.apply_lookup_16_to(*this); + } + template + simdjson_really_inline simd8 lookup_16( + L replace0, L replace1, L replace2, L replace3, + L replace4, L replace5, L replace6, L replace7, + L replace8, L replace9, L replace10, L replace11, + L replace12, L replace13, L replace14, L replace15) const { + return lookup_16(simd8::repeat_16( + replace0, replace1, replace2, replace3, + replace4, replace5, replace6, replace7, + replace8, replace9, replace10, replace11, + replace12, replace13, replace14, replace15 + )); + } + + template + simdjson_really_inline simd8 apply_lookup_16_to(const simd8 original) { + return vqtbl1q_s8(*this, simd8(original)); + } + }; + + template + struct simd8x64 { + static constexpr int NUM_CHUNKS = 64 / sizeof(simd8); + static_assert(NUM_CHUNKS == 4, "ARM kernel should use four registers per 64-byte block."); + const simd8 chunks[NUM_CHUNKS]; + + simd8x64(const simd8x64& o) = delete; // no copy allowed + simd8x64& operator=(const simd8 other) = delete; // no assignment allowed + simd8x64() = delete; // no default constructor allowed + + simdjson_really_inline simd8x64(const simd8 chunk0, const simd8 chunk1, const simd8 chunk2, const simd8 chunk3) : chunks{chunk0, chunk1, chunk2, chunk3} {} + simdjson_really_inline simd8x64(const T ptr[64]) : chunks{simd8::load(ptr), simd8::load(ptr+16), simd8::load(ptr+32), simd8::load(ptr+48)} {} + + simdjson_really_inline void store(T ptr[64]) const { + this->chunks[0].store(ptr+sizeof(simd8)*0); + this->chunks[1].store(ptr+sizeof(simd8)*1); + this->chunks[2].store(ptr+sizeof(simd8)*2); + this->chunks[3].store(ptr+sizeof(simd8)*3); + } + + simdjson_really_inline simd8 reduce_or() const { + return (this->chunks[0] | this->chunks[1]) | (this->chunks[2] | this->chunks[3]); + } + + + simdjson_really_inline void compress(uint64_t mask, T * output) const { + this->chunks[0].compress(uint16_t(mask), output); + this->chunks[1].compress(uint16_t(mask >> 16), output + 16 - count_ones(mask & 0xFFFF)); + this->chunks[2].compress(uint16_t(mask >> 32), output + 32 - count_ones(mask & 0xFFFFFFFF)); + this->chunks[3].compress(uint16_t(mask >> 48), output + 48 - count_ones(mask & 0xFFFFFFFFFFFF)); + } + + simdjson_really_inline uint64_t to_bitmask() const { +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO + const uint8x16_t bit_mask = make_uint8x16_t( + 0x01, 0x02, 0x4, 0x8, 0x10, 0x20, 0x40, 0x80, + 0x01, 0x02, 0x4, 0x8, 0x10, 0x20, 0x40, 0x80 + ); +#else + const uint8x16_t bit_mask = { + 0x01, 0x02, 0x4, 0x8, 0x10, 0x20, 0x40, 0x80, + 0x01, 0x02, 0x4, 0x8, 0x10, 0x20, 0x40, 0x80 + }; +#endif + // Add each of the elements next to each other, successively, to stuff each 8 byte mask into one. + uint8x16_t sum0 = vpaddq_u8(this->chunks[0] & bit_mask, this->chunks[1] & bit_mask); + uint8x16_t sum1 = vpaddq_u8(this->chunks[2] & bit_mask, this->chunks[3] & bit_mask); + sum0 = vpaddq_u8(sum0, sum1); + sum0 = vpaddq_u8(sum0, sum0); + return vgetq_lane_u64(vreinterpretq_u64_u8(sum0), 0); + } + + simdjson_really_inline uint64_t eq(const T m) const { + const simd8 mask = simd8::splat(m); + return simd8x64( + this->chunks[0] == mask, + this->chunks[1] == mask, + this->chunks[2] == mask, + this->chunks[3] == mask + ).to_bitmask(); + } + + simdjson_really_inline uint64_t lteq(const T m) const { + const simd8 mask = simd8::splat(m); + return simd8x64( + this->chunks[0] <= mask, + this->chunks[1] <= mask, + this->chunks[2] <= mask, + this->chunks[3] <= mask + ).to_bitmask(); + } + }; // struct simd8x64 + +} // namespace simd +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson + +#endif // SIMDJSON_ARM64_SIMD_H +/* end file include/simdjson/arm64/simd.h */ +/* begin file include/simdjson/generic/jsoncharutils.h */ + +namespace simdjson { +namespace arm64 { +namespace { +namespace jsoncharutils { + +// return non-zero if not a structural or whitespace char +// zero otherwise +simdjson_really_inline uint32_t is_not_structural_or_whitespace(uint8_t c) { + return internal::structural_or_whitespace_negated[c]; +} + +simdjson_really_inline uint32_t is_structural_or_whitespace(uint8_t c) { + return internal::structural_or_whitespace[c]; +} + +// returns a value with the high 16 bits set if not valid +// otherwise returns the conversion of the 4 hex digits at src into the bottom +// 16 bits of the 32-bit return register +// +// see +// https://lemire.me/blog/2019/04/17/parsing-short-hexadecimal-strings-efficiently/ +static inline uint32_t hex_to_u32_nocheck( + const uint8_t *src) { // strictly speaking, static inline is a C-ism + uint32_t v1 = internal::digit_to_val32[630 + src[0]]; + uint32_t v2 = internal::digit_to_val32[420 + src[1]]; + uint32_t v3 = internal::digit_to_val32[210 + src[2]]; + uint32_t v4 = internal::digit_to_val32[0 + src[3]]; + return v1 | v2 | v3 | v4; +} + +// given a code point cp, writes to c +// the utf-8 code, outputting the length in +// bytes, if the length is zero, the code point +// is invalid +// +// This can possibly be made faster using pdep +// and clz and table lookups, but JSON documents +// have few escaped code points, and the following +// function looks cheap. +// +// Note: we assume that surrogates are treated separately +// +simdjson_really_inline size_t codepoint_to_utf8(uint32_t cp, uint8_t *c) { + if (cp <= 0x7F) { + c[0] = uint8_t(cp); + return 1; // ascii + } + if (cp <= 0x7FF) { + c[0] = uint8_t((cp >> 6) + 192); + c[1] = uint8_t((cp & 63) + 128); + return 2; // universal plane + // Surrogates are treated elsewhere... + //} //else if (0xd800 <= cp && cp <= 0xdfff) { + // return 0; // surrogates // could put assert here + } else if (cp <= 0xFFFF) { + c[0] = uint8_t((cp >> 12) + 224); + c[1] = uint8_t(((cp >> 6) & 63) + 128); + c[2] = uint8_t((cp & 63) + 128); + return 3; + } else if (cp <= 0x10FFFF) { // if you know you have a valid code point, this + // is not needed + c[0] = uint8_t((cp >> 18) + 240); + c[1] = uint8_t(((cp >> 12) & 63) + 128); + c[2] = uint8_t(((cp >> 6) & 63) + 128); + c[3] = uint8_t((cp & 63) + 128); + return 4; + } + // will return 0 when the code point was too large. + return 0; // bad r +} + +#ifdef SIMDJSON_IS_32BITS // _umul128 for x86, arm +// this is a slow emulation routine for 32-bit +// +static simdjson_really_inline uint64_t __emulu(uint32_t x, uint32_t y) { + return x * (uint64_t)y; +} +static simdjson_really_inline uint64_t _umul128(uint64_t ab, uint64_t cd, uint64_t *hi) { + uint64_t ad = __emulu((uint32_t)(ab >> 32), (uint32_t)cd); + uint64_t bd = __emulu((uint32_t)ab, (uint32_t)cd); + uint64_t adbc = ad + __emulu((uint32_t)ab, (uint32_t)(cd >> 32)); + uint64_t adbc_carry = !!(adbc < ad); + uint64_t lo = bd + (adbc << 32); + *hi = __emulu((uint32_t)(ab >> 32), (uint32_t)(cd >> 32)) + (adbc >> 32) + + (adbc_carry << 32) + !!(lo < bd); + return lo; +} +#endif + +using internal::value128; + +simdjson_really_inline value128 full_multiplication(uint64_t value1, uint64_t value2) { + value128 answer; +#if defined(SIMDJSON_REGULAR_VISUAL_STUDIO) || defined(SIMDJSON_IS_32BITS) +#ifdef _M_ARM64 + // ARM64 has native support for 64-bit multiplications, no need to emultate + answer.high = __umulh(value1, value2); + answer.low = value1 * value2; +#else + answer.low = _umul128(value1, value2, &answer.high); // _umul128 not available on ARM64 +#endif // _M_ARM64 +#else // defined(SIMDJSON_REGULAR_VISUAL_STUDIO) || defined(SIMDJSON_IS_32BITS) + __uint128_t r = ((__uint128_t)value1) * value2; + answer.low = uint64_t(r); + answer.high = uint64_t(r >> 64); +#endif + return answer; +} + +} // namespace jsoncharutils +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson +/* end file include/simdjson/generic/jsoncharutils.h */ +/* begin file include/simdjson/generic/atomparsing.h */ +namespace simdjson { +namespace arm64 { +namespace { +/// @private +namespace atomparsing { + +// The string_to_uint32 is exclusively used to map literal strings to 32-bit values. +// We use memcpy instead of a pointer cast to avoid undefined behaviors since we cannot +// be certain that the character pointer will be properly aligned. +// You might think that using memcpy makes this function expensive, but you'd be wrong. +// All decent optimizing compilers (GCC, clang, Visual Studio) will compile string_to_uint32("false"); +// to the compile-time constant 1936482662. +simdjson_really_inline uint32_t string_to_uint32(const char* str) { uint32_t val; std::memcpy(&val, str, sizeof(uint32_t)); return val; } + + +// Again in str4ncmp we use a memcpy to avoid undefined behavior. The memcpy may appear expensive. +// Yet all decent optimizing compilers will compile memcpy to a single instruction, just about. +simdjson_warn_unused +simdjson_really_inline uint32_t str4ncmp(const uint8_t *src, const char* atom) { + uint32_t srcval; // we want to avoid unaligned 32-bit loads (undefined in C/C++) + static_assert(sizeof(uint32_t) <= SIMDJSON_PADDING, "SIMDJSON_PADDING must be larger than 4 bytes"); + std::memcpy(&srcval, src, sizeof(uint32_t)); + return srcval ^ string_to_uint32(atom); +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_true_atom(const uint8_t *src) { + return (str4ncmp(src, "true") | jsoncharutils::is_not_structural_or_whitespace(src[4])) == 0; +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_true_atom(const uint8_t *src, size_t len) { + if (len > 4) { return is_valid_true_atom(src); } + else if (len == 4) { return !str4ncmp(src, "true"); } + else { return false; } +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_false_atom(const uint8_t *src) { + return (str4ncmp(src+1, "alse") | jsoncharutils::is_not_structural_or_whitespace(src[5])) == 0; +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_false_atom(const uint8_t *src, size_t len) { + if (len > 5) { return is_valid_false_atom(src); } + else if (len == 5) { return !str4ncmp(src+1, "alse"); } + else { return false; } +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_null_atom(const uint8_t *src) { + return (str4ncmp(src, "null") | jsoncharutils::is_not_structural_or_whitespace(src[4])) == 0; +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_null_atom(const uint8_t *src, size_t len) { + if (len > 4) { return is_valid_null_atom(src); } + else if (len == 4) { return !str4ncmp(src, "null"); } + else { return false; } +} + +} // namespace atomparsing +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson +/* end file include/simdjson/generic/atomparsing.h */ +/* begin file include/simdjson/arm64/stringparsing.h */ +#ifndef SIMDJSON_ARM64_STRINGPARSING_H +#define SIMDJSON_ARM64_STRINGPARSING_H + + +namespace simdjson { +namespace arm64 { +namespace { + +using namespace simd; + +// Holds backslashes and quotes locations. +struct backslash_and_quote { +public: + static constexpr uint32_t BYTES_PROCESSED = 32; + simdjson_really_inline static backslash_and_quote copy_and_find(const uint8_t *src, uint8_t *dst); + + simdjson_really_inline bool has_quote_first() { return ((bs_bits - 1) & quote_bits) != 0; } + simdjson_really_inline bool has_backslash() { return bs_bits != 0; } + simdjson_really_inline int quote_index() { return trailing_zeroes(quote_bits); } + simdjson_really_inline int backslash_index() { return trailing_zeroes(bs_bits); } + + uint32_t bs_bits; + uint32_t quote_bits; +}; // struct backslash_and_quote + +simdjson_really_inline backslash_and_quote backslash_and_quote::copy_and_find(const uint8_t *src, uint8_t *dst) { + // this can read up to 31 bytes beyond the buffer size, but we require + // SIMDJSON_PADDING of padding + static_assert(SIMDJSON_PADDING >= (BYTES_PROCESSED - 1), "backslash and quote finder must process fewer than SIMDJSON_PADDING bytes"); + simd8 v0(src); + simd8 v1(src + sizeof(v0)); + v0.store(dst); + v1.store(dst + sizeof(v0)); + + // Getting a 64-bit bitmask is much cheaper than multiple 16-bit bitmasks on ARM; therefore, we + // smash them together into a 64-byte mask and get the bitmask from there. + uint64_t bs_and_quote = simd8x64(v0 == '\\', v1 == '\\', v0 == '"', v1 == '"').to_bitmask(); + return { + uint32_t(bs_and_quote), // bs_bits + uint32_t(bs_and_quote >> 32) // quote_bits + }; +} + +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson + +/* begin file include/simdjson/generic/stringparsing.h */ +// This file contains the common code every implementation uses +// It is intended to be included multiple times and compiled multiple times + +namespace simdjson { +namespace arm64 { +namespace { +/// @private +namespace stringparsing { + +// begin copypasta +// These chars yield themselves: " \ / +// b -> backspace, f -> formfeed, n -> newline, r -> cr, t -> horizontal tab +// u not handled in this table as it's complex +static const uint8_t escape_map[256] = { + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 0x0. + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0x22, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x2f, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 0x4. + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0, 0, // 0x5. + 0, 0, 0x08, 0, 0, 0, 0x0c, 0, 0, 0, 0, 0, 0, 0, 0x0a, 0, // 0x6. + 0, 0, 0x0d, 0, 0x09, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 0x7. + + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, +}; + +// handle a unicode codepoint +// write appropriate values into dest +// src will advance 6 bytes or 12 bytes +// dest will advance a variable amount (return via pointer) +// return true if the unicode codepoint was valid +// We work in little-endian then swap at write time +simdjson_warn_unused +simdjson_really_inline bool handle_unicode_codepoint(const uint8_t **src_ptr, + uint8_t **dst_ptr) { + // jsoncharutils::hex_to_u32_nocheck fills high 16 bits of the return value with 1s if the + // conversion isn't valid; we defer the check for this to inside the + // multilingual plane check + uint32_t code_point = jsoncharutils::hex_to_u32_nocheck(*src_ptr + 2); + *src_ptr += 6; + // check for low surrogate for characters outside the Basic + // Multilingual Plane. + if (code_point >= 0xd800 && code_point < 0xdc00) { + if (((*src_ptr)[0] != '\\') || (*src_ptr)[1] != 'u') { + return false; + } + uint32_t code_point_2 = jsoncharutils::hex_to_u32_nocheck(*src_ptr + 2); + + // if the first code point is invalid we will get here, as we will go past + // the check for being outside the Basic Multilingual plane. If we don't + // find a \u immediately afterwards we fail out anyhow, but if we do, + // this check catches both the case of the first code point being invalid + // or the second code point being invalid. + if ((code_point | code_point_2) >> 16) { + return false; + } + + code_point = + (((code_point - 0xd800) << 10) | (code_point_2 - 0xdc00)) + 0x10000; + *src_ptr += 6; + } + size_t offset = jsoncharutils::codepoint_to_utf8(code_point, *dst_ptr); + *dst_ptr += offset; + return offset > 0; +} + +/** + * Unescape a string from src to dst, stopping at a final unescaped quote. E.g., if src points at 'joe"', then + * dst needs to have four free bytes. + */ +simdjson_warn_unused simdjson_really_inline uint8_t *parse_string(const uint8_t *src, uint8_t *dst) { + while (1) { + // Copy the next n bytes, and find the backslash and quote in them. + auto bs_quote = backslash_and_quote::copy_and_find(src, dst); + // If the next thing is the end quote, copy and return + if (bs_quote.has_quote_first()) { + // we encountered quotes first. Move dst to point to quotes and exit + return dst + bs_quote.quote_index(); + } + if (bs_quote.has_backslash()) { + /* find out where the backspace is */ + auto bs_dist = bs_quote.backslash_index(); + uint8_t escape_char = src[bs_dist + 1]; + /* we encountered backslash first. Handle backslash */ + if (escape_char == 'u') { + /* move src/dst up to the start; they will be further adjusted + within the unicode codepoint handling code. */ + src += bs_dist; + dst += bs_dist; + if (!handle_unicode_codepoint(&src, &dst)) { + return nullptr; + } + } else { + /* simple 1:1 conversion. Will eat bs_dist+2 characters in input and + * write bs_dist+1 characters to output + * note this may reach beyond the part of the buffer we've actually + * seen. I think this is ok */ + uint8_t escape_result = escape_map[escape_char]; + if (escape_result == 0u) { + return nullptr; /* bogus escape value is an error */ + } + dst[bs_dist] = escape_result; + src += bs_dist + 2; + dst += bs_dist + 1; + } + } else { + /* they are the same. Since they can't co-occur, it means we + * encountered neither. */ + src += backslash_and_quote::BYTES_PROCESSED; + dst += backslash_and_quote::BYTES_PROCESSED; + } + } + /* can't be reached */ + return nullptr; +} + +simdjson_unused simdjson_warn_unused simdjson_really_inline error_code parse_string_to_buffer(const uint8_t *src, uint8_t *¤t_string_buf_loc, std::string_view &s) { + if (*(src++) != '"') { return STRING_ERROR; } + auto end = stringparsing::parse_string(src, current_string_buf_loc); + if (!end) { return STRING_ERROR; } + s = std::string_view((const char *)current_string_buf_loc, end-current_string_buf_loc); + current_string_buf_loc = end; + return SUCCESS; +} + +} // namespace stringparsing +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson +/* end file include/simdjson/generic/stringparsing.h */ + +#endif // SIMDJSON_ARM64_STRINGPARSING_H +/* end file include/simdjson/arm64/stringparsing.h */ +/* begin file include/simdjson/arm64/numberparsing.h */ +#ifndef SIMDJSON_ARM64_NUMBERPARSING_H +#define SIMDJSON_ARM64_NUMBERPARSING_H + +namespace simdjson { +namespace arm64 { +namespace { + +// we don't have SSE, so let us use a scalar function +// credit: https://johnnylee-sde.github.io/Fast-numeric-string-to-int/ +static simdjson_really_inline uint32_t parse_eight_digits_unrolled(const uint8_t *chars) { + uint64_t val; + std::memcpy(&val, chars, sizeof(uint64_t)); + val = (val & 0x0F0F0F0F0F0F0F0F) * 2561 >> 8; + val = (val & 0x00FF00FF00FF00FF) * 6553601 >> 16; + return uint32_t((val & 0x0000FFFF0000FFFF) * 42949672960001 >> 32); +} + +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson + +#define SWAR_NUMBER_PARSING + +/* begin file include/simdjson/generic/numberparsing.h */ +#include + +namespace simdjson { +namespace arm64 { +namespace { +/// @private +namespace numberparsing { + + + +#ifdef JSON_TEST_NUMBERS +#define INVALID_NUMBER(SRC) (found_invalid_number((SRC)), NUMBER_ERROR) +#define WRITE_INTEGER(VALUE, SRC, WRITER) (found_integer((VALUE), (SRC)), (WRITER).append_s64((VALUE))) +#define WRITE_UNSIGNED(VALUE, SRC, WRITER) (found_unsigned_integer((VALUE), (SRC)), (WRITER).append_u64((VALUE))) +#define WRITE_DOUBLE(VALUE, SRC, WRITER) (found_float((VALUE), (SRC)), (WRITER).append_double((VALUE))) +#else +#define INVALID_NUMBER(SRC) (NUMBER_ERROR) +#define WRITE_INTEGER(VALUE, SRC, WRITER) (WRITER).append_s64((VALUE)) +#define WRITE_UNSIGNED(VALUE, SRC, WRITER) (WRITER).append_u64((VALUE)) +#define WRITE_DOUBLE(VALUE, SRC, WRITER) (WRITER).append_double((VALUE)) +#endif + +namespace { +// Convert a mantissa, an exponent and a sign bit into an ieee64 double. +// The real_exponent needs to be in [0, 2046] (technically real_exponent = 2047 would be acceptable). +// The mantissa should be in [0,1<<53). The bit at index (1ULL << 52) while be zeroed. +simdjson_really_inline double to_double(uint64_t mantissa, uint64_t real_exponent, bool negative) { + double d; + mantissa &= ~(1ULL << 52); + mantissa |= real_exponent << 52; + mantissa |= (((uint64_t)negative) << 63); + std::memcpy(&d, &mantissa, sizeof(d)); + return d; +} +} +// Attempts to compute i * 10^(power) exactly; and if "negative" is +// true, negate the result. +// This function will only work in some cases, when it does not work, success is +// set to false. This should work *most of the time* (like 99% of the time). +// We assume that power is in the [smallest_power, +// largest_power] interval: the caller is responsible for this check. +simdjson_really_inline bool compute_float_64(int64_t power, uint64_t i, bool negative, double &d) { + // we start with a fast path + // It was described in + // Clinger WD. How to read floating point numbers accurately. + // ACM SIGPLAN Notices. 1990 +#ifndef FLT_EVAL_METHOD +#error "FLT_EVAL_METHOD should be defined, please include cfloat." +#endif +#if (FLT_EVAL_METHOD != 1) && (FLT_EVAL_METHOD != 0) + // We cannot be certain that x/y is rounded to nearest. + if (0 <= power && power <= 22 && i <= 9007199254740991) { +#else + if (-22 <= power && power <= 22 && i <= 9007199254740991) { +#endif + // convert the integer into a double. This is lossless since + // 0 <= i <= 2^53 - 1. + d = double(i); + // + // The general idea is as follows. + // If 0 <= s < 2^53 and if 10^0 <= p <= 10^22 then + // 1) Both s and p can be represented exactly as 64-bit floating-point + // values + // (binary64). + // 2) Because s and p can be represented exactly as floating-point values, + // then s * p + // and s / p will produce correctly rounded values. + // + if (power < 0) { + d = d / simdjson::internal::power_of_ten[-power]; + } else { + d = d * simdjson::internal::power_of_ten[power]; + } + if (negative) { + d = -d; + } + return true; + } + // When 22 < power && power < 22 + 16, we could + // hope for another, secondary fast path. It was + // described by David M. Gay in "Correctly rounded + // binary-decimal and decimal-binary conversions." (1990) + // If you need to compute i * 10^(22 + x) for x < 16, + // first compute i * 10^x, if you know that result is exact + // (e.g., when i * 10^x < 2^53), + // then you can still proceed and do (i * 10^x) * 10^22. + // Is this worth your time? + // You need 22 < power *and* power < 22 + 16 *and* (i * 10^(x-22) < 2^53) + // for this second fast path to work. + // If you you have 22 < power *and* power < 22 + 16, and then you + // optimistically compute "i * 10^(x-22)", there is still a chance that you + // have wasted your time if i * 10^(x-22) >= 2^53. It makes the use cases of + // this optimization maybe less common than we would like. Source: + // http://www.exploringbinary.com/fast-path-decimal-to-floating-point-conversion/ + // also used in RapidJSON: https://rapidjson.org/strtod_8h_source.html + + // The fast path has now failed, so we are failing back on the slower path. + + // In the slow path, we need to adjust i so that it is > 1<<63 which is always + // possible, except if i == 0, so we handle i == 0 separately. + if(i == 0) { + d = 0.0; + return true; + } + + + // The exponent is 1024 + 63 + power + // + floor(log(5**power)/log(2)). + // The 1024 comes from the ieee64 standard. + // The 63 comes from the fact that we use a 64-bit word. + // + // Computing floor(log(5**power)/log(2)) could be + // slow. Instead we use a fast function. + // + // For power in (-400,350), we have that + // (((152170 + 65536) * power ) >> 16); + // is equal to + // floor(log(5**power)/log(2)) + power when power >= 0 + // and it is equal to + // ceil(log(5**-power)/log(2)) + power when power < 0 + // + // The 65536 is (1<<16) and corresponds to + // (65536 * power) >> 16 ---> power + // + // ((152170 * power ) >> 16) is equal to + // floor(log(5**power)/log(2)) + // + // Note that this is not magic: 152170/(1<<16) is + // approximatively equal to log(5)/log(2). + // The 1<<16 value is a power of two; we could use a + // larger power of 2 if we wanted to. + // + int64_t exponent = (((152170 + 65536) * power) >> 16) + 1024 + 63; + + + // We want the most significant bit of i to be 1. Shift if needed. + int lz = leading_zeroes(i); + i <<= lz; + + + // We are going to need to do some 64-bit arithmetic to get a precise product. + // We use a table lookup approach. + // It is safe because + // power >= smallest_power + // and power <= largest_power + // We recover the mantissa of the power, it has a leading 1. It is always + // rounded down. + // + // We want the most significant 64 bits of the product. We know + // this will be non-zero because the most significant bit of i is + // 1. + const uint32_t index = 2 * uint32_t(power - simdjson::internal::smallest_power); + // Optimization: It may be that materializing the index as a variable might confuse some compilers and prevent effective complex-addressing loads. (Done for code clarity.) + // + // The full_multiplication function computes the 128-bit product of two 64-bit words + // with a returned value of type value128 with a "low component" corresponding to the + // 64-bit least significant bits of the product and with a "high component" corresponding + // to the 64-bit most significant bits of the product. + simdjson::internal::value128 firstproduct = jsoncharutils::full_multiplication(i, simdjson::internal::power_of_five_128[index]); + // Both i and power_of_five_128[index] have their most significant bit set to 1 which + // implies that the either the most or the second most significant bit of the product + // is 1. We pack values in this manner for efficiency reasons: it maximizes the use + // we make of the product. It also makes it easy to reason aboutthe product: there + // 0 or 1 leading zero in the product. + + // Unless the least significant 9 bits of the high (64-bit) part of the full + // product are all 1s, then we know that the most significant 55 bits are + // exact and no further work is needed. Having 55 bits is necessary because + // we need 53 bits for the mantissa but we have to have one rounding bit and + // we can waste a bit if the most significant bit of the product is zero. + if((firstproduct.high & 0x1FF) == 0x1FF) { + // We want to compute i * 5^q, but only care about the top 55 bits at most. + // Consider the scenario where q>=0. Then 5^q may not fit in 64-bits. Doing + // the full computation is wasteful. So we do what is called a "truncated + // multiplication". + // We take the most significant 64-bits, and we put them in + // power_of_five_128[index]. Usually, that's good enough to approximate i * 5^q + // to the desired approximation using one multiplication. Sometimes it does not suffice. + // Then we store the next most significant 64 bits in power_of_five_128[index + 1], and + // then we get a better approximation to i * 5^q. In very rare cases, even that + // will not suffice, though it is seemingly very hard to find such a scenario. + // + // That's for when q>=0. The logic for q<0 is somewhat similar but it is somewhat + // more complicated. + // + // There is an extra layer of complexity in that we need more than 55 bits of + // accuracy in the round-to-even scenario. + // + // The full_multiplication function computes the 128-bit product of two 64-bit words + // with a returned value of type value128 with a "low component" corresponding to the + // 64-bit least significant bits of the product and with a "high component" corresponding + // to the 64-bit most significant bits of the product. + simdjson::internal::value128 secondproduct = jsoncharutils::full_multiplication(i, simdjson::internal::power_of_five_128[index + 1]); + firstproduct.low += secondproduct.high; + if(secondproduct.high > firstproduct.low) { firstproduct.high++; } + // At this point, we might need to add at most one to firstproduct, but this + // can only change the value of firstproduct.high if firstproduct.low is maximal. + if(simdjson_unlikely(firstproduct.low == 0xFFFFFFFFFFFFFFFF)) { + // This is very unlikely, but if so, we need to do much more work! + return false; + } + } + uint64_t lower = firstproduct.low; + uint64_t upper = firstproduct.high; + // The final mantissa should be 53 bits with a leading 1. + // We shift it so that it occupies 54 bits with a leading 1. + /////// + uint64_t upperbit = upper >> 63; + uint64_t mantissa = upper >> (upperbit + 9); + lz += int(1 ^ upperbit); + + // Here we have mantissa < (1<<54). + int64_t real_exponent = exponent - lz; + if (simdjson_unlikely(real_exponent <= 0)) { // we have a subnormal? + // Here have that real_exponent <= 0 so -real_exponent >= 0 + if(-real_exponent + 1 >= 64) { // if we have more than 64 bits below the minimum exponent, you have a zero for sure. + d = 0.0; + return true; + } + // next line is safe because -real_exponent + 1 < 0 + mantissa >>= -real_exponent + 1; + // Thankfully, we can't have both "round-to-even" and subnormals because + // "round-to-even" only occurs for powers close to 0. + mantissa += (mantissa & 1); // round up + mantissa >>= 1; + // There is a weird scenario where we don't have a subnormal but just. + // Suppose we start with 2.2250738585072013e-308, we end up + // with 0x3fffffffffffff x 2^-1023-53 which is technically subnormal + // whereas 0x40000000000000 x 2^-1023-53 is normal. Now, we need to round + // up 0x3fffffffffffff x 2^-1023-53 and once we do, we are no longer + // subnormal, but we can only know this after rounding. + // So we only declare a subnormal if we are smaller than the threshold. + real_exponent = (mantissa < (uint64_t(1) << 52)) ? 0 : 1; + d = to_double(mantissa, real_exponent, negative); + return true; + } + // We have to round to even. The "to even" part + // is only a problem when we are right in between two floats + // which we guard against. + // If we have lots of trailing zeros, we may fall right between two + // floating-point values. + // + // The round-to-even cases take the form of a number 2m+1 which is in (2^53,2^54] + // times a power of two. That is, it is right between a number with binary significand + // m and another number with binary significand m+1; and it must be the case + // that it cannot be represented by a float itself. + // + // We must have that w * 10 ^q == (2m+1) * 2^p for some power of two 2^p. + // Recall that 10^q = 5^q * 2^q. + // When q >= 0, we must have that (2m+1) is divible by 5^q, so 5^q <= 2^54. We have that + // 5^23 <= 2^54 and it is the last power of five to qualify, so q <= 23. + // When q<0, we have w >= (2m+1) x 5^{-q}. We must have that w<2^{64} so + // (2m+1) x 5^{-q} < 2^{64}. We have that 2m+1>2^{53}. Hence, we must have + // 2^{53} x 5^{-q} < 2^{64}. + // Hence we have 5^{-q} < 2^{11}$ or q>= -4. + // + // We require lower <= 1 and not lower == 0 because we could not prove that + // that lower == 0 is implied; but we could prove that lower <= 1 is a necessary and sufficient test. + if (simdjson_unlikely((lower <= 1) && (power >= -4) && (power <= 23) && ((mantissa & 3) == 1))) { + if((mantissa << (upperbit + 64 - 53 - 2)) == upper) { + mantissa &= ~1; // flip it so that we do not round up + } + } + + mantissa += mantissa & 1; + mantissa >>= 1; + + // Here we have mantissa < (1<<53), unless there was an overflow + if (mantissa >= (1ULL << 53)) { + ////////// + // This will happen when parsing values such as 7.2057594037927933e+16 + //////// + mantissa = (1ULL << 52); + real_exponent++; + } + mantissa &= ~(1ULL << 52); + // we have to check that real_exponent is in range, otherwise we bail out + if (simdjson_unlikely(real_exponent > 2046)) { + // We have an infinte value!!! We could actually throw an error here if we could. + return false; + } + d = to_double(mantissa, real_exponent, negative); + return true; +} + +// We call a fallback floating-point parser that might be slow. Note +// it will accept JSON numbers, but the JSON spec. is more restrictive so +// before you call parse_float_fallback, you need to have validated the input +// string with the JSON grammar. +// It will return an error (false) if the parsed number is infinite. +// The string parsing itself always succeeds. We know that there is at least +// one digit. +static bool parse_float_fallback(const uint8_t *ptr, double *outDouble) { + *outDouble = simdjson::internal::from_chars((const char *)ptr); + // We do not accept infinite values. + + // Detecting finite values in a portable manner is ridiculously hard, ideally + // we would want to do: + // return !std::isfinite(*outDouble); + // but that mysteriously fails under legacy/old libc++ libraries, see + // https://github.com/simdjson/simdjson/issues/1286 + // + // Therefore, fall back to this solution (the extra parens are there + // to handle that max may be a macro on windows). + return !(*outDouble > (std::numeric_limits::max)() || *outDouble < std::numeric_limits::lowest()); +} + +// check quickly whether the next 8 chars are made of digits +// at a glance, it looks better than Mula's +// http://0x80.pl/articles/swar-digits-validate.html +simdjson_really_inline bool is_made_of_eight_digits_fast(const uint8_t *chars) { + uint64_t val; + // this can read up to 7 bytes beyond the buffer size, but we require + // SIMDJSON_PADDING of padding + static_assert(7 <= SIMDJSON_PADDING, "SIMDJSON_PADDING must be bigger than 7"); + std::memcpy(&val, chars, 8); + // a branchy method might be faster: + // return (( val & 0xF0F0F0F0F0F0F0F0 ) == 0x3030303030303030) + // && (( (val + 0x0606060606060606) & 0xF0F0F0F0F0F0F0F0 ) == + // 0x3030303030303030); + return (((val & 0xF0F0F0F0F0F0F0F0) | + (((val + 0x0606060606060606) & 0xF0F0F0F0F0F0F0F0) >> 4)) == + 0x3333333333333333); +} + +template +error_code slow_float_parsing(simdjson_unused const uint8_t * src, W writer) { + double d; + if (parse_float_fallback(src, &d)) { + writer.append_double(d); + return SUCCESS; + } + return INVALID_NUMBER(src); +} + +template +NO_SANITIZE_UNDEFINED // We deliberately allow overflow here and check later +simdjson_really_inline bool parse_digit(const uint8_t c, I &i) { + const uint8_t digit = static_cast(c - '0'); + if (digit > 9) { + return false; + } + // PERF NOTE: multiplication by 10 is cheaper than arbitrary integer multiplication + i = 10 * i + digit; // might overflow, we will handle the overflow later + return true; +} + +simdjson_really_inline error_code parse_decimal(simdjson_unused const uint8_t *const src, const uint8_t *&p, uint64_t &i, int64_t &exponent) { + // we continue with the fiction that we have an integer. If the + // floating point number is representable as x * 10^z for some integer + // z that fits in 53 bits, then we will be able to convert back the + // the integer into a float in a lossless manner. + const uint8_t *const first_after_period = p; + +#ifdef SWAR_NUMBER_PARSING + // this helps if we have lots of decimals! + // this turns out to be frequent enough. + if (is_made_of_eight_digits_fast(p)) { + i = i * 100000000 + parse_eight_digits_unrolled(p); + p += 8; + } +#endif + // Unrolling the first digit makes a small difference on some implementations (e.g. westmere) + if (parse_digit(*p, i)) { ++p; } + while (parse_digit(*p, i)) { p++; } + exponent = first_after_period - p; + // Decimal without digits (123.) is illegal + if (exponent == 0) { + return INVALID_NUMBER(src); + } + return SUCCESS; +} + +simdjson_really_inline error_code parse_exponent(simdjson_unused const uint8_t *const src, const uint8_t *&p, int64_t &exponent) { + // Exp Sign: -123.456e[-]78 + bool neg_exp = ('-' == *p); + if (neg_exp || '+' == *p) { p++; } // Skip + as well + + // Exponent: -123.456e-[78] + auto start_exp = p; + int64_t exp_number = 0; + while (parse_digit(*p, exp_number)) { ++p; } + // It is possible for parse_digit to overflow. + // In particular, it could overflow to INT64_MIN, and we cannot do - INT64_MIN. + // Thus we *must* check for possible overflow before we negate exp_number. + + // Performance notes: it may seem like combining the two "simdjson_unlikely checks" below into + // a single simdjson_unlikely path would be faster. The reasoning is sound, but the compiler may + // not oblige and may, in fact, generate two distinct paths in any case. It might be + // possible to do uint64_t(p - start_exp - 1) >= 18 but it could end up trading off + // instructions for a simdjson_likely branch, an unconclusive gain. + + // If there were no digits, it's an error. + if (simdjson_unlikely(p == start_exp)) { + return INVALID_NUMBER(src); + } + // We have a valid positive exponent in exp_number at this point, except that + // it may have overflowed. + + // If there were more than 18 digits, we may have overflowed the integer. We have to do + // something!!!! + if (simdjson_unlikely(p > start_exp+18)) { + // Skip leading zeroes: 1e000000000000000000001 is technically valid and doesn't overflow + while (*start_exp == '0') { start_exp++; } + // 19 digits could overflow int64_t and is kind of absurd anyway. We don't + // support exponents smaller than -999,999,999,999,999,999 and bigger + // than 999,999,999,999,999,999. + // We can truncate. + // Note that 999999999999999999 is assuredly too large. The maximal ieee64 value before + // infinity is ~1.8e308. The smallest subnormal is ~5e-324. So, actually, we could + // truncate at 324. + // Note that there is no reason to fail per se at this point in time. + // E.g., 0e999999999999999999999 is a fine number. + if (p > start_exp+18) { exp_number = 999999999999999999; } + } + // At this point, we know that exp_number is a sane, positive, signed integer. + // It is <= 999,999,999,999,999,999. As long as 'exponent' is in + // [-8223372036854775808, 8223372036854775808], we won't overflow. Because 'exponent' + // is bounded in magnitude by the size of the JSON input, we are fine in this universe. + // To sum it up: the next line should never overflow. + exponent += (neg_exp ? -exp_number : exp_number); + return SUCCESS; +} + +simdjson_really_inline int significant_digits(const uint8_t * start_digits, int digit_count) { + // It is possible that the integer had an overflow. + // We have to handle the case where we have 0.0000somenumber. + const uint8_t *start = start_digits; + while ((*start == '0') || (*start == '.')) { + start++; + } + // we over-decrement by one when there is a '.' + return digit_count - int(start - start_digits); +} + +template +simdjson_really_inline error_code write_float(const uint8_t *const src, bool negative, uint64_t i, const uint8_t * start_digits, int digit_count, int64_t exponent, W &writer) { + // If we frequently had to deal with long strings of digits, + // we could extend our code by using a 128-bit integer instead + // of a 64-bit integer. However, this is uncommon in practice. + // + // 9999999999999999999 < 2**64 so we can accomodate 19 digits. + // If we have a decimal separator, then digit_count - 1 is the number of digits, but we + // may not have a decimal separator! + if (simdjson_unlikely(digit_count > 19 && significant_digits(start_digits, digit_count) > 19)) { + // Ok, chances are good that we had an overflow! + // this is almost never going to get called!!! + // we start anew, going slowly!!! + // This will happen in the following examples: + // 10000000000000000000000000000000000000000000e+308 + // 3.1415926535897932384626433832795028841971693993751 + // + // NOTE: This makes a *copy* of the writer and passes it to slow_float_parsing. This happens + // because slow_float_parsing is a non-inlined function. If we passed our writer reference to + // it, it would force it to be stored in memory, preventing the compiler from picking it apart + // and putting into registers. i.e. if we pass it as reference, it gets slow. + // This is what forces the skip_double, as well. + error_code error = slow_float_parsing(src, writer); + writer.skip_double(); + return error; + } + // NOTE: it's weird that the simdjson_unlikely() only wraps half the if, but it seems to get slower any other + // way we've tried: https://github.com/simdjson/simdjson/pull/990#discussion_r448497331 + // To future reader: we'd love if someone found a better way, or at least could explain this result! + if (simdjson_unlikely(exponent < simdjson::internal::smallest_power) || (exponent > simdjson::internal::largest_power)) { + // + // Important: smallest_power is such that it leads to a zero value. + // Observe that 18446744073709551615e-343 == 0, i.e. (2**64 - 1) e -343 is zero + // so something x 10^-343 goes to zero, but not so with something x 10^-342. + static_assert(simdjson::internal::smallest_power <= -342, "smallest_power is not small enough"); + // + if((exponent < simdjson::internal::smallest_power) || (i == 0)) { + WRITE_DOUBLE(0, src, writer); + return SUCCESS; + } else { // (exponent > largest_power) and (i != 0) + // We have, for sure, an infinite value and simdjson refuses to parse infinite values. + return INVALID_NUMBER(src); + } + } + double d; + if (!compute_float_64(exponent, i, negative, d)) { + // we are almost never going to get here. + if (!parse_float_fallback(src, &d)) { return INVALID_NUMBER(src); } + } + WRITE_DOUBLE(d, src, writer); + return SUCCESS; +} + +// for performance analysis, it is sometimes useful to skip parsing +#ifdef SIMDJSON_SKIPNUMBERPARSING + +template +simdjson_really_inline error_code parse_number(const uint8_t *const, W &writer) { + writer.append_s64(0); // always write zero + return SUCCESS; // always succeeds +} + +simdjson_unused simdjson_really_inline simdjson_result parse_unsigned(const uint8_t * const src) noexcept { return 0; } +simdjson_unused simdjson_really_inline simdjson_result parse_integer(const uint8_t * const src) noexcept { return 0; } +simdjson_unused simdjson_really_inline simdjson_result parse_double(const uint8_t * const src) noexcept { return 0; } + +#else + +// parse the number at src +// define JSON_TEST_NUMBERS for unit testing +// +// It is assumed that the number is followed by a structural ({,},],[) character +// or a white space character. If that is not the case (e.g., when the JSON +// document is made of a single number), then it is necessary to copy the +// content and append a space before calling this function. +// +// Our objective is accurate parsing (ULP of 0) at high speed. +template +simdjson_really_inline error_code parse_number(const uint8_t *const src, W &writer) { + + // + // Check for minus sign + // + bool negative = (*src == '-'); + const uint8_t *p = src + negative; + + // + // Parse the integer part. + // + // PERF NOTE: we don't use is_made_of_eight_digits_fast because large integers like 123456789 are rare + const uint8_t *const start_digits = p; + uint64_t i = 0; + while (parse_digit(*p, i)) { p++; } + + // If there were no digits, or if the integer starts with 0 and has more than one digit, it's an error. + int digit_count = int(p - start_digits); + if (digit_count == 0 || ('0' == *start_digits && digit_count > 1)) { return INVALID_NUMBER(src); } + + // + // Handle floats if there is a . or e (or both) + // + int64_t exponent = 0; + bool is_float = false; + if ('.' == *p) { + is_float = true; + ++p; + SIMDJSON_TRY( parse_decimal(src, p, i, exponent) ); + digit_count = int(p - start_digits); // used later to guard against overflows + } + if (('e' == *p) || ('E' == *p)) { + is_float = true; + ++p; + SIMDJSON_TRY( parse_exponent(src, p, exponent) ); + } + if (is_float) { + const bool clean_end = jsoncharutils::is_structural_or_whitespace(*p); + SIMDJSON_TRY( write_float(src, negative, i, start_digits, digit_count, exponent, writer) ); + if (!clean_end) { return INVALID_NUMBER(src); } + return SUCCESS; + } + + // The longest negative 64-bit number is 19 digits. + // The longest positive 64-bit number is 20 digits. + // We do it this way so we don't trigger this branch unless we must. + int longest_digit_count = negative ? 19 : 20; + if (digit_count > longest_digit_count) { return INVALID_NUMBER(src); } + if (digit_count == longest_digit_count) { + if (negative) { + // Anything negative above INT64_MAX+1 is invalid + if (i > uint64_t(INT64_MAX)+1) { return INVALID_NUMBER(src); } + WRITE_INTEGER(~i+1, src, writer); + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return INVALID_NUMBER(src); } + return SUCCESS; + // Positive overflow check: + // - A 20 digit number starting with 2-9 is overflow, because 18,446,744,073,709,551,615 is the + // biggest uint64_t. + // - A 20 digit number starting with 1 is overflow if it is less than INT64_MAX. + // If we got here, it's a 20 digit number starting with the digit "1". + // - If a 20 digit number starting with 1 overflowed (i*10+digit), the result will be smaller + // than 1,553,255,926,290,448,384. + // - That is smaller than the smallest possible 20-digit number the user could write: + // 10,000,000,000,000,000,000. + // - Therefore, if the number is positive and lower than that, it's overflow. + // - The value we are looking at is less than or equal to 9,223,372,036,854,775,808 (INT64_MAX). + // + } else if (src[0] != uint8_t('1') || i <= uint64_t(INT64_MAX)) { return INVALID_NUMBER(src); } + } + + // Write unsigned if it doesn't fit in a signed integer. + if (i > uint64_t(INT64_MAX)) { + WRITE_UNSIGNED(i, src, writer); + } else { + WRITE_INTEGER(negative ? (~i+1) : i, src, writer); + } + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return INVALID_NUMBER(src); } + return SUCCESS; +} + +// SAX functions +namespace { +// Parse any number from 0 to 18,446,744,073,709,551,615 +simdjson_unused simdjson_really_inline simdjson_result parse_unsigned(const uint8_t * const src) noexcept { + const uint8_t *p = src; + + // + // Parse the integer part. + // + // PERF NOTE: we don't use is_made_of_eight_digits_fast because large integers like 123456789 are rare + const uint8_t *const start_digits = p; + uint64_t i = 0; + while (parse_digit(*p, i)) { p++; } + + // If there were no digits, or if the integer starts with 0 and has more than one digit, it's an error. + int digit_count = int(p - start_digits); + if (digit_count == 0 || ('0' == *start_digits && digit_count > 1)) { return NUMBER_ERROR; } + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return NUMBER_ERROR; } + + // The longest positive 64-bit number is 20 digits. + // We do it this way so we don't trigger this branch unless we must. + if (digit_count > 20) { return NUMBER_ERROR; } + if (digit_count == 20) { + // Positive overflow check: + // - A 20 digit number starting with 2-9 is overflow, because 18,446,744,073,709,551,615 is the + // biggest uint64_t. + // - A 20 digit number starting with 1 is overflow if it is less than INT64_MAX. + // If we got here, it's a 20 digit number starting with the digit "1". + // - If a 20 digit number starting with 1 overflowed (i*10+digit), the result will be smaller + // than 1,553,255,926,290,448,384. + // - That is smaller than the smallest possible 20-digit number the user could write: + // 10,000,000,000,000,000,000. + // - Therefore, if the number is positive and lower than that, it's overflow. + // - The value we are looking at is less than or equal to 9,223,372,036,854,775,808 (INT64_MAX). + // + if (src[0] != uint8_t('1') || i <= uint64_t(INT64_MAX)) { return NUMBER_ERROR; } + } + + return i; +} + +// Parse any number from -9,223,372,036,854,775,808 to 9,223,372,036,854,775,807 +simdjson_unused simdjson_really_inline simdjson_result parse_integer(const uint8_t *src) noexcept { + // + // Check for minus sign + // + bool negative = (*src == '-'); + const uint8_t *p = src + negative; + + // + // Parse the integer part. + // + // PERF NOTE: we don't use is_made_of_eight_digits_fast because large integers like 123456789 are rare + const uint8_t *const start_digits = p; + uint64_t i = 0; + while (parse_digit(*p, i)) { p++; } + + // If there were no digits, or if the integer starts with 0 and has more than one digit, it's an error. + int digit_count = int(p - start_digits); + if (digit_count == 0 || ('0' == *start_digits && digit_count > 1)) { return NUMBER_ERROR; } + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return NUMBER_ERROR; } + + // The longest negative 64-bit number is 19 digits. + // The longest positive 64-bit number is 20 digits. + // We do it this way so we don't trigger this branch unless we must. + int longest_digit_count = negative ? 19 : 20; + if (digit_count > longest_digit_count) { return NUMBER_ERROR; } + if (digit_count == longest_digit_count) { + if(negative) { + // Anything negative above INT64_MAX+1 is invalid + if (i > uint64_t(INT64_MAX)+1) { return NUMBER_ERROR; } + return ~i+1; + + // Positive overflow check: + // - A 20 digit number starting with 2-9 is overflow, because 18,446,744,073,709,551,615 is the + // biggest uint64_t. + // - A 20 digit number starting with 1 is overflow if it is less than INT64_MAX. + // If we got here, it's a 20 digit number starting with the digit "1". + // - If a 20 digit number starting with 1 overflowed (i*10+digit), the result will be smaller + // than 1,553,255,926,290,448,384. + // - That is smaller than the smallest possible 20-digit number the user could write: + // 10,000,000,000,000,000,000. + // - Therefore, if the number is positive and lower than that, it's overflow. + // - The value we are looking at is less than or equal to 9,223,372,036,854,775,808 (INT64_MAX). + // + } else if (src[0] != uint8_t('1') || i <= uint64_t(INT64_MAX)) { return NUMBER_ERROR; } + } + + return negative ? (~i+1) : i; +} + +simdjson_unused simdjson_really_inline simdjson_result parse_double(const uint8_t * src) noexcept { + // + // Check for minus sign + // + bool negative = (*src == '-'); + src += negative; + + // + // Parse the integer part. + // + uint64_t i = 0; + const uint8_t *p = src; + p += parse_digit(*p, i); + bool leading_zero = (i == 0); + while (parse_digit(*p, i)) { p++; } + // no integer digits, or 0123 (zero must be solo) + if ( p == src || (leading_zero && p != src+1)) { return NUMBER_ERROR; } + + // + // Parse the decimal part. + // + int64_t exponent = 0; + bool overflow; + if (simdjson_likely(*p == '.')) { + p++; + const uint8_t *start_decimal_digits = p; + if (!parse_digit(*p, i)) { return NUMBER_ERROR; } // no decimal digits + p++; + while (parse_digit(*p, i)) { p++; } + exponent = -(p - start_decimal_digits); + + // Overflow check. More than 19 digits (minus the decimal) may be overflow. + overflow = p-src-1 > 19; + if (simdjson_unlikely(overflow && leading_zero)) { + // Skip leading 0.00000 and see if it still overflows + const uint8_t *start_digits = src + 2; + while (*start_digits == '0') { start_digits++; } + overflow = start_digits-src > 19; + } + } else { + overflow = p-src > 19; + } + + // + // Parse the exponent + // + if (*p == 'e' || *p == 'E') { + p++; + bool exp_neg = *p == '-'; + p += exp_neg || *p == '+'; + + uint64_t exp = 0; + const uint8_t *start_exp_digits = p; + while (parse_digit(*p, exp)) { p++; } + // no exp digits, or 20+ exp digits + if (p-start_exp_digits == 0 || p-start_exp_digits > 19) { return NUMBER_ERROR; } + + exponent += exp_neg ? 0-exp : exp; + } + + if (jsoncharutils::is_not_structural_or_whitespace(*p)) { return NUMBER_ERROR; } + + overflow = overflow || exponent < simdjson::internal::smallest_power || exponent > simdjson::internal::largest_power; + + // + // Assemble (or slow-parse) the float + // + double d; + if (simdjson_likely(!overflow)) { + if (compute_float_64(exponent, i, negative, d)) { return d; } + } + if (!parse_float_fallback(src-negative, &d)) { + return NUMBER_ERROR; + } + return d; +} +} //namespace {} +#endif // SIMDJSON_SKIPNUMBERPARSING + +} // namespace numberparsing +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson +/* end file include/simdjson/generic/numberparsing.h */ + +#endif // SIMDJSON_ARM64_NUMBERPARSING_H +/* end file include/simdjson/arm64/numberparsing.h */ +/* begin file include/simdjson/generic/implementation_simdjson_result_base.h */ +namespace simdjson { +namespace arm64 { + +// This is a near copy of include/error.h's implementation_simdjson_result_base, except it doesn't use std::pair +// so we can avoid inlining errors +// TODO reconcile these! +/** + * The result of a simdjson operation that could fail. + * + * Gives the option of reading error codes, or throwing an exception by casting to the desired result. + * + * This is a base class for implementations that want to add functions to the result type for + * chaining. + * + * Override like: + * + * struct simdjson_result : public internal::implementation_simdjson_result_base { + * simdjson_result() noexcept : internal::implementation_simdjson_result_base() {} + * simdjson_result(error_code error) noexcept : internal::implementation_simdjson_result_base(error) {} + * simdjson_result(T &&value) noexcept : internal::implementation_simdjson_result_base(std::forward(value)) {} + * simdjson_result(T &&value, error_code error) noexcept : internal::implementation_simdjson_result_base(value, error) {} + * // Your extra methods here + * } + * + * Then any method returning simdjson_result will be chainable with your methods. + */ +template +struct implementation_simdjson_result_base { + + /** + * Create a new empty result with error = UNINITIALIZED. + */ + simdjson_really_inline implementation_simdjson_result_base() noexcept = default; + + /** + * Create a new error result. + */ + simdjson_really_inline implementation_simdjson_result_base(error_code error) noexcept; + + /** + * Create a new successful result. + */ + simdjson_really_inline implementation_simdjson_result_base(T &&value) noexcept; + + /** + * Create a new result with both things (use if you don't want to branch when creating the result). + */ + simdjson_really_inline implementation_simdjson_result_base(T &&value, error_code error) noexcept; + + /** + * Move the value and the error to the provided variables. + * + * @param value The variable to assign the value to. May not be set if there is an error. + * @param error The variable to assign the error to. Set to SUCCESS if there is no error. + */ + simdjson_really_inline void tie(T &value, error_code &error) && noexcept; + + /** + * Move the value to the provided variable. + * + * @param value The variable to assign the value to. May not be set if there is an error. + */ + simdjson_really_inline error_code get(T &value) && noexcept; + + /** + * The error. + */ + simdjson_really_inline error_code error() const noexcept; + +#if SIMDJSON_EXCEPTIONS + + /** + * Get the result value. + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T& value() & noexcept(false); + + /** + * Take the result value (move it). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T&& value() && noexcept(false); + + /** + * Take the result value (move it). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T&& take_value() && noexcept(false); + + /** + * Cast to the value (will throw on error). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline operator T&&() && noexcept(false); + +#endif // SIMDJSON_EXCEPTIONS + + T first{}; + error_code second{UNINITIALIZED}; +}; // struct implementation_simdjson_result_base + +} // namespace arm64 +} // namespace simdjson +/* end file include/simdjson/generic/implementation_simdjson_result_base.h */ +/* begin file include/simdjson/generic/ondemand.h */ +namespace simdjson { +namespace arm64 { +/** + * A fast, simple, DOM-like interface that parses JSON as you use it. + * + * Designed for maximum speed and a lower memory profile. + */ +namespace ondemand { + +/** Represents the depth of a JSON value (number of nested arrays/objects). */ +using depth_t = int32_t; + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +/* begin file include/simdjson/generic/ondemand/token_position.h */ +namespace simdjson { +namespace arm64 { +namespace ondemand { + +/** @private Position in the JSON buffer indexes */ +using token_position = const uint32_t *; + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/token_position.h */ +/* begin file include/simdjson/generic/ondemand/logger.h */ +namespace simdjson { +namespace arm64 { +namespace ondemand { + +class json_iterator; +class value_iterator; + +namespace logger { + +#if SIMDJSON_VERBOSE_LOGGING + static constexpr const bool LOG_ENABLED = true; +#else + static constexpr const bool LOG_ENABLED = false; +#endif + +static simdjson_really_inline void log_headers() noexcept; +static simdjson_really_inline void log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept; +static simdjson_really_inline void log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept; +static simdjson_really_inline void log_event(const json_iterator &iter, const char *type, std::string_view detail="", int delta=0, int depth_delta=0) noexcept; +static simdjson_really_inline void log_value(const json_iterator &iter, const char *type, std::string_view detail="", int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_value(const json_iterator &iter, token_position index, depth_t depth, const char *type, std::string_view detail="") noexcept; +static simdjson_really_inline void log_start_value(const json_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_end_value(const json_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_error(const json_iterator &iter, const char *error, const char *detail="", int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_error(const json_iterator &iter, token_position index, depth_t depth, const char *error, const char *detail="") noexcept; + +static simdjson_really_inline void log_event(const value_iterator &iter, const char *type, std::string_view detail="", int delta=0, int depth_delta=0) noexcept; +static simdjson_really_inline void log_value(const value_iterator &iter, const char *type, std::string_view detail="", int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_start_value(const value_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_end_value(const value_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_error(const value_iterator &iter, const char *error, const char *detail="", int delta=-1, int depth_delta=0) noexcept; + +} // namespace logger +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/logger.h */ +/* begin file include/simdjson/generic/ondemand/raw_json_string.h */ + +namespace simdjson { +namespace arm64 { +namespace ondemand { + +class object; +class parser; +class json_iterator; + +/** + * A string escaped per JSON rules, terminated with quote ("). They are used to represent + * unescaped keys inside JSON documents. + * + * (In other words, a pointer to the beginning of a string, just after the start quote, inside a + * JSON file.) + * + * This class is deliberately simplistic and has little functionality. You can + * compare two raw_json_string instances, or compare a raw_json_string with a string_view, but + * that is pretty much all you can do. + * + * They originate typically from field instance which in turn represent key-value pairs from + * object instances. From a field instance, you get the raw_json_string instance by calling key(). + * You can, if you want a more usable string_view instance, call the unescaped_key() method + * on the field instance. + */ +class raw_json_string { +public: + /** + * Create a new invalid raw_json_string. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline raw_json_string() noexcept = default; + + /** + * Create a new invalid raw_json_string pointed at the given location in the JSON. + * + * The given location must be just *after* the beginning quote (") in the JSON file. + * + * It *must* be terminated by a ", and be a valid JSON string. + */ + simdjson_really_inline raw_json_string(const uint8_t * _buf) noexcept; + /** + * Get the raw pointer to the beginning of the string in the JSON (just after the "). + * + * It is possible for this function to return a null pointer if the instance + * has outlived its existence. + */ + simdjson_really_inline const char * raw() const noexcept; + +private: + /** + * This will set the inner pointer to zero, effectively making + * this instance unusable. + */ + simdjson_really_inline void consume() noexcept { buf = nullptr; } + + /** + * Checks whether the inner pointer is non-null and thus usable. + */ + simdjson_really_inline simdjson_warn_unused bool alive() const noexcept { return buf != nullptr; } + + /** + * Unescape this JSON string, replacing \\ with \, \n with newline, etc. + * + * ## IMPORTANT: string_view lifetime + * + * The string_view is only valid as long as the bytes in dst. + * + * @param dst A pointer to a buffer at least large enough to write this string as well as a \0. + * dst will be updated to the next unused location (just after the \0 written out at + * the end of this string). + * @return A string_view pointing at the unescaped string in dst + * @error STRING_ERROR if escapes are incorrect. + */ + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(uint8_t *&dst) const noexcept; + /** + * Unescape this JSON string, replacing \\ with \, \n with newline, etc. + * + * ## IMPORTANT: string_view lifetime + * + * The string_view is only valid until the next parse() call on the parser. + * + * @param iter A json_iterator, which contains a buffer where the string will be written. + */ + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(json_iterator &iter) const noexcept; + + const uint8_t * buf{}; + friend class object; + friend class field; + friend struct simdjson_result; +}; + +simdjson_unused simdjson_really_inline bool operator==(const raw_json_string &a, std::string_view b) noexcept; +simdjson_unused simdjson_really_inline bool operator==(std::string_view a, const raw_json_string &b) noexcept; +simdjson_unused simdjson_really_inline bool operator!=(const raw_json_string &a, std::string_view b) noexcept; +simdjson_unused simdjson_really_inline bool operator!=(std::string_view a, const raw_json_string &b) noexcept; + +simdjson_unused simdjson_really_inline std::ostream &operator<<(std::ostream &, const raw_json_string &) noexcept; + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public arm64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(arm64::ondemand::raw_json_string &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + simdjson_really_inline ~simdjson_result() noexcept = default; ///< @private + + simdjson_really_inline simdjson_result raw() const noexcept; + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(uint8_t *&dst) const noexcept; + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(arm64::ondemand::json_iterator &iter) const noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/raw_json_string.h */ +/* begin file include/simdjson/generic/ondemand/token_iterator.h */ +namespace simdjson { +namespace arm64 { +namespace ondemand { + +/** + * Iterates through JSON tokens (`{` `}` `[` `]` `,` `:` `""` `123` `true` `false` `null`) + * detected by stage 1. + * + * @private This is not intended for external use. + */ +class token_iterator { +public: + /** + * Create a new invalid token_iterator. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline token_iterator() noexcept = default; + simdjson_really_inline token_iterator(token_iterator &&other) noexcept = default; + simdjson_really_inline token_iterator &operator=(token_iterator &&other) noexcept = default; + simdjson_really_inline token_iterator(const token_iterator &other) noexcept = default; + simdjson_really_inline token_iterator &operator=(const token_iterator &other) noexcept = default; + + /** + * Advance to the next token (returning the current one). + * + * Does not check or update depth/expect_value. Caller is responsible for that. + */ + simdjson_really_inline const uint8_t *advance() noexcept; + + /** + * Get the JSON text for a given token (relative). + * + * This is not null-terminated; it is a view into the JSON. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = current token, + * 1 = next token, -1 = prev token. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(int32_t delta=0) const noexcept; + /** + * Get the maximum length of the JSON text for a given token. + * + * The length will include any whitespace at the end of the token. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = current token, + * 1 = next token, -1 = prev token. + */ + simdjson_really_inline uint32_t peek_length(int32_t delta=0) const noexcept; + + /** + * Get the JSON text for a given token. + * + * This is not null-terminated; it is a view into the JSON. + * + * @param position The position of the token. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(token_position position) const noexcept; + /** + * Get the maximum length of the JSON text for a given token. + * + * The length will include any whitespace at the end of the token. + * + * @param position The position of the token. + */ + simdjson_really_inline uint32_t peek_length(token_position position) const noexcept; + + /** + * Save the current index to be restored later. + */ + simdjson_really_inline token_position position() const noexcept; + /** + * Reset to a previously saved index. + */ + simdjson_really_inline void set_position(token_position target_checkpoint) noexcept; + + // NOTE: we don't support a full C++ iterator interface, because we expect people to make + // different calls to advance the iterator based on *their own* state. + + simdjson_really_inline bool operator==(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator!=(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator>(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator>=(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator<(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator<=(const token_iterator &other) const noexcept; + +protected: + simdjson_really_inline token_iterator(const uint8_t *buf, token_position index) noexcept; + + /** + * Get the index of the JSON text for a given token (relative). + * + * This is not null-terminated; it is a view into the JSON. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = current token, + * 1 = next token, -1 = prev token. + */ + simdjson_really_inline uint32_t peek_index(int32_t delta=0) const noexcept; + /** + * Get the index of the JSON text for a given token. + * + * This is not null-terminated; it is a view into the JSON. + * + * @param position The position of the token. + * + */ + simdjson_really_inline uint32_t peek_index(token_position position) const noexcept; + + const uint8_t *buf{}; + token_position index{}; + + friend class json_iterator; + friend class value_iterator; + friend class object; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept; +}; + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public arm64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(arm64::ondemand::token_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + simdjson_really_inline ~simdjson_result() noexcept = default; ///< @private +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/token_iterator.h */ +/* begin file include/simdjson/generic/ondemand/json_iterator.h */ +namespace simdjson { +namespace arm64 { +namespace ondemand { + +class document; +class object; +class array; +class value; +class raw_json_string; +class parser; + +/** + * Iterates through JSON tokens, keeping track of depth and string buffer. + * + * @private This is not intended for external use. + */ +class json_iterator { +protected: + token_iterator token{}; + ondemand::parser *parser{}; + /** + * Next free location in the string buffer. + * + * Used by raw_json_string::unescape() to have a place to unescape strings to. + */ + uint8_t *_string_buf_loc{}; + /** + * JSON error, if there is one. + * + * INCORRECT_TYPE and NO_SUCH_FIELD are *not* stored here, ever. + * + * PERF NOTE: we *hope* this will be elided into control flow, as it is only used (a) in the first + * iteration of the loop, or (b) for the final iteration after a missing comma is found in ++. If + * this is not elided, we should make sure it's at least not using up a register. Failing that, + * we should store it in document so there's only one of them. + */ + error_code error{SUCCESS}; + /** + * Depth of the current token in the JSON. + * + * - 0 = finished with document + * - 1 = document root value (could be [ or {, not yet known) + * - 2 = , or } inside root array/object + * - 3 = key or value inside root array/object. + */ + depth_t _depth{}; + +public: + simdjson_really_inline json_iterator() noexcept = default; + simdjson_really_inline json_iterator(json_iterator &&other) noexcept; + simdjson_really_inline json_iterator &operator=(json_iterator &&other) noexcept; + simdjson_really_inline json_iterator(const json_iterator &other) noexcept = delete; + simdjson_really_inline json_iterator &operator=(const json_iterator &other) noexcept = delete; + + /** + * Skips a JSON value, whether it is a scalar, array or object. + */ + simdjson_warn_unused simdjson_really_inline error_code skip_child(depth_t parent_depth) noexcept; + + /** + * Tell whether the iterator is still at the start + */ + simdjson_really_inline bool at_root() const noexcept; + + /** + * Get the root value iterator + */ + simdjson_really_inline token_position root_checkpoint() const noexcept; + + /** + * Assert if the iterator is not at the start + */ + simdjson_really_inline void assert_at_root() const noexcept; + + /** + * Tell whether the iterator is at the EOF mark + */ + simdjson_really_inline bool at_eof() const noexcept; + + /** + * Tell whether the iterator is live (has not been moved). + */ + simdjson_really_inline bool is_alive() const noexcept; + + /** + * Abandon this iterator, setting depth to 0 (as if the document is finished). + */ + simdjson_really_inline void abandon() noexcept; + + /** + * Advance the current token. + */ + simdjson_really_inline const uint8_t *advance() noexcept; + + /** + * Get the JSON text for a given token (relative). + * + * This is not null-terminated; it is a view into the JSON. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = next token, -1 = prev token. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(int32_t delta=0) const noexcept; + /** + * Get the maximum length of the JSON text for the current token (or relative). + * + * The length will include any whitespace at the end of the token. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = next token, -1 = prev token. + */ + simdjson_really_inline uint32_t peek_length(int32_t delta=0) const noexcept; + /** + * Get the JSON text for a given token. + * + * This is not null-terminated; it is a view into the JSON. + * + * @param index The position of the token to retrieve. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(token_position position) const noexcept; + /** + * Get the maximum length of the JSON text for the current token (or relative). + * + * The length will include any whitespace at the end of the token. + * + * @param index The position of the token to retrieve. + */ + simdjson_really_inline uint32_t peek_length(token_position position) const noexcept; + + /** + * Ascend one level. + * + * Validates that the depth - 1 == parent_depth. + * + * @param parent_depth the expected parent depth. + */ + simdjson_really_inline void ascend_to(depth_t parent_depth) noexcept; + + /** + * Descend one level. + * + * Validates that the new depth == child_depth. + * + * @param child_depth the expected child depth. + */ + simdjson_really_inline void descend_to(depth_t parent_depth) noexcept; + + /** + * Get current depth. + */ + simdjson_really_inline depth_t depth() const noexcept; + + /** + * Get current (writeable) location in the string buffer. + */ + simdjson_really_inline uint8_t *&string_buf_loc() noexcept; + + /** + * Report an error, preventing further iteration. + * + * @param error The error to report. Must not be SUCCESS, UNINITIALIZED, INCORRECT_TYPE, or NO_SUCH_FIELD. + * @param message An error message to report with the error. + */ + simdjson_really_inline error_code report_error(error_code error, const char *message) noexcept; + + /** + * Log error, but don't stop iteration. + * @param error The error to report. Must be INCORRECT_TYPE, or NO_SUCH_FIELD. + * @param message An error message to report with the error. + */ + simdjson_really_inline error_code optional_error(error_code error, const char *message) noexcept; + + template simdjson_warn_unused simdjson_really_inline bool copy_to_buffer(const uint8_t *json, uint32_t max_len, uint8_t (&tmpbuf)[N]) noexcept; + template simdjson_warn_unused simdjson_really_inline bool peek_to_buffer(uint8_t (&tmpbuf)[N]) noexcept; + template simdjson_warn_unused simdjson_really_inline bool advance_to_buffer(uint8_t (&tmpbuf)[N]) noexcept; + + simdjson_really_inline token_position position() const noexcept; + simdjson_really_inline void set_position(token_position target_checkpoint) noexcept; + +protected: + simdjson_really_inline json_iterator(const uint8_t *buf, ondemand::parser *parser) noexcept; + + friend class document; + friend class object; + friend class array; + friend class value; + friend class raw_json_string; + friend class parser; + friend class value_iterator; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept; +}; // json_iterator + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public arm64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(arm64::ondemand::json_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + + simdjson_really_inline simdjson_result() noexcept = default; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/json_iterator.h */ +/* begin file include/simdjson/generic/ondemand/value_iterator.h */ +namespace simdjson { +namespace arm64 { +namespace ondemand { + +class document; +class object; +class array; +class value; +class raw_json_string; +class parser; + +/** + * Iterates through a single JSON value at a particular depth. + * + * Does not keep track of the type of value: provides methods for objects, arrays and scalars and expects + * the caller to call the right ones. + * + * @private This is not intended for external use. + */ +class value_iterator { +protected: + /** The underlying JSON iterator */ + json_iterator *_json_iter{}; + /** The depth of this value */ + depth_t _depth{}; + /** + * The starting token index for this value + * + * PERF NOTE: this is a safety check; we expect this to be elided in release builds. + */ + token_position _start_position{}; + +public: + simdjson_really_inline value_iterator() noexcept = default; + + /** + * Denote that we're starting a document. + */ + simdjson_really_inline void start_document() noexcept; + + /** + * Skips a non-iterated or partially-iterated JSON value, whether it is a scalar, array or object. + * + * Optimized for scalars. + */ + simdjson_warn_unused simdjson_really_inline error_code skip_child() noexcept; + + /** + * Tell whether the iterator is at the EOF mark + */ + simdjson_really_inline bool at_eof() const noexcept; + + /** + * Tell whether the iterator is at the start of the value + */ + simdjson_really_inline bool at_start() const noexcept; + + /** + * Tell whether the value is open--if the value has not been used, or the array/object is still open. + */ + simdjson_really_inline bool is_open() const noexcept; + + /** + * Tell whether the value is at an object's first field (just after the {). + */ + simdjson_really_inline bool at_first_field() const noexcept; + + /** + * Abandon all iteration. + */ + simdjson_really_inline void abandon() noexcept; + + /** + * Get the child value as a value_iterator. + */ + simdjson_really_inline value_iterator child_value() const noexcept; + + /** + * Get the depth of this value. + */ + simdjson_really_inline depth_t depth() const noexcept; + + /** + * @addtogroup object Object iteration + * + * Methods to iterate and find object fields. These methods generally *assume* the value is + * actually an object; the caller is responsible for keeping track of that fact. + * + * @{ + */ + + /** + * Start an object iteration. + * + * @returns Whether the object had any fields (returns false for empty). + * @error INCORRECT_TYPE if there is no opening { + */ + simdjson_warn_unused simdjson_really_inline simdjson_result start_object() noexcept; + /** + * Check for an opening { and start an object iteration. + * + * @returns Whether the object had any fields (returns false for empty). + * @error INCORRECT_TYPE if there is no opening { + */ + simdjson_warn_unused simdjson_really_inline simdjson_result try_start_object() noexcept; + + /** + * Start an object iteration after the user has already checked and moved past the {. + * + * Does not move the iterator. + * + * @returns Whether the object had any fields (returns false for empty). + */ + simdjson_warn_unused simdjson_really_inline bool started_object() noexcept; + + /** + * Moves to the next field in an object. + * + * Looks for , and }. If } is found, the object is finished and the iterator advances past it. + * Otherwise, it advances to the next value. + * + * @return whether there is another field in the object. + * @error TAPE_ERROR If there is a comma missing between fields. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result has_next_field() noexcept; + + /** + * Get the current field's key. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result field_key() noexcept; + + /** + * Pass the : in the field and move to its value. + */ + simdjson_warn_unused simdjson_really_inline error_code field_value() noexcept; + + /** + * Find the next field with the given key. + * + * Assumes you have called next_field() or otherwise matched the previous value. + * + * This means the iterator must be sitting at the next key: + * + * ``` + * { "a": 1, "b": 2 } + * ^ + * ``` + * + * Key is *raw JSON,* meaning it will be matched against the verbatim JSON without attempting to + * unescape it. This works well for typical ASCII and UTF-8 keys (almost all of them), but may + * fail to match some keys with escapes (\u, \n, etc.). + */ + simdjson_warn_unused simdjson_really_inline error_code find_field(const std::string_view key) noexcept; + + /** + * Find the next field with the given key, *without* unescaping. This assumes object order: it + * will not find the field if it was already passed when looking for some *other* field. + * + * Assumes you have called next_field() or otherwise matched the previous value. + * + * This means the iterator must be sitting at the next key: + * + * ``` + * { "a": 1, "b": 2 } + * ^ + * ``` + * + * Key is *raw JSON,* meaning it will be matched against the verbatim JSON without attempting to + * unescape it. This works well for typical ASCII and UTF-8 keys (almost all of them), but may + * fail to match some keys with escapes (\u, \n, etc.). + */ + simdjson_warn_unused simdjson_really_inline simdjson_result find_field_raw(const std::string_view key) noexcept; + + /** + * Find the field with the given key without regard to order, and *without* unescaping. + * + * This is an unordered object lookup: if the field is not found initially, it will cycle around and scan from the beginning. + * + * Assumes you have called next_field() or otherwise matched the previous value. + * + * This means the iterator must be sitting at the next key: + * + * ``` + * { "a": 1, "b": 2 } + * ^ + * ``` + * + * Key is *raw JSON,* meaning it will be matched against the verbatim JSON without attempting to + * unescape it. This works well for typical ASCII and UTF-8 keys (almost all of them), but may + * fail to match some keys with escapes (\u, \n, etc.). + */ + simdjson_warn_unused simdjson_really_inline simdjson_result find_field_unordered_raw(const std::string_view key) noexcept; + + /** @} */ + + /** + * @addtogroup array Array iteration + * Methods to iterate over array elements. These methods generally *assume* the value is actually + * an object; the caller is responsible for keeping track of that fact. + * @{ + */ + + /** + * Check for an opening [ and start an array iteration. + * + * @param json A pointer to the potential [. + * @returns Whether the array had any elements (returns false for empty). + * @error INCORRECT_TYPE If there is no [. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result start_array() noexcept; + /** + * Check for an opening [ and start an array iteration. + * + * @returns Whether the array had any elements (returns false for empty). + * @error INCORRECT_TYPE If there is no [. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result try_start_array() noexcept; + + /** + * Start an array iteration after the user has already checked and moved past the [. + * + * Does not move the iterator. + * + * @returns Whether the array had any elements (returns false for empty). + */ + simdjson_warn_unused simdjson_really_inline bool started_array() noexcept; + + /** + * Moves to the next element in an array. + * + * Looks for , and ]. If ] is found, the array is finished and the iterator advances past it. + * Otherwise, it advances to the next value. + * + * @return Whether there is another element in the array. + * @error TAPE_ERROR If there is a comma missing between elements. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result has_next_element() noexcept; + + /** + * Get a child value iterator. + */ + simdjson_warn_unused simdjson_really_inline value_iterator child() const noexcept; + + /** @} */ + + /** + * @defgroup scalar Scalar values + * @addtogroup scalar + * @{ + */ + + simdjson_warn_unused simdjson_really_inline simdjson_result get_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_uint64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_int64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_double() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_bool() noexcept; + simdjson_really_inline bool is_null() noexcept; + + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_raw_json_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_uint64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_int64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_double() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_bool() noexcept; + simdjson_really_inline bool is_root_null() noexcept; + + simdjson_really_inline error_code error() const noexcept; + simdjson_really_inline uint8_t *&string_buf_loc() noexcept; + simdjson_really_inline const json_iterator &json_iter() const noexcept; + simdjson_really_inline json_iterator &json_iter() noexcept; + + /** @} */ + +protected: + simdjson_really_inline value_iterator(json_iterator *json_iter, depth_t depth, token_position start_index) noexcept; + + simdjson_really_inline bool parse_null(const uint8_t *json) const noexcept; + simdjson_really_inline simdjson_result parse_bool(const uint8_t *json) const noexcept; + + simdjson_really_inline const uint8_t *peek_scalar() const noexcept; + simdjson_really_inline uint32_t peek_scalar_length() const noexcept; + simdjson_really_inline const uint8_t *advance_scalar(const char *type) const noexcept; + simdjson_really_inline const uint8_t *advance_root_scalar(const char *type) const noexcept; + simdjson_really_inline const uint8_t *advance_non_root_scalar(const char *type) const noexcept; + + simdjson_really_inline error_code incorrect_type_error(const char *message) const noexcept; + + simdjson_really_inline bool is_at_start() const noexcept; + simdjson_really_inline void assert_at_start() const noexcept; + simdjson_really_inline void assert_at_root() const noexcept; + simdjson_really_inline void assert_at_child() const noexcept; + simdjson_really_inline void assert_at_next() const noexcept; + simdjson_really_inline void assert_at_non_root_start() const noexcept; + + friend class document; + friend class object; + friend class array; + friend class value; +}; // value_iterator + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public arm64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(arm64::ondemand::value_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value_iterator.h */ +/* begin file include/simdjson/generic/ondemand/array_iterator.h */ + +namespace simdjson { +namespace arm64 { +namespace ondemand { + +class array; +class value; +class document; + +/** + * A forward-only JSON array. + * + * This is an input_iterator, meaning: + * - It is forward-only + * - * must be called exactly once per element. + * - ++ must be called exactly once in between each * (*, ++, *, ++, * ...) + */ +class array_iterator { +public: + /** Create a new, invalid array iterator. */ + simdjson_really_inline array_iterator() noexcept = default; + + // + // Iterator interface + // + + /** + * Get the current element. + * + * Part of the std::iterator interface. + */ + simdjson_really_inline simdjson_result operator*() noexcept; // MUST ONLY BE CALLED ONCE PER ITERATION. + /** + * Check if we are at the end of the JSON. + * + * Part of the std::iterator interface. + * + * @return true if there are no more elements in the JSON array. + */ + simdjson_really_inline bool operator==(const array_iterator &) const noexcept; + /** + * Check if there are more elements in the JSON array. + * + * Part of the std::iterator interface. + * + * @return true if there are more elements in the JSON array. + */ + simdjson_really_inline bool operator!=(const array_iterator &) const noexcept; + /** + * Move to the next element. + * + * Part of the std::iterator interface. + */ + simdjson_really_inline array_iterator &operator++() noexcept; + +private: + value_iterator iter{}; + + simdjson_really_inline array_iterator(const value_iterator &iter) noexcept; + + friend class array; + friend class value; + friend struct simdjson_result; +}; + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public arm64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(arm64::ondemand::array_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + // + // Iterator interface + // + + simdjson_really_inline simdjson_result operator*() noexcept; // MUST ONLY BE CALLED ONCE PER ITERATION. + simdjson_really_inline bool operator==(const simdjson_result &) const noexcept; + simdjson_really_inline bool operator!=(const simdjson_result &) const noexcept; + simdjson_really_inline simdjson_result &operator++() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array_iterator.h */ +/* begin file include/simdjson/generic/ondemand/object_iterator.h */ + +namespace simdjson { +namespace arm64 { +namespace ondemand { + +class field; + +class object_iterator { +public: + /** + * Create a new invalid object_iterator. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline object_iterator() noexcept = default; + + // + // Iterator interface + // + + // Reads key and value, yielding them to the user. + // MUST ONLY BE CALLED ONCE PER ITERATION. + simdjson_really_inline simdjson_result operator*() noexcept; + // Assumes it's being compared with the end. true if depth < iter->depth. + simdjson_really_inline bool operator==(const object_iterator &) const noexcept; + // Assumes it's being compared with the end. true if depth >= iter->depth. + simdjson_really_inline bool operator!=(const object_iterator &) const noexcept; + // Checks for ']' and ',' + simdjson_really_inline object_iterator &operator++() noexcept; + +private: + /** + * The underlying JSON iterator. + * + * PERF NOTE: expected to be elided in favor of the parent document: this is set when the object + * is first used, and never changes afterwards. + */ + value_iterator iter{}; + + simdjson_really_inline object_iterator(const value_iterator &iter) noexcept; + friend struct simdjson_result; + friend class object; +}; + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public arm64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(arm64::ondemand::object_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + // + // Iterator interface + // + + // Reads key and value, yielding them to the user. + simdjson_really_inline simdjson_result operator*() noexcept; // MUST ONLY BE CALLED ONCE PER ITERATION. + // Assumes it's being compared with the end. true if depth < iter->depth. + simdjson_really_inline bool operator==(const simdjson_result &) const noexcept; + // Assumes it's being compared with the end. true if depth >= iter->depth. + simdjson_really_inline bool operator!=(const simdjson_result &) const noexcept; + // Checks for ']' and ',' + simdjson_really_inline simdjson_result &operator++() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object_iterator.h */ +/* begin file include/simdjson/generic/ondemand/array.h */ + +namespace simdjson { +namespace arm64 { +namespace ondemand { + +class value; +class document; + +/** + * A forward-only JSON array. + */ +class array { +public: + /** + * Create a new invalid array. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline array() noexcept = default; + + /** + * Begin array iteration. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline array_iterator begin() noexcept; + /** + * Sentinel representing the end of the array. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline array_iterator end() noexcept; + +protected: + /** + * Begin array iteration. + * + * @param iter The iterator. Must be where the initial [ is expected. Will be *moved* into the + * resulting array. + * @error INCORRECT_TYPE if the iterator is not at [. + */ + static simdjson_really_inline simdjson_result start(value_iterator &iter) noexcept; + /** + * Begin array iteration. + * + * @param iter The iterator. Must be where the initial [ is expected. Will be *moved* into the + * resulting array. + * @error INCORRECT_TYPE if the iterator is not at [. + */ + static simdjson_really_inline simdjson_result try_start(value_iterator &iter) noexcept; + /** + * Begin array iteration. + * + * This version of the method should be called after the initial [ has been verified, and is + * intended for use by switch statements that check the type of a value. + * + * @param iter The iterator. Must be after the initial [. Will be *moved* into the resulting array. + */ + static simdjson_really_inline array started(value_iterator &iter) noexcept; + + /** + * Create an array at the given Internal array creation. Call array::start() or array::started() instead of this. + * + * @param iter The iterator. Must either be at the start of the first element with iter.is_alive() + * == true, or past the [] with is_alive() == false if the array is empty. Will be *moved* + * into the resulting array. + */ + simdjson_really_inline array(const value_iterator &iter) noexcept; + + /** + * Iterator marking current position. + * + * iter.is_alive() == false indicates iteration is complete. + */ + value_iterator iter{}; + + friend class value; + friend struct simdjson_result; + friend struct simdjson_result; + friend class array_iterator; +}; + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public arm64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(arm64::ondemand::array &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result begin() noexcept; + simdjson_really_inline simdjson_result end() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array.h */ +/* begin file include/simdjson/generic/ondemand/document.h */ + +namespace simdjson { +namespace arm64 { +namespace ondemand { + +class parser; +class array; +class object; +class value; +class raw_json_string; +class array_iterator; + +/** + * A JSON document iteration. + * + * Used by tokens to get text, and string buffer location. + * + * You must keep the document around during iteration. + */ +class document { +public: + /** + * Create a new invalid document. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline document() noexcept = default; + simdjson_really_inline document(const document &other) noexcept = delete; + simdjson_really_inline document(document &&other) noexcept = default; + simdjson_really_inline document &operator=(const document &other) noexcept = delete; + simdjson_really_inline document &operator=(document &&other) noexcept = default; + + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @returns INCORRECT_TYPE If the JSON value is not an array. + */ + simdjson_really_inline simdjson_result get_array() & noexcept; + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @returns INCORRECT_TYPE If the JSON value is not an object. + */ + simdjson_really_inline simdjson_result get_object() & noexcept; + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline simdjson_result get_uint64() noexcept; + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline simdjson_result get_int64() noexcept; + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @returns INCORRECT_TYPE If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline simdjson_result get_double() noexcept; + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_string() noexcept; + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @returns INCORRECT_TYPE if the JSON value is not true or false. + */ + simdjson_really_inline simdjson_result get_bool() noexcept; + /** + * Checks if this JSON value is null. + * + * @returns Whether the value is null. + */ + simdjson_really_inline bool is_null() noexcept; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @returns A value of the given type, parsed from the JSON. + * @returns INCORRECT_TYPE If the JSON value is not the given type. + */ + template simdjson_really_inline simdjson_result get() & noexcept; + /** @overload template simdjson_result get() & noexcept */ + template simdjson_really_inline simdjson_result get() && noexcept; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @param out This is set to a value of the given type, parsed from the JSON. If there is an error, this may not be initialized. + * @returns INCORRECT_TYPE If the JSON value is not an object. + * @returns SUCCESS If the parse succeeded and the out parameter was set to the value. + */ + template simdjson_really_inline error_code get(T &out) & noexcept; + /** @overload template error_code get(T &out) & noexcept */ + template simdjson_really_inline error_code get(T &out) && noexcept; + +#if SIMDJSON_EXCEPTIONS + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an array. + */ + simdjson_really_inline operator array() & noexcept(false); + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an object. + */ + simdjson_really_inline operator object() & noexcept(false); + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline operator uint64_t() noexcept(false); + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline operator int64_t() noexcept(false); + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline operator double() noexcept(false); + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator std::string_view() noexcept(false); + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator raw_json_string() noexcept(false); + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not true or false. + */ + simdjson_really_inline operator bool() noexcept(false); +#endif + + /** + * Begin array iteration. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline simdjson_result begin() & noexcept; + /** + * Sentinel representing the end of the array. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline simdjson_result end() & noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + +protected: + simdjson_really_inline document(ondemand::json_iterator &&iter) noexcept; + simdjson_really_inline const uint8_t *text(uint32_t idx) const noexcept; + + simdjson_really_inline value_iterator resume_value_iterator() noexcept; + simdjson_really_inline value_iterator get_root_value_iterator() noexcept; + simdjson_really_inline value resume_value() noexcept; + simdjson_really_inline value get_root_value() noexcept; + static simdjson_really_inline document start(ondemand::json_iterator &&iter) noexcept; + + // + // Fields + // + json_iterator iter{}; ///< Current position in the document + static constexpr depth_t DOCUMENT_DEPTH = 0; ///< document depth is always 0 + + friend struct simdjson_result; + friend class array_iterator; + friend class value; + friend class ondemand::parser; + friend class object; + friend class array; + friend class field; + friend class token; +}; + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public arm64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(arm64::ondemand::document &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result get_array() & noexcept; + simdjson_really_inline simdjson_result get_object() & noexcept; + simdjson_really_inline simdjson_result get_uint64() noexcept; + simdjson_really_inline simdjson_result get_int64() noexcept; + simdjson_really_inline simdjson_result get_double() noexcept; + simdjson_really_inline simdjson_result get_string() noexcept; + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + simdjson_really_inline simdjson_result get_bool() noexcept; + simdjson_really_inline bool is_null() noexcept; + + template simdjson_really_inline simdjson_result get() & noexcept; + template simdjson_really_inline simdjson_result get() && noexcept; + + template simdjson_really_inline error_code get(T &out) & noexcept; + template simdjson_really_inline error_code get(T &out) && noexcept; + +#if SIMDJSON_EXCEPTIONS + simdjson_really_inline operator arm64::ondemand::array() & noexcept(false); + simdjson_really_inline operator arm64::ondemand::object() & noexcept(false); + simdjson_really_inline operator uint64_t() noexcept(false); + simdjson_really_inline operator int64_t() noexcept(false); + simdjson_really_inline operator double() noexcept(false); + simdjson_really_inline operator std::string_view() noexcept(false); + simdjson_really_inline operator arm64::ondemand::raw_json_string() noexcept(false); + simdjson_really_inline operator bool() noexcept(false); +#endif + + simdjson_really_inline simdjson_result begin() & noexcept; + simdjson_really_inline simdjson_result end() & noexcept; + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/document.h */ +/* begin file include/simdjson/generic/ondemand/value.h */ + +namespace simdjson { +namespace arm64 { +namespace ondemand { + +class array; +class document; +class field; +class object; +class raw_json_string; + +/** + * An ephemeral JSON value returned during iteration. + */ +class value { +public: + /** + * Create a new invalid value. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline value() noexcept = default; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @returns A value of the given type, parsed from the JSON. + * @returns INCORRECT_TYPE If the JSON value is not the given type. + */ + template simdjson_really_inline simdjson_result get() & noexcept; + /** @overload template simdjson_result get() & noexcept */ + template simdjson_really_inline simdjson_result get() && noexcept; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @param out This is set to a value of the given type, parsed from the JSON. If there is an error, this may not be initialized. + * @returns INCORRECT_TYPE If the JSON value is not an object. + * @returns SUCCESS If the parse succeeded and the out parameter was set to the value. + */ + template simdjson_really_inline error_code get(T &out) & noexcept; + /** @overload template error_code get(T &out) & noexcept */ + template simdjson_really_inline error_code get(T &out) && noexcept; + + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @returns INCORRECT_TYPE If the JSON value is not an array. + */ + simdjson_really_inline simdjson_result get_array() && noexcept; + /** @overload simdjson_really_inline operator get_array() && noexcept(false); */ + simdjson_really_inline simdjson_result get_array() & noexcept; + + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @returns INCORRECT_TYPE If the JSON value is not an object. + */ + simdjson_really_inline simdjson_result get_object() && noexcept; + /** @overload simdjson_really_inline operator object() && noexcept(false); */ + simdjson_really_inline simdjson_result get_object() & noexcept; + + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline simdjson_result get_uint64() noexcept; + + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline simdjson_result get_int64() noexcept; + + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @returns INCORRECT_TYPE If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline simdjson_result get_double() noexcept; + + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_string() noexcept; + + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @returns INCORRECT_TYPE if the JSON value is not true or false. + */ + simdjson_really_inline simdjson_result get_bool() noexcept; + + /** + * Checks if this JSON value is null. + * + * @returns Whether the value is null. + */ + simdjson_really_inline bool is_null() noexcept; + +#if SIMDJSON_EXCEPTIONS + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an array. + */ + simdjson_really_inline operator array() && noexcept(false); + /** @overload simdjson_really_inline operator array() && noexcept(false); */ + simdjson_really_inline operator array() & noexcept(false); + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an object. + */ + simdjson_really_inline operator object() && noexcept(false); + /** @overload simdjson_really_inline operator object() && noexcept(false); */ + simdjson_really_inline operator object() & noexcept(false); + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline operator uint64_t() noexcept(false); + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline operator int64_t() noexcept(false); + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline operator double() noexcept(false); + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator std::string_view() noexcept(false); + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator raw_json_string() noexcept(false); + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not true or false. + */ + simdjson_really_inline operator bool() noexcept(false); +#endif + + /** + * Begin array iteration. + * + * Part of the std::iterable interface. + * + * @returns INCORRECT_TYPE If the JSON value is not an array. + */ + simdjson_really_inline simdjson_result begin() & noexcept; + /** + * Sentinel representing the end of the array. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline simdjson_result end() & noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) && noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) && noexcept; + +protected: + /** + * Create a value. + */ + simdjson_really_inline value(const value_iterator &iter) noexcept; + + /** + * Skip this value, allowing iteration to continue. + */ + simdjson_really_inline void skip() noexcept; + + /** + * Start a value at the current position. + * + * (It should already be started; this is just a self-documentation method.) + */ + static simdjson_really_inline value start(const value_iterator &iter) noexcept; + + /** + * Resume a value. + */ + static simdjson_really_inline value resume(const value_iterator &iter) noexcept; + + /** + * Get the object, starting or resuming it as necessary + */ + simdjson_really_inline simdjson_result start_or_resume_object() & noexcept; + /** @overload simdjson_really_inline simdjson_result start_or_resume_object() & noexcept; */ + simdjson_really_inline simdjson_result start_or_resume_object() && noexcept; + + // simdjson_really_inline void log_value(const char *type) const noexcept; + // simdjson_really_inline void log_error(const char *message) const noexcept; + + value_iterator iter{}; + + friend class document; + friend class array_iterator; + friend class field; + friend class object; + friend struct simdjson_result; + friend struct simdjson_result; + friend struct simdjson_result; +}; + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public arm64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(arm64::ondemand::value &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result get_array() && noexcept; + simdjson_really_inline simdjson_result get_array() & noexcept; + + simdjson_really_inline simdjson_result get_object() && noexcept; + simdjson_really_inline simdjson_result get_object() & noexcept; + + simdjson_really_inline simdjson_result get_uint64() noexcept; + simdjson_really_inline simdjson_result get_int64() noexcept; + simdjson_really_inline simdjson_result get_double() noexcept; + simdjson_really_inline simdjson_result get_string() noexcept; + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + simdjson_really_inline simdjson_result get_bool() noexcept; + simdjson_really_inline bool is_null() noexcept; + + template simdjson_really_inline simdjson_result get() & noexcept; + template simdjson_really_inline simdjson_result get() && noexcept; + + template simdjson_really_inline error_code get(T &out) & noexcept; + template simdjson_really_inline error_code get(T &out) && noexcept; + +#if SIMDJSON_EXCEPTIONS + simdjson_really_inline operator arm64::ondemand::array() && noexcept(false); + simdjson_really_inline operator arm64::ondemand::array() & noexcept(false); + simdjson_really_inline operator arm64::ondemand::object() && noexcept(false); + simdjson_really_inline operator arm64::ondemand::object() & noexcept(false); + simdjson_really_inline operator uint64_t() noexcept(false); + simdjson_really_inline operator int64_t() noexcept(false); + simdjson_really_inline operator double() noexcept(false); + simdjson_really_inline operator std::string_view() noexcept(false); + simdjson_really_inline operator arm64::ondemand::raw_json_string() noexcept(false); + simdjson_really_inline operator bool() noexcept(false); +#endif + + simdjson_really_inline simdjson_result begin() & noexcept; + simdjson_really_inline simdjson_result end() & noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) && noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) && noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value.h */ +/* begin file include/simdjson/generic/ondemand/field.h */ + +namespace simdjson { +namespace arm64 { +namespace ondemand { + +/** + * A JSON field (key/value pair) in an object. + * + * Returned from object iteration. + * + * Extends from std::pair so you can use C++ algorithms that rely on pairs. + */ +class field : public std::pair { +public: + /** + * Create a new invalid field. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline field() noexcept; + + /** + * Get the key as a string_view (for higher speed, consider raw_key). + * We deliberately use a more cumbersome name (unescaped_key) to force users + * to think twice about using it. + * + * This consumes the key: once you have called unescaped_key(), you cannot + * call it again nor can you call key(). + */ + simdjson_really_inline simdjson_warn_unused simdjson_result unescaped_key() noexcept; + /** + * Get the key as a raw_json_string: this is fast and allows straight comparisons. + * We want this to be the default for most users. + */ + simdjson_really_inline raw_json_string key() const noexcept; + /** + * Get the field value. + */ + simdjson_really_inline ondemand::value &value() & noexcept; + /** + * @overload ondemand::value &ondemand::value() & noexcept + */ + simdjson_really_inline ondemand::value value() && noexcept; + +protected: + simdjson_really_inline field(raw_json_string key, ondemand::value &&value) noexcept; + static simdjson_really_inline simdjson_result start(value_iterator &parent_iter) noexcept; + static simdjson_really_inline simdjson_result start(const value_iterator &parent_iter, raw_json_string key) noexcept; + friend struct simdjson_result; + friend class object_iterator; +}; + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public arm64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(arm64::ondemand::field &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result unescaped_key() noexcept; + simdjson_really_inline simdjson_result key() noexcept; + simdjson_really_inline simdjson_result value() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/field.h */ +/* begin file include/simdjson/generic/ondemand/object.h */ + +namespace simdjson { +namespace arm64 { +namespace ondemand { + +/** + * A forward-only JSON object field iterator. + */ +class object { +public: + /** + * Create a new invalid object. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline object() noexcept = default; + + simdjson_really_inline object_iterator begin() noexcept; + simdjson_really_inline object_iterator end() noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; + +protected: + static simdjson_really_inline simdjson_result start(value_iterator &iter) noexcept; + static simdjson_really_inline simdjson_result try_start(value_iterator &iter) noexcept; + static simdjson_really_inline object started(value_iterator &iter) noexcept; + static simdjson_really_inline object resume(const value_iterator &iter) noexcept; + simdjson_really_inline object(const value_iterator &iter) noexcept; + + simdjson_warn_unused simdjson_really_inline error_code find_field_raw(const std::string_view key) noexcept; + + value_iterator iter{}; + + friend class value; + friend class document; + friend struct simdjson_result; +}; + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public arm64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(arm64::ondemand::object &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result begin() noexcept; + simdjson_really_inline simdjson_result end() noexcept; + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object.h */ +/* begin file include/simdjson/generic/ondemand/parser.h */ + +namespace simdjson { +namespace arm64 { +namespace ondemand { + +class array; +class object; +class value; +class raw_json_string; + +/** + * A JSON fragment iterator. + * + * This holds the actual iterator as well as the buffer for writing strings. + */ +class parser { +public: + /** + * Create a JSON parser. + * + * The new parser will have zero capacity. + */ + inline parser() noexcept = default; + + inline parser(parser &&other) noexcept = default; + simdjson_really_inline parser(const parser &other) = delete; + simdjson_really_inline parser &operator=(const parser &other) = delete; + + /** Deallocate the JSON parser. */ + inline ~parser() noexcept = default; + + /** + * Start iterating an on-demand JSON document. + * + * ondemand::parser parser; + * document doc = parser.iterate(json); + * + * ### IMPORTANT: Buffer Lifetime + * + * Because parsing is done while you iterate, you *must* keep the JSON buffer around at least as + * long as the document iteration. + * + * ### IMPORTANT: Document Lifetime + * + * Only one iteration at a time can happen per parser, and the parser *must* be kept alive during + * iteration to ensure intermediate buffers can be accessed. Any document must be destroyed before + * you call parse() again or destroy the parser. + * + * ### REQUIRED: Buffer Padding + * + * The buffer must have at least SIMDJSON_PADDING extra allocated bytes. It does not matter what + * those bytes are initialized to, as long as they are allocated. + * + * @param json The JSON to parse. + * + * @return The document, or an error: + * - MEMALLOC if realloc_if_needed the parser does not have enough capacity, and memory + * allocation fails. + * - EMPTY if the document is all whitespace. + * - UTF8_ERROR if the document is not valid UTF-8. + * - UNESCAPED_CHARS if a string contains control characters that must be escaped + * - UNCLOSED_STRING if there is an unclosed string in the document. + */ + simdjson_warn_unused simdjson_result iterate(const padded_string &json) & noexcept; + simdjson_warn_unused simdjson_result iterate(const simdjson_result &json) & noexcept; + simdjson_warn_unused simdjson_result iterate(padded_string &&json) & noexcept = delete; + simdjson_warn_unused simdjson_result iterate(const std::string_view &json) & noexcept = delete; + simdjson_warn_unused simdjson_result iterate(const std::string &json) & noexcept = delete; + /** + * @private + * + * Start iterating an on-demand JSON document. + * + * ondemand::parser parser; + * json_iterator doc = parser.iterate(json); + * + * ### IMPORTANT: Buffer Lifetime + * + * Because parsing is done while you iterate, you *must* keep the JSON buffer around at least as + * long as the document iteration. + * + * ### IMPORTANT: Document Lifetime + * + * Only one iteration at a time can happen per parser, and the parser *must* be kept alive during + * iteration to ensure intermediate buffers can be accessed. Any document must be destroyed before + * you call parse() again or destroy the parser. + * + * ### REQUIRED: Buffer Padding + * + * The buffer must have at least SIMDJSON_PADDING extra allocated bytes. It does not matter what + * those bytes are initialized to, as long as they are allocated. + * + * @param json The JSON to parse. + * + * @return The iterator, or an error: + * - MEMALLOC if realloc_if_needed the parser does not have enough capacity, and memory + * allocation fails. + * - EMPTY if the document is all whitespace. + * - UTF8_ERROR if the document is not valid UTF-8. + * - UNESCAPED_CHARS if a string contains control characters that must be escaped + * - UNCLOSED_STRING if there is an unclosed string in the document. + */ + simdjson_warn_unused simdjson_result iterate_raw(const padded_string &json) & noexcept; + +private: + /** @private [for benchmarking access] The implementation to use */ + std::unique_ptr dom_parser{}; + size_t _capacity{0}; + size_t _max_depth{0}; + std::unique_ptr string_buf{}; + + /** + * Ensure this parser has enough memory to process JSON documents up to `capacity` bytes in length + * and `max_depth` depth. + * + * @param capacity The new capacity. + * @param max_depth The new max_depth. Defaults to DEFAULT_MAX_DEPTH. + * @return The error, if there is one. + */ + simdjson_warn_unused error_code allocate(size_t capacity, size_t max_depth=DEFAULT_MAX_DEPTH) noexcept; + + friend class json_iterator; +}; + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public arm64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(arm64::ondemand::parser &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/parser.h */ +/* end file include/simdjson/generic/ondemand.h */ + +// Inline definitions +/* begin file include/simdjson/generic/implementation_simdjson_result_base-inl.h */ +namespace simdjson { +namespace arm64 { + +// +// internal::implementation_simdjson_result_base inline implementation +// + +template +simdjson_really_inline void implementation_simdjson_result_base::tie(T &value, error_code &error) && noexcept { + // on the clang compiler that comes with current macOS (Apple clang version 11.0.0), + // tie(width, error) = size["w"].get(); + // fails with "error: no viable overloaded '='"" + error = this->second; + if (!error) { + value = std::forward>(*this).first; + } +} + +template +simdjson_warn_unused simdjson_really_inline error_code implementation_simdjson_result_base::get(T &value) && noexcept { + error_code error; + std::forward>(*this).tie(value, error); + return error; +} + +template +simdjson_really_inline error_code implementation_simdjson_result_base::error() const noexcept { + return this->second; +} + +#if SIMDJSON_EXCEPTIONS + +template +simdjson_really_inline T& implementation_simdjson_result_base::value() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return this->first; +} + +template +simdjson_really_inline T&& implementation_simdjson_result_base::value() && noexcept(false) { + return std::forward>(*this).take_value(); +} + +template +simdjson_really_inline T&& implementation_simdjson_result_base::take_value() && noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return std::forward(this->first); +} + +template +simdjson_really_inline implementation_simdjson_result_base::operator T&&() && noexcept(false) { + return std::forward>(*this).take_value(); +} + +#endif // SIMDJSON_EXCEPTIONS + +template +simdjson_really_inline implementation_simdjson_result_base::implementation_simdjson_result_base(T &&value, error_code error) noexcept + : first{std::forward(value)}, second{error} {} +template +simdjson_really_inline implementation_simdjson_result_base::implementation_simdjson_result_base(error_code error) noexcept + : implementation_simdjson_result_base(T{}, error) {} +template +simdjson_really_inline implementation_simdjson_result_base::implementation_simdjson_result_base(T &&value) noexcept + : implementation_simdjson_result_base(std::forward(value), SUCCESS) {} + +} // namespace arm64 +} // namespace simdjson +/* end file include/simdjson/generic/implementation_simdjson_result_base-inl.h */ +/* begin file include/simdjson/generic/ondemand-inl.h */ +/* begin file include/simdjson/generic/ondemand/logger-inl.h */ +namespace simdjson { +namespace arm64 { +namespace ondemand { +namespace logger { + +static constexpr const char * DASHES = "----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------"; +static constexpr const int LOG_EVENT_LEN = 20; +static constexpr const int LOG_BUFFER_LEN = 30; +static constexpr const int LOG_SMALL_BUFFER_LEN = 10; +static int log_depth = 0; // Not threadsafe. Log only. + +// Helper to turn unprintable or newline characters into spaces +static simdjson_really_inline char printable_char(char c) { + if (c >= 0x20) { + return c; + } else { + return ' '; + } +} + +simdjson_really_inline void log_event(const json_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_line(iter, "", type, detail, delta, depth_delta); +} +simdjson_really_inline void log_value(const json_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_line(iter, "", type, detail, delta, depth_delta); +} +simdjson_really_inline void log_value(const json_iterator &iter, token_position index, depth_t depth, const char *type, std::string_view detail) noexcept { + log_line(iter, index, depth, "", type, detail); +} +simdjson_really_inline void log_start_value(const json_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_line(iter, "+", type, "", delta, depth_delta); + log_depth++; +} +simdjson_really_inline void log_end_value(const json_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_depth--; + log_line(iter, "-", type, "", delta, depth_delta); +} +simdjson_really_inline void log_error(const json_iterator &iter, const char *error, const char *detail, int delta, int depth_delta) noexcept { + log_line(iter, "ERROR: ", error, detail, delta, depth_delta); +} +simdjson_really_inline void log_error(const json_iterator &iter, token_position index, depth_t depth, const char *error, const char *detail) noexcept { + log_line(iter, index, depth, "ERROR: ", error, detail); +} + +simdjson_really_inline void log_event(const value_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_event(iter.json_iter(), type, detail, delta, depth_delta); +} +simdjson_really_inline void log_value(const value_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_value(iter.json_iter(), type, detail, delta, depth_delta); +} +simdjson_really_inline void log_start_value(const value_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_start_value(iter.json_iter(), type, delta, depth_delta); +} +simdjson_really_inline void log_end_value(const value_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_end_value(iter.json_iter(), type, delta, depth_delta); +} +simdjson_really_inline void log_error(const value_iterator &iter, const char *error, const char *detail, int delta, int depth_delta) noexcept { + log_error(iter.json_iter(), error, detail, delta, depth_delta); +} + +simdjson_really_inline void log_headers() noexcept { + log_depth = 0; + if (LOG_ENABLED) { + printf("\n"); + printf("| %-*s ", LOG_EVENT_LEN, "Event"); + printf("| %-*s ", LOG_BUFFER_LEN, "Buffer"); + printf("| %-*s ", LOG_SMALL_BUFFER_LEN, "Next"); + // printf("| %-*s ", 5, "Next#"); + printf("| %-*s ", 5, "Depth"); + printf("| Detail "); + printf("|\n"); + + printf("|%.*s", LOG_EVENT_LEN+2, DASHES); + printf("|%.*s", LOG_BUFFER_LEN+2, DASHES); + printf("|%.*s", LOG_SMALL_BUFFER_LEN+2, DASHES); + // printf("|%.*s", 5+2, DASHES); + printf("|%.*s", 5+2, DASHES); + printf("|--------"); + printf("|\n"); + fflush(stdout); + } +} + +simdjson_really_inline void log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept { + log_line(iter, iter.token.index+delta, depth_t(iter.depth()+depth_delta), title_prefix, title, detail); +} +simdjson_really_inline void log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept { + if (LOG_ENABLED) { + const int indent = depth*2; + const auto buf = iter.token.buf; + printf("| %*s%s%-*s ", + indent, "", + title_prefix, + LOG_EVENT_LEN - indent - int(strlen(title_prefix)), title + ); + { + // Print the current structural. + printf("| "); + auto current_structural = &buf[*index]; + for (int i=0;i raw_json_string::unescape(uint8_t *&dst) const noexcept { + uint8_t *end = stringparsing::parse_string(buf, dst); + if (!end) { return STRING_ERROR; } + std::string_view result((const char *)dst, end-dst); + dst = end; + return result; +} + +simdjson_really_inline simdjson_warn_unused simdjson_result raw_json_string::unescape(json_iterator &iter) const noexcept { + return unescape(iter.string_buf_loc()); +} + +simdjson_unused simdjson_really_inline bool operator==(const raw_json_string &a, std::string_view b) noexcept { + return !memcmp(a.raw(), b.data(), b.size()); +} + +simdjson_unused simdjson_really_inline bool operator==(std::string_view a, const raw_json_string &b) noexcept { + return b == a; +} + +simdjson_unused simdjson_really_inline bool operator!=(const raw_json_string &a, std::string_view b) noexcept { + return !(a == b); +} + +simdjson_unused simdjson_really_inline bool operator!=(std::string_view a, const raw_json_string &b) noexcept { + return !(a == b); +} + +simdjson_unused simdjson_really_inline std::ostream &operator<<(std::ostream &out, const raw_json_string &str) noexcept { + bool in_escape = false; + const char *s = str.raw(); + while (true) { + switch (*s) { + case '\\': in_escape = !in_escape; break; + case '"': if (in_escape) { in_escape = false; } else { return out; } break; + default: if (in_escape) { in_escape = false; } + } + out << *s; + s++; + } +} + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(arm64::ondemand::raw_json_string &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +simdjson_really_inline simdjson_result simdjson_result::raw() const noexcept { + if (error()) { return error(); } + return first.raw(); +} +simdjson_really_inline simdjson_warn_unused simdjson_result simdjson_result::unescape(uint8_t *&dst) const noexcept { + if (error()) { return error(); } + return first.unescape(dst); +} +simdjson_really_inline simdjson_warn_unused simdjson_result simdjson_result::unescape(arm64::ondemand::json_iterator &iter) const noexcept { + if (error()) { return error(); } + return first.unescape(iter); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/raw_json_string-inl.h */ +/* begin file include/simdjson/generic/ondemand/token_iterator-inl.h */ +namespace simdjson { +namespace arm64 { +namespace ondemand { + +simdjson_really_inline token_iterator::token_iterator(const uint8_t *_buf, token_position _index) noexcept + : buf{_buf}, index{_index} +{ +} + +simdjson_really_inline const uint8_t *token_iterator::advance() noexcept { + return &buf[*(index++)]; +} + +simdjson_really_inline const uint8_t *token_iterator::peek(token_position position) const noexcept { + return &buf[*position]; +} +simdjson_really_inline uint32_t token_iterator::peek_index(token_position position) const noexcept { + return *position; +} +simdjson_really_inline uint32_t token_iterator::peek_length(token_position position) const noexcept { + return *(position+1) - *position; +} + +simdjson_really_inline const uint8_t *token_iterator::peek(int32_t delta) const noexcept { + return &buf[*(index+delta)]; +} +simdjson_really_inline uint32_t token_iterator::peek_index(int32_t delta) const noexcept { + return *(index+delta); +} +simdjson_really_inline uint32_t token_iterator::peek_length(int32_t delta) const noexcept { + return *(index+delta+1) - *(index+delta); +} + +simdjson_really_inline token_position token_iterator::position() const noexcept { + return index; +} +simdjson_really_inline void token_iterator::set_position(token_position target_checkpoint) noexcept { + index = target_checkpoint; +} + +simdjson_really_inline bool token_iterator::operator==(const token_iterator &other) const noexcept { + return index == other.index; +} +simdjson_really_inline bool token_iterator::operator!=(const token_iterator &other) const noexcept { + return index != other.index; +} +simdjson_really_inline bool token_iterator::operator>(const token_iterator &other) const noexcept { + return index > other.index; +} +simdjson_really_inline bool token_iterator::operator>=(const token_iterator &other) const noexcept { + return index >= other.index; +} +simdjson_really_inline bool token_iterator::operator<(const token_iterator &other) const noexcept { + return index < other.index; +} +simdjson_really_inline bool token_iterator::operator<=(const token_iterator &other) const noexcept { + return index <= other.index; +} + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(arm64::ondemand::token_iterator &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/token_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/json_iterator-inl.h */ +namespace simdjson { +namespace arm64 { +namespace ondemand { + +simdjson_really_inline json_iterator::json_iterator(json_iterator &&other) noexcept + : token(std::forward(other.token)), + parser{other.parser}, + _string_buf_loc{other._string_buf_loc}, + _depth{other._depth} +{ + other.parser = nullptr; +} +simdjson_really_inline json_iterator &json_iterator::operator=(json_iterator &&other) noexcept { + token = other.token; + parser = other.parser; + _string_buf_loc = other._string_buf_loc; + _depth = other._depth; + other.parser = nullptr; + return *this; +} + +simdjson_really_inline json_iterator::json_iterator(const uint8_t *buf, ondemand::parser *_parser) noexcept + : token(buf, _parser->dom_parser->structural_indexes.get()), + parser{_parser}, + _string_buf_loc{parser->string_buf.get()}, + _depth{1} +{ + // Release the string buf so it can be reused by the next document + logger::log_headers(); +} + +// GCC 7 warns when the first line of this function is inlined away into oblivion due to the caller +// relating depth and parent_depth, which is a desired effect. The warning does not show up if the +// skip_child() function is not marked inline). +SIMDJSON_PUSH_DISABLE_WARNINGS +SIMDJSON_DISABLE_STRICT_OVERFLOW_WARNING +simdjson_warn_unused simdjson_really_inline error_code json_iterator::skip_child(depth_t parent_depth) noexcept { + if (depth() <= parent_depth) { return SUCCESS; } + + switch (*advance()) { + // TODO consider whether matching braces is a requirement: if non-matching braces indicates + // *missing* braces, then future lookups are not in the object/arrays they think they are, + // violating the rule "validate enough structure that the user can be confident they are + // looking at the right values." + // PERF TODO we can eliminate the switch here with a lookup of how much to add to depth + + // For the first open array/object in a value, we've already incremented depth, so keep it the same + // We never stop at colon, but if we did, it wouldn't affect depth + case '[': case '{': case ':': + logger::log_start_value(*this, "skip"); + break; + // If there is a comma, we have just finished a value in an array/object, and need to get back in + case ',': + logger::log_value(*this, "skip"); + break; + // ] or } means we just finished a value and need to jump out of the array/object + case ']': case '}': + logger::log_end_value(*this, "skip"); + _depth--; + if (depth() <= parent_depth) { return SUCCESS; } + break; + // Anything else must be a scalar value + default: + // For the first scalar, we will have incremented depth already, so we decrement it here. + logger::log_value(*this, "skip"); + _depth--; + if (depth() <= parent_depth) { return SUCCESS; } + break; + } + + // Now that we've considered the first value, we only increment/decrement for arrays/objects + auto end = &parser->dom_parser->structural_indexes[parser->dom_parser->n_structural_indexes]; + while (token.index <= end) { + switch (*advance()) { + case '[': case '{': + logger::log_start_value(*this, "skip"); + _depth++; + break; + // TODO consider whether matching braces is a requirement: if non-matching braces indicates + // *missing* braces, then future lookups are not in the object/arrays they think they are, + // violating the rule "validate enough structure that the user can be confident they are + // looking at the right values." + // PERF TODO we can eliminate the switch here with a lookup of how much to add to depth + case ']': case '}': + logger::log_end_value(*this, "skip"); + _depth--; + if (depth() <= parent_depth) { return SUCCESS; } + break; + default: + logger::log_value(*this, "skip", ""); + break; + } + } + + return report_error(TAPE_ERROR, "not enough close braces"); +} + +SIMDJSON_POP_DISABLE_WARNINGS + +simdjson_really_inline bool json_iterator::at_root() const noexcept { + return token.position() == root_checkpoint(); +} + +simdjson_really_inline token_position json_iterator::root_checkpoint() const noexcept { + return parser->dom_parser->structural_indexes.get(); +} + +simdjson_really_inline void json_iterator::assert_at_root() const noexcept { + SIMDJSON_ASSUME( _depth == 1 ); + // Visual Studio Clang treats unique_ptr.get() as "side effecting." +#ifndef SIMDJSON_CLANG_VISUAL_STUDIO + SIMDJSON_ASSUME( token.index == parser->dom_parser->structural_indexes.get() ); +#endif +} + +simdjson_really_inline bool json_iterator::at_eof() const noexcept { + return token.index == &parser->dom_parser->structural_indexes[parser->dom_parser->n_structural_indexes]; +} + +simdjson_really_inline bool json_iterator::is_alive() const noexcept { + return parser; +} + +simdjson_really_inline void json_iterator::abandon() noexcept { + parser = nullptr; + _depth = 0; +} + +simdjson_really_inline const uint8_t *json_iterator::advance() noexcept { + return token.advance(); +} + +simdjson_really_inline const uint8_t *json_iterator::peek(int32_t delta) const noexcept { + return token.peek(delta); +} + +simdjson_really_inline uint32_t json_iterator::peek_length(int32_t delta) const noexcept { + return token.peek_length(delta); +} + +simdjson_really_inline const uint8_t *json_iterator::peek(token_position position) const noexcept { + return token.peek(position); +} + +simdjson_really_inline uint32_t json_iterator::peek_length(token_position position) const noexcept { + return token.peek_length(position); +} + +simdjson_really_inline void json_iterator::ascend_to(depth_t parent_depth) noexcept { + SIMDJSON_ASSUME(parent_depth >= 0 && parent_depth < INT32_MAX - 1); + SIMDJSON_ASSUME(_depth == parent_depth + 1); + _depth = parent_depth; +} + +simdjson_really_inline void json_iterator::descend_to(depth_t child_depth) noexcept { + SIMDJSON_ASSUME(child_depth >= 1 && child_depth < INT32_MAX); + SIMDJSON_ASSUME(_depth == child_depth - 1); + _depth = child_depth; +} + +simdjson_really_inline depth_t json_iterator::depth() const noexcept { + return _depth; +} + +simdjson_really_inline uint8_t *&json_iterator::string_buf_loc() noexcept { + return _string_buf_loc; +} + +simdjson_really_inline error_code json_iterator::report_error(error_code _error, const char *message) noexcept { + SIMDJSON_ASSUME(_error != SUCCESS && _error != UNINITIALIZED && _error != INCORRECT_TYPE && _error != NO_SUCH_FIELD); + logger::log_error(*this, message); + error = _error; + return error; +} + +simdjson_really_inline token_position json_iterator::position() const noexcept { + return token.position(); +} +simdjson_really_inline void json_iterator::set_position(token_position target_checkpoint) noexcept { + token.set_position(target_checkpoint); +} + + +simdjson_really_inline error_code json_iterator::optional_error(error_code _error, const char *message) noexcept { + SIMDJSON_ASSUME(_error == INCORRECT_TYPE || _error == NO_SUCH_FIELD); + logger::log_error(*this, message); + return _error; +} + +template +simdjson_warn_unused simdjson_really_inline bool json_iterator::copy_to_buffer(const uint8_t *json, uint32_t max_len, uint8_t (&tmpbuf)[N]) noexcept { + // Truncate whitespace to fit the buffer. + if (max_len > N-1) { + if (jsoncharutils::is_not_structural_or_whitespace(json[N-1])) { return false; } + max_len = N-1; + } + + // Copy to the buffer. + std::memcpy(tmpbuf, json, max_len); + tmpbuf[max_len] = ' '; + return true; +} + +template +simdjson_warn_unused simdjson_really_inline bool json_iterator::peek_to_buffer(uint8_t (&tmpbuf)[N]) noexcept { + auto max_len = token.peek_length(); + auto json = token.peek(); + return copy_to_buffer(json, max_len, tmpbuf); +} + +template +simdjson_warn_unused simdjson_really_inline bool json_iterator::advance_to_buffer(uint8_t (&tmpbuf)[N]) noexcept { + auto max_len = peek_length(); + auto json = advance(); + return copy_to_buffer(json, max_len, tmpbuf); +} + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(arm64::ondemand::json_iterator &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/json_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/value_iterator-inl.h */ +namespace simdjson { +namespace arm64 { +namespace ondemand { + +simdjson_really_inline value_iterator::value_iterator(json_iterator *json_iter, depth_t depth, token_position start_index) noexcept + : _json_iter{json_iter}, + _depth{depth}, + _start_position{start_index} +{ +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::start_object() noexcept { + assert_at_start(); + + if (*_json_iter->advance() != '{') { logger::log_error(*_json_iter, "Not an object"); return INCORRECT_TYPE; } + return started_object(); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::try_start_object() noexcept { + assert_at_start(); + + if (*_json_iter->peek() != '{') { logger::log_error(*_json_iter, "Not an object"); return INCORRECT_TYPE; } + _json_iter->advance(); + return started_object(); +} + +simdjson_warn_unused simdjson_really_inline bool value_iterator::started_object() noexcept { + if (*_json_iter->peek() == '}') { + logger::log_value(*_json_iter, "empty object"); + _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return false; + } + _json_iter->descend_to(depth()+1); + logger::log_start_value(*_json_iter, "object"); + return true; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::has_next_field() noexcept { + assert_at_next(); + + switch (*_json_iter->advance()) { + case '}': + logger::log_end_value(*_json_iter, "object"); + _json_iter->ascend_to(depth()-1); + return false; + case ',': + _json_iter->descend_to(depth()+1); + return true; + default: + return _json_iter->report_error(TAPE_ERROR, "Missing comma between object fields"); + } +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::find_field_raw(const std::string_view key) noexcept { + error_code error; + bool has_value; + + // + // Initially, the object can be in one of a few different places: + // + // 1. The start of the object, at the first field: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2, index 1) + // ``` + // + // 2. When a previous search did not yield a value or the object is empty: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 0) + // { } + // ^ (depth 0, index 2) + // ``` + // + if (!is_open()) { return false; } + if (at_first_field()) { + has_value = true; + + // 3. When a previous search found a field or an iterator yielded a value: + // + // ``` + // // When a field was not fully consumed (or not even touched at all) + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2) + // // When a field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // // When the last field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // ``` + // + } else { + if ((error = skip_child() )) { abandon(); return error; } + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + while (has_value) { + // Get the key and colon, stopping at the value. + raw_json_string actual_key; + if ((error = field_key().get(actual_key) )) { abandon(); return error; }; + if ((error = field_value() )) { abandon(); return error; } + + // If it matches, stop and return + if (actual_key == key) { + logger::log_event(*this, "match", key, -2); + return true; + } + + // No match: skip the value and see if , or } is next + logger::log_event(*this, "no match", key, -2); + SIMDJSON_TRY( skip_child() ); // Skip the value entirely + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + + // If the loop ended, we're out of fields to look at. + return false; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::find_field_unordered_raw(const std::string_view key) noexcept { + error_code error; + bool has_value; + + // + // Initially, the object can be in one of a few different places: + // + // 1. The start of the object, at the first field: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2, index 1) + // ``` + // + if (at_first_field()) { + // If we're at the beginning of the object, we definitely have a field + has_value = true; + + // 2. When a previous search did not yield a value or the object is empty: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 0) + // { } + // ^ (depth 0, index 2) + // ``` + // + } else if (!is_open()) { + has_value = false; + + // 3. When a previous search found a field or an iterator yielded a value: + // + // ``` + // // When a field was not fully consumed (or not even touched at all) + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2) + // // When a field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // // When the last field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // ``` + // + } else { + // Finish the previous value and see if , or } is next + if ((error = skip_child() )) { abandon(); return error; } + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + + // After initial processing, we will be in one of two states: + // + // ``` + // // At the beginning of a field + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // // At the end of the object + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 0) + // ``` + // + + // First, we scan from that point to the end. + // If we don't find a match, we loop back around, and scan from the beginning to that point. + token_position search_start = _json_iter->position(); + + // Next, we find a match starting from the current position. + while (has_value) { + SIMDJSON_ASSUME( _json_iter->_depth == _depth + 1 ); // We must be at the start of a field + + // Get the key and colon, stopping at the value. + raw_json_string actual_key; + if ((error = field_key().get(actual_key) )) { abandon(); return error; }; + if ((error = field_value() )) { abandon(); return error; } + + // If it matches, stop and return + if (actual_key == key) { + logger::log_event(*this, "match", key, -2); + return true; + } + + // No match: skip the value and see if , or } is next + logger::log_event(*this, "no match", key, -2); + SIMDJSON_TRY( skip_child() ); + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + + // If we reach the end without finding a match, search the rest of the fields starting at the + // beginning of the object. + // (We have already run through the object before, so we've already validated its structure. We + // don't check errors in this bit.) + _json_iter->set_position(_start_position + 1); + _json_iter->descend_to(_depth); + + has_value = started_object(); + while (_json_iter->position() < search_start) { + SIMDJSON_ASSUME(has_value); // we should reach search_start before ever reaching the end of the object + SIMDJSON_ASSUME( _json_iter->_depth == _depth + 1 ); // We must be at the start of a field + + // Get the key and colon, stopping at the value. + raw_json_string actual_key; + error = field_key().get(actual_key); SIMDJSON_ASSUME(!error); + error = field_value(); SIMDJSON_ASSUME(!error); + + // If it matches, stop and return + if (actual_key == key) { + logger::log_event(*this, "match", key, -2); + return true; + } + + // No match: skip the value and see if , or } is next + logger::log_event(*this, "no match", key, -2); + SIMDJSON_TRY( skip_child() ); + error = has_next_field().get(has_value); SIMDJSON_ASSUME(!error); + } + + // If the loop ended, we're out of fields to look at. + return false; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::field_key() noexcept { + assert_at_child(); + + const uint8_t *key = _json_iter->advance(); + if (*(key++) != '"') { return _json_iter->report_error(TAPE_ERROR, "Object key is not a string"); } + return raw_json_string(key); +} + +simdjson_warn_unused simdjson_really_inline error_code value_iterator::field_value() noexcept { + assert_at_child(); + + if (*_json_iter->advance() != ':') { return _json_iter->report_error(TAPE_ERROR, "Missing colon in object field"); } + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::start_array() noexcept { + assert_at_start(); + + if (*_json_iter->advance() != '[') { logger::log_error(*_json_iter, "Not an array"); return INCORRECT_TYPE; } + return started_array(); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::try_start_array() noexcept { + assert_at_start(); + + if (*_json_iter->peek() != '[') { logger::log_error(*_json_iter, "Not an array"); return INCORRECT_TYPE; } + _json_iter->advance(); + return started_array(); +} + +simdjson_warn_unused simdjson_really_inline bool value_iterator::started_array() noexcept { + if (*_json_iter->peek() == ']') { + logger::log_value(*_json_iter, "empty array"); + _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return false; + } + logger::log_start_value(*_json_iter, "array"); + _json_iter->descend_to(depth()+1); + return true; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::has_next_element() noexcept { + assert_at_next(); + + switch (*_json_iter->advance()) { + case ']': + logger::log_end_value(*_json_iter, "array"); + _json_iter->ascend_to(depth()-1); + return false; + case ',': + _json_iter->descend_to(depth()+1); + return true; + default: + return _json_iter->report_error(TAPE_ERROR, "Missing comma between array elements"); + } +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::parse_bool(const uint8_t *json) const noexcept { + auto not_true = atomparsing::str4ncmp(json, "true"); + auto not_false = atomparsing::str4ncmp(json, "fals") | (json[4] ^ 'e'); + bool error = (not_true && not_false) || jsoncharutils::is_not_structural_or_whitespace(json[not_true ? 5 : 4]); + if (error) { return incorrect_type_error("Not a boolean"); } + return simdjson_result(!not_true); +} +simdjson_really_inline bool value_iterator::parse_null(const uint8_t *json) const noexcept { + return !atomparsing::str4ncmp(json, "null") && jsoncharutils::is_structural_or_whitespace(json[4]); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_string() noexcept { + return get_raw_json_string().unescape(_json_iter->string_buf_loc()); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_raw_json_string() noexcept { + auto json = advance_scalar("string"); + if (*json != '"') { return incorrect_type_error("Not a string"); } + return raw_json_string(json+1); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_uint64() noexcept { + return numberparsing::parse_unsigned(advance_non_root_scalar("uint64")); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_int64() noexcept { + return numberparsing::parse_integer(advance_non_root_scalar("int64")); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_double() noexcept { + return numberparsing::parse_double(advance_non_root_scalar("double")); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_bool() noexcept { + return parse_bool(advance_non_root_scalar("bool")); +} +simdjson_really_inline bool value_iterator::is_null() noexcept { + return parse_null(advance_non_root_scalar("null")); +} + +constexpr const uint32_t MAX_INT_LENGTH = 1024; + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_string() noexcept { + return get_string(); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_raw_json_string() noexcept { + return get_raw_json_string(); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_uint64() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("uint64"); + uint8_t tmpbuf[20+1]; // <20 digits> is the longest possible unsigned integer + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { logger::log_error(*_json_iter, _start_position, depth(), "Root number more than 20 characters"); return NUMBER_ERROR; } + return numberparsing::parse_unsigned(tmpbuf); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_int64() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("int64"); + uint8_t tmpbuf[20+1]; // -<19 digits> is the longest possible integer + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { logger::log_error(*_json_iter, _start_position, depth(), "Root number more than 20 characters"); return NUMBER_ERROR; } + return numberparsing::parse_integer(tmpbuf); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_double() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("double"); + // Per https://www.exploringbinary.com/maximum-number-of-decimal-digits-in-binary-floating-point-numbers/, 1074 is the maximum number of significant fractional digits. Add 8 more digits for the biggest number: -0.e-308. + uint8_t tmpbuf[1074+8+1]; + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { logger::log_error(*_json_iter, _start_position, depth(), "Root number more than 1082 characters"); return NUMBER_ERROR; } + return numberparsing::parse_double(tmpbuf); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_bool() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("bool"); + uint8_t tmpbuf[5+1]; + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { return incorrect_type_error("Not a boolean"); } + return parse_bool(tmpbuf); +} +simdjson_really_inline bool value_iterator::is_root_null() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("null"); + return max_len >= 4 && !atomparsing::str4ncmp(json, "null") && + (max_len == 4 || jsoncharutils::is_structural_or_whitespace(json[5])); +} + +simdjson_warn_unused simdjson_really_inline error_code value_iterator::skip_child() noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth >= _depth ); + + return _json_iter->skip_child(depth()); +} + +simdjson_really_inline value_iterator value_iterator::child() const noexcept { + assert_at_child(); + return { _json_iter, depth()+1, _json_iter->token.position() }; +} + +simdjson_really_inline bool value_iterator::is_open() const noexcept { + return _json_iter->depth() >= depth(); +} + +simdjson_really_inline bool value_iterator::at_eof() const noexcept { + return _json_iter->at_eof(); +} + +simdjson_really_inline bool value_iterator::at_start() const noexcept { + return _json_iter->token.index == _start_position; +} + +simdjson_really_inline bool value_iterator::at_first_field() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + return _json_iter->token.index == _start_position + 1; +} + +simdjson_really_inline void value_iterator::abandon() noexcept { + _json_iter->abandon(); +} + + +simdjson_warn_unused simdjson_really_inline depth_t value_iterator::depth() const noexcept { + return _depth; +} +simdjson_warn_unused simdjson_really_inline error_code value_iterator::error() const noexcept { + return _json_iter->error; +} +simdjson_warn_unused simdjson_really_inline uint8_t *&value_iterator::string_buf_loc() noexcept { + return _json_iter->string_buf_loc(); +} +simdjson_warn_unused simdjson_really_inline const json_iterator &value_iterator::json_iter() const noexcept { + return *_json_iter; +} +simdjson_warn_unused simdjson_really_inline json_iterator &value_iterator::json_iter() noexcept { + return *_json_iter; +} + +simdjson_really_inline const uint8_t *value_iterator::peek_scalar() const noexcept { + return _json_iter->peek(_start_position); +} +simdjson_really_inline uint32_t value_iterator::peek_scalar_length() const noexcept { + return _json_iter->peek_length(_start_position); +} + +simdjson_really_inline const uint8_t *value_iterator::advance_scalar(const char *type) const noexcept { + logger::log_value(*_json_iter, _start_position, depth(), type); + // If we're not at the position anymore, we don't want to advance the cursor. + if (!is_at_start()) { return peek_scalar(); } + + // Get the JSON and advance the cursor, decreasing depth to signify that we have retrieved the value. + assert_at_start(); + auto result = _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return result; +} +simdjson_really_inline const uint8_t *value_iterator::advance_root_scalar(const char *type) const noexcept { + logger::log_value(*_json_iter, _start_position, depth(), type); + if (!is_at_start()) { return peek_scalar(); } + + assert_at_root(); + auto result = _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return result; +} +simdjson_really_inline const uint8_t *value_iterator::advance_non_root_scalar(const char *type) const noexcept { + logger::log_value(*_json_iter, _start_position, depth(), type); + if (!is_at_start()) { return peek_scalar(); } + + assert_at_non_root_start(); + auto result = _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return result; +} + +simdjson_really_inline error_code value_iterator::incorrect_type_error(const char *message) const noexcept { + logger::log_error(*_json_iter, _start_position, depth(), message); + return INCORRECT_TYPE; +} + +simdjson_really_inline bool value_iterator::is_at_start() const noexcept { + return _json_iter->token.index == _start_position; +} + +simdjson_really_inline void value_iterator::assert_at_start() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index == _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth == _depth ); + SIMDJSON_ASSUME( _depth > 0 ); +} + +simdjson_really_inline void value_iterator::assert_at_next() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth == _depth ); + SIMDJSON_ASSUME( _depth > 0 ); +} + +simdjson_really_inline void value_iterator::assert_at_child() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth == _depth + 1 ); + SIMDJSON_ASSUME( _depth > 0 ); +} + +simdjson_really_inline void value_iterator::assert_at_root() const noexcept { + assert_at_start(); + SIMDJSON_ASSUME( _depth == 1 ); +} + +simdjson_really_inline void value_iterator::assert_at_non_root_start() const noexcept { + assert_at_start(); + SIMDJSON_ASSUME( _depth > 1 ); +} + + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(arm64::ondemand::value_iterator &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/array_iterator-inl.h */ +namespace simdjson { +namespace arm64 { +namespace ondemand { + +simdjson_really_inline array_iterator::array_iterator(const value_iterator &_iter) noexcept + : iter{_iter} +{} + +simdjson_really_inline simdjson_result array_iterator::operator*() noexcept { + if (iter.error()) { iter.abandon(); return iter.error(); } + return value(iter.child()); +} +simdjson_really_inline bool array_iterator::operator==(const array_iterator &other) const noexcept { + return !(*this != other); +} +simdjson_really_inline bool array_iterator::operator!=(const array_iterator &) const noexcept { + return iter.is_open(); +} +simdjson_really_inline array_iterator &array_iterator::operator++() noexcept { + error_code error; + // PERF NOTE this is a safety rail ... users should exit loops as soon as they receive an error, so we'll never get here. + // However, it does not seem to make a perf difference, so we add it out of an abundance of caution. + if ((error = iter.error()) ) { return *this; } + if ((error = iter.skip_child() )) { return *this; } + if ((error = iter.has_next_element().error() )) { return *this; } + return *this; +} + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + arm64::ondemand::array_iterator &&value +) noexcept + : arm64::implementation_simdjson_result_base(std::forward(value)) +{ +} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : arm64::implementation_simdjson_result_base({}, error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::operator*() noexcept { + if (this->error()) { this->second = SUCCESS; return this->error(); } + return *this->first; +} +simdjson_really_inline bool simdjson_result::operator==(const simdjson_result &other) const noexcept { + if (this->error()) { return true; } + return this->first == other.first; +} +simdjson_really_inline bool simdjson_result::operator!=(const simdjson_result &other) const noexcept { + if (this->error()) { return false; } + return this->first != other.first; +} +simdjson_really_inline simdjson_result &simdjson_result::operator++() noexcept { + if (this->error()) { return *this; } + ++(this->first); + return *this; +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/object_iterator-inl.h */ +namespace simdjson { +namespace arm64 { +namespace ondemand { + +// +// object_iterator +// + +simdjson_really_inline object_iterator::object_iterator(const value_iterator &_iter) noexcept + : iter{_iter} +{} + +simdjson_really_inline simdjson_result object_iterator::operator*() noexcept { + error_code error = iter.error(); + if (error) { iter.abandon(); return error; } + auto result = field::start(iter); + // TODO this is a safety rail ... users should exit loops as soon as they receive an error. + // Nonetheless, let's see if performance is OK with this if statement--the compiler may give it to us for free. + if (result.error()) { iter.abandon(); } + return result; +} +simdjson_really_inline bool object_iterator::operator==(const object_iterator &other) const noexcept { + return !(*this != other); +} +simdjson_really_inline bool object_iterator::operator!=(const object_iterator &) const noexcept { + return iter.is_open(); +} +simdjson_really_inline object_iterator &object_iterator::operator++() noexcept { + // TODO this is a safety rail ... users should exit loops as soon as they receive an error. + // Nonetheless, let's see if performance is OK with this if statement--the compiler may give it to us for free. + if (!iter.is_open()) { return *this; } // Iterator will be released if there is an error + + simdjson_unused error_code error; + if ((error = iter.skip_child() )) { return *this; } + + simdjson_unused bool has_value; + if ((error = iter.has_next_field().get(has_value) )) { return *this; }; + return *this; +} + +// +// ### Live States +// +// While iterating or looking up values, depth >= iter.depth. at_start may vary. Error is +// always SUCCESS: +// +// - Start: This is the state when the object is first found and the iterator is just past the {. +// In this state, at_start == true. +// - Next: After we hand a scalar value to the user, or an array/object which they then fully +// iterate over, the iterator is at the , or } before the next value. In this state, +// depth == iter.depth, at_start == false, and error == SUCCESS. +// - Unfinished Business: When we hand an array/object to the user which they do not fully +// iterate over, we need to finish that iteration by skipping child values until we reach the +// Next state. In this state, depth > iter.depth, at_start == false, and error == SUCCESS. +// +// ## Error States +// +// In error states, we will yield exactly one more value before stopping. iter.depth == depth +// and at_start is always false. We decrement after yielding the error, moving to the Finished +// state. +// +// - Chained Error: When the object iterator is part of an error chain--for example, in +// `for (auto tweet : doc["tweets"])`, where the tweet field may be missing or not be an +// object--we yield that error in the loop, exactly once. In this state, error != SUCCESS and +// iter.depth == depth, and at_start == false. We decrement depth when we yield the error. +// - Missing Comma Error: When the iterator ++ method discovers there is no comma between fields, +// we flag that as an error and treat it exactly the same as a Chained Error. In this state, +// error == TAPE_ERROR, iter.depth == depth, and at_start == false. +// +// Errors that occur while reading a field to give to the user (such as when the key is not a +// string or the field is missing a colon) are yielded immediately. Depth is then decremented, +// moving to the Finished state without transitioning through an Error state at all. +// +// ## Terminal State +// +// The terminal state has iter.depth < depth. at_start is always false. +// +// - Finished: When we have reached a }, we are finished. We signal this by decrementing depth. +// In this state, iter.depth < depth, at_start == false, and error == SUCCESS. +// + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + arm64::ondemand::object_iterator &&value +) noexcept + : implementation_simdjson_result_base(std::forward(value)) +{ +} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base({}, error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::operator*() noexcept { + if (error()) { second = SUCCESS; return error(); } + return *first; +} +// Assumes it's being compared with the end. true if depth < iter->depth. +simdjson_really_inline bool simdjson_result::operator==(const simdjson_result &other) const noexcept { + if (error()) { return true; } + return first == other.first; +} +// Assumes it's being compared with the end. true if depth >= iter->depth. +simdjson_really_inline bool simdjson_result::operator!=(const simdjson_result &other) const noexcept { + if (error()) { return false; } + return first != other.first; +} +// Checks for ']' and ',' +simdjson_really_inline simdjson_result &simdjson_result::operator++() noexcept { + if (error()) { return *this; } + ++first; + return *this; +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/array-inl.h */ +namespace simdjson { +namespace arm64 { +namespace ondemand { + +// +// ### Live States +// +// While iterating or looking up values, depth >= iter->depth. at_start may vary. Error is +// always SUCCESS: +// +// - Start: This is the state when the array is first found and the iterator is just past the `{`. +// In this state, at_start == true. +// - Next: After we hand a scalar value to the user, or an array/object which they then fully +// iterate over, the iterator is at the `,` before the next value (or `]`). In this state, +// depth == iter->depth, at_start == false, and error == SUCCESS. +// - Unfinished Business: When we hand an array/object to the user which they do not fully +// iterate over, we need to finish that iteration by skipping child values until we reach the +// Next state. In this state, depth > iter->depth, at_start == false, and error == SUCCESS. +// +// ## Error States +// +// In error states, we will yield exactly one more value before stopping. iter->depth == depth +// and at_start is always false. We decrement after yielding the error, moving to the Finished +// state. +// +// - Chained Error: When the array iterator is part of an error chain--for example, in +// `for (auto tweet : doc["tweets"])`, where the tweet element may be missing or not be an +// array--we yield that error in the loop, exactly once. In this state, error != SUCCESS and +// iter->depth == depth, and at_start == false. We decrement depth when we yield the error. +// - Missing Comma Error: When the iterator ++ method discovers there is no comma between elements, +// we flag that as an error and treat it exactly the same as a Chained Error. In this state, +// error == TAPE_ERROR, iter->depth == depth, and at_start == false. +// +// ## Terminal State +// +// The terminal state has iter->depth < depth. at_start is always false. +// +// - Finished: When we have reached a `]` or have reported an error, we are finished. We signal this +// by decrementing depth. In this state, iter->depth < depth, at_start == false, and +// error == SUCCESS. +// + +simdjson_really_inline array::array(const value_iterator &_iter) noexcept + : iter{_iter} +{ +} + +simdjson_really_inline simdjson_result array::start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.start_array().get(has_value) ); + return array(iter); +} +simdjson_really_inline simdjson_result array::try_start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.try_start_array().get(has_value) ); + return array(iter); +} +simdjson_really_inline array array::started(value_iterator &iter) noexcept { + simdjson_unused bool has_value = iter.started_array(); + return array(iter); +} + +simdjson_really_inline array_iterator array::begin() noexcept { + return iter; +} +simdjson_really_inline array_iterator array::end() noexcept { + return {}; +} + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + arm64::ondemand::array &&value +) noexcept + : implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept + : implementation_simdjson_result_base(error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::begin() noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() noexcept { + if (error()) { return error(); } + return first.end(); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array-inl.h */ +/* begin file include/simdjson/generic/ondemand/document-inl.h */ +namespace simdjson { +namespace arm64 { +namespace ondemand { + +simdjson_really_inline document::document(ondemand::json_iterator &&_iter) noexcept + : iter{std::forward(_iter)} +{ + logger::log_start_value(iter, "document"); +} + +simdjson_really_inline document document::start(json_iterator &&iter) noexcept { + return document(std::forward(iter)); +} + +simdjson_really_inline value_iterator document::resume_value_iterator() noexcept { + return value_iterator(&iter, 1, iter.root_checkpoint()); +} +simdjson_really_inline value_iterator document::get_root_value_iterator() noexcept { + return resume_value_iterator(); +} +simdjson_really_inline value document::resume_value() noexcept { + return resume_value_iterator(); +} +simdjson_really_inline value document::get_root_value() noexcept { + return get_root_value_iterator(); +} + +simdjson_really_inline simdjson_result document::get_array() & noexcept { + return get_root_value().get_array(); +} +simdjson_really_inline simdjson_result document::get_object() & noexcept { + return get_root_value().get_object(); +} +simdjson_really_inline simdjson_result document::get_uint64() noexcept { + return get_root_value_iterator().get_root_uint64(); +} +simdjson_really_inline simdjson_result document::get_int64() noexcept { + return get_root_value_iterator().get_root_int64(); +} +simdjson_really_inline simdjson_result document::get_double() noexcept { + return get_root_value_iterator().get_root_double(); +} +simdjson_really_inline simdjson_result document::get_string() noexcept { + return get_root_value_iterator().get_root_string(); +} +simdjson_really_inline simdjson_result document::get_raw_json_string() noexcept { + return get_root_value_iterator().get_root_raw_json_string(); +} +simdjson_really_inline simdjson_result document::get_bool() noexcept { + return get_root_value_iterator().get_root_bool(); +} +simdjson_really_inline bool document::is_null() noexcept { + return get_root_value_iterator().is_root_null(); +} + +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_array(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_object(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_string(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_double(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_uint64(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_int64(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_bool(); } + +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return get_string(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_double(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_uint64(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_int64(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_bool(); } + +template simdjson_really_inline error_code document::get(T &out) & noexcept { + return get().get(out); +} +template simdjson_really_inline error_code document::get(T &out) && noexcept { + return std::forward(*this).get().get(out); +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline document::operator array() & noexcept(false) { return get_array(); } +simdjson_really_inline document::operator object() & noexcept(false) { return get_object(); } +simdjson_really_inline document::operator uint64_t() noexcept(false) { return get_uint64(); } +simdjson_really_inline document::operator int64_t() noexcept(false) { return get_int64(); } +simdjson_really_inline document::operator double() noexcept(false) { return get_double(); } +simdjson_really_inline document::operator std::string_view() noexcept(false) { return get_string(); } +simdjson_really_inline document::operator raw_json_string() noexcept(false) { return get_raw_json_string(); } +simdjson_really_inline document::operator bool() noexcept(false) { return get_bool(); } +#endif + +simdjson_really_inline simdjson_result document::begin() & noexcept { + return get_array().begin(); +} +simdjson_really_inline simdjson_result document::end() & noexcept { + return {}; +} + +simdjson_really_inline simdjson_result document::find_field(std::string_view key) & noexcept { + return resume_value().find_field(key); +} +simdjson_really_inline simdjson_result document::find_field(const char *key) & noexcept { + return resume_value().find_field(key); +} +simdjson_really_inline simdjson_result document::find_field_unordered(std::string_view key) & noexcept { + return resume_value().find_field_unordered(key); +} +simdjson_really_inline simdjson_result document::find_field_unordered(const char *key) & noexcept { + return resume_value().find_field_unordered(key); +} +simdjson_really_inline simdjson_result document::operator[](std::string_view key) & noexcept { + return resume_value()[key]; +} +simdjson_really_inline simdjson_result document::operator[](const char *key) & noexcept { + return resume_value()[key]; +} + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + arm64::ondemand::document &&value +) noexcept : + implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept : + implementation_simdjson_result_base( + error + ) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::begin() & noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() & noexcept { + return {}; +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](const char *key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::get_array() & noexcept { + if (error()) { return error(); } + return first.get_array(); +} +simdjson_really_inline simdjson_result simdjson_result::get_object() & noexcept { + if (error()) { return error(); } + return first.get_object(); +} +simdjson_really_inline simdjson_result simdjson_result::get_uint64() noexcept { + if (error()) { return error(); } + return first.get_uint64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_int64() noexcept { + if (error()) { return error(); } + return first.get_int64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_double() noexcept { + if (error()) { return error(); } + return first.get_double(); +} +simdjson_really_inline simdjson_result simdjson_result::get_string() noexcept { + if (error()) { return error(); } + return first.get_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_raw_json_string() noexcept { + if (error()) { return error(); } + return first.get_raw_json_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_bool() noexcept { + if (error()) { return error(); } + return first.get_bool(); +} +simdjson_really_inline bool simdjson_result::is_null() noexcept { + if (error()) { return error(); } + return first.is_null(); +} + +template +simdjson_really_inline simdjson_result simdjson_result::get() & noexcept { + if (error()) { return error(); } + return first.get(); +} +template +simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first).get(); +} +template +simdjson_really_inline error_code simdjson_result::get(T &out) & noexcept { + if (error()) { return error(); } + return first.get(out); +} +template +simdjson_really_inline error_code simdjson_result::get(T &out) && noexcept { + if (error()) { return error(); } + return std::forward(first).get(out); +} + +template<> simdjson_really_inline simdjson_result simdjson_result::get() & noexcept = delete; +template<> simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first); +} +template<> simdjson_really_inline error_code simdjson_result::get(arm64::ondemand::document &out) & noexcept = delete; +template<> simdjson_really_inline error_code simdjson_result::get(arm64::ondemand::document &out) && noexcept { + if (error()) { return error(); } + out = std::forward(first); + return SUCCESS; +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline simdjson_result::operator arm64::ondemand::array() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator arm64::ondemand::object() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator uint64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator int64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator double() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator std::string_view() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator arm64::ondemand::raw_json_string() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator bool() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +#endif + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/document-inl.h */ +/* begin file include/simdjson/generic/ondemand/value-inl.h */ +namespace simdjson { +namespace arm64 { +namespace ondemand { + +simdjson_really_inline value::value(const value_iterator &_iter) noexcept + : iter{_iter} +{ +} +simdjson_really_inline value value::start(const value_iterator &iter) noexcept { + return iter; +} +simdjson_really_inline value value::resume(const value_iterator &iter) noexcept { + return iter; +} + +simdjson_really_inline simdjson_result value::get_array() && noexcept { + return array::start(iter); +} +simdjson_really_inline simdjson_result value::get_array() & noexcept { + return array::try_start(iter); +} +simdjson_really_inline simdjson_result value::get_object() && noexcept { + return object::start(iter); +} +simdjson_really_inline simdjson_result value::get_object() & noexcept { + return object::try_start(iter); +} +simdjson_really_inline simdjson_result value::start_or_resume_object() & noexcept { + if (iter.at_start()) { + return get_object(); + } else { + return object::resume(iter); + } +} +simdjson_really_inline simdjson_result value::start_or_resume_object() && noexcept { + if (iter.at_start()) { + return get_object(); + } else { + return object::resume(iter); + } +} + +simdjson_really_inline simdjson_result value::get_raw_json_string() noexcept { + return iter.get_raw_json_string(); +} +simdjson_really_inline simdjson_result value::get_string() noexcept { + return iter.get_string(); +} +simdjson_really_inline simdjson_result value::get_double() noexcept { + return iter.get_double(); +} +simdjson_really_inline simdjson_result value::get_uint64() noexcept { + return iter.get_uint64(); +} +simdjson_really_inline simdjson_result value::get_int64() noexcept { + return iter.get_int64(); +} +simdjson_really_inline simdjson_result value::get_bool() noexcept { + return iter.get_bool(); +} +simdjson_really_inline bool value::is_null() noexcept { + return iter.is_null(); +} + +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_array(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_object(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_string(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_double(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_uint64(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_int64(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_bool(); } + +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_array(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_object(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_string(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_double(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_uint64(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_int64(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_bool(); } + +template simdjson_really_inline error_code value::get(T &out) & noexcept { + return get().get(out); +} +template simdjson_really_inline error_code value::get(T &out) && noexcept { + return std::forward(*this).get().get(out); +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline value::operator array() && noexcept(false) { + return std::forward(*this).get_array(); +} +simdjson_really_inline value::operator array() & noexcept(false) { + return std::forward(*this).get_array(); +} +simdjson_really_inline value::operator object() && noexcept(false) { + return std::forward(*this).get_object(); +} +simdjson_really_inline value::operator object() & noexcept(false) { + return std::forward(*this).get_object(); +} +simdjson_really_inline value::operator uint64_t() noexcept(false) { + return get_uint64(); +} +simdjson_really_inline value::operator int64_t() noexcept(false) { + return get_int64(); +} +simdjson_really_inline value::operator double() noexcept(false) { + return get_double(); +} +simdjson_really_inline value::operator std::string_view() noexcept(false) { + return get_string(); +} +simdjson_really_inline value::operator raw_json_string() noexcept(false) { + return get_raw_json_string(); +} +simdjson_really_inline value::operator bool() noexcept(false) { + return get_bool(); +} +#endif + +simdjson_really_inline simdjson_result value::begin() & noexcept { + return get_array().begin(); +} +simdjson_really_inline simdjson_result value::end() & noexcept { + return {}; +} + +simdjson_really_inline simdjson_result value::find_field(std::string_view key) & noexcept { + return start_or_resume_object().find_field(key); +} +simdjson_really_inline simdjson_result value::find_field(std::string_view key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field(key); +} +simdjson_really_inline simdjson_result value::find_field(const char *key) & noexcept { + return start_or_resume_object().find_field(key); +} +simdjson_really_inline simdjson_result value::find_field(const char *key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field(key); +} + +simdjson_really_inline simdjson_result value::find_field_unordered(std::string_view key) & noexcept { + return start_or_resume_object().find_field_unordered(key); +} +simdjson_really_inline simdjson_result value::find_field_unordered(std::string_view key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field_unordered(key); +} +simdjson_really_inline simdjson_result value::find_field_unordered(const char *key) & noexcept { + return start_or_resume_object().find_field_unordered(key); +} +simdjson_really_inline simdjson_result value::find_field_unordered(const char *key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field_unordered(key); +} + +simdjson_really_inline simdjson_result value::operator[](std::string_view key) & noexcept { + return start_or_resume_object()[key]; +} +simdjson_really_inline simdjson_result value::operator[](std::string_view key) && noexcept { + return std::forward(*this).start_or_resume_object()[key]; +} +simdjson_really_inline simdjson_result value::operator[](const char *key) & noexcept { + return start_or_resume_object()[key]; +} +simdjson_really_inline simdjson_result value::operator[](const char *key) && noexcept { + return std::forward(*this).start_or_resume_object()[key]; +} + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + arm64::ondemand::value &&value +) noexcept : + implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept : + implementation_simdjson_result_base(error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::begin() & noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() & noexcept { + if (error()) { return error(); } + return {}; +} + +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(const char *key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field(key); +} + +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(const char *key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field_unordered(key); +} + +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first)[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](const char *key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](const char *key) && noexcept { + if (error()) { return error(); } + return std::forward(first)[key]; +} + +simdjson_really_inline simdjson_result simdjson_result::get_array() & noexcept { + if (error()) { return error(); } + return first.get_array(); +} +simdjson_really_inline simdjson_result simdjson_result::get_array() && noexcept { + if (error()) { return error(); } + return std::forward(first).get_array(); +} +simdjson_really_inline simdjson_result simdjson_result::get_object() & noexcept { + if (error()) { return error(); } + return first.get_object(); +} +simdjson_really_inline simdjson_result simdjson_result::get_object() && noexcept { + if (error()) { return error(); } + return std::forward(first).get_object(); +} +simdjson_really_inline simdjson_result simdjson_result::get_uint64() noexcept { + if (error()) { return error(); } + return first.get_uint64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_int64() noexcept { + if (error()) { return error(); } + return first.get_int64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_double() noexcept { + if (error()) { return error(); } + return first.get_double(); +} +simdjson_really_inline simdjson_result simdjson_result::get_string() noexcept { + if (error()) { return error(); } + return first.get_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_raw_json_string() noexcept { + if (error()) { return error(); } + return first.get_raw_json_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_bool() noexcept { + if (error()) { return error(); } + return first.get_bool(); +} +simdjson_really_inline bool simdjson_result::is_null() noexcept { + if (error()) { return false; } + return first.is_null(); +} + +template simdjson_really_inline simdjson_result simdjson_result::get() & noexcept { + if (error()) { return error(); } + return first.get(); +} +template simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first).get(); +} +template simdjson_really_inline error_code simdjson_result::get(T &out) & noexcept { + if (error()) { return error(); } + return first.get(out); +} +template simdjson_really_inline error_code simdjson_result::get(T &out) && noexcept { + if (error()) { return error(); } + return std::forward(first).get(out); +} + +template<> simdjson_really_inline simdjson_result simdjson_result::get() & noexcept { + if (error()) { return error(); } + return std::move(first); +} +template<> simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first); +} +template<> simdjson_really_inline error_code simdjson_result::get(arm64::ondemand::value &out) & noexcept { + if (error()) { return error(); } + out = first; + return SUCCESS; +} +template<> simdjson_really_inline error_code simdjson_result::get(arm64::ondemand::value &out) && noexcept { + if (error()) { return error(); } + out = std::forward(first); + return SUCCESS; +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline simdjson_result::operator arm64::ondemand::array() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator arm64::ondemand::array() && noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return std::forward(first); +} +simdjson_really_inline simdjson_result::operator arm64::ondemand::object() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator arm64::ondemand::object() && noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return std::forward(first); +} +simdjson_really_inline simdjson_result::operator uint64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator int64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator double() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator std::string_view() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator arm64::ondemand::raw_json_string() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator bool() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +#endif + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value-inl.h */ +/* begin file include/simdjson/generic/ondemand/field-inl.h */ +namespace simdjson { +namespace arm64 { +namespace ondemand { + +// clang 6 doesn't think the default constructor can be noexcept, so we make it explicit +simdjson_really_inline field::field() noexcept : std::pair() {} + +simdjson_really_inline field::field(raw_json_string key, ondemand::value &&value) noexcept + : std::pair(key, std::forward(value)) +{ +} + +simdjson_really_inline simdjson_result field::start(value_iterator &parent_iter) noexcept { + raw_json_string key; + SIMDJSON_TRY( parent_iter.field_key().get(key) ); + SIMDJSON_TRY( parent_iter.field_value() ); + return field::start(parent_iter, key); +} + +simdjson_really_inline simdjson_result field::start(const value_iterator &parent_iter, raw_json_string key) noexcept { + return field(key, parent_iter.child()); +} + +simdjson_really_inline simdjson_warn_unused simdjson_result field::unescaped_key() noexcept { + SIMDJSON_ASSUME(first.buf != nullptr); // We would like to call .alive() by Visual Studio won't let us. + simdjson_result answer = first.unescape(second.iter.string_buf_loc()); + first.consume(); + return answer; +} + +simdjson_really_inline raw_json_string field::key() const noexcept { + SIMDJSON_ASSUME(first.buf != nullptr); // We would like to call .alive() by Visual Studio won't let us. + return first; +} + +simdjson_really_inline value &field::value() & noexcept { + return second; +} + +simdjson_really_inline value field::value() && noexcept { + return std::forward(*this).second; +} + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + arm64::ondemand::field &&value +) noexcept : + implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept : + implementation_simdjson_result_base(error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::key() noexcept { + if (error()) { return error(); } + return first.key(); +} +simdjson_really_inline simdjson_result simdjson_result::unescaped_key() noexcept { + if (error()) { return error(); } + return first.unescaped_key(); +} +simdjson_really_inline simdjson_result simdjson_result::value() noexcept { + if (error()) { return error(); } + return std::move(first.value()); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/field-inl.h */ +/* begin file include/simdjson/generic/ondemand/object-inl.h */ +namespace simdjson { +namespace arm64 { +namespace ondemand { + +simdjson_really_inline simdjson_result object::find_field_unordered(const std::string_view key) & noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_unordered_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} +simdjson_really_inline simdjson_result object::find_field_unordered(const std::string_view key) && noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_unordered_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} +simdjson_really_inline simdjson_result object::operator[](const std::string_view key) & noexcept { + return find_field_unordered(key); +} +simdjson_really_inline simdjson_result object::operator[](const std::string_view key) && noexcept { + return std::forward(*this).find_field_unordered(key); +} +simdjson_really_inline simdjson_result object::find_field(const std::string_view key) & noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} +simdjson_really_inline simdjson_result object::find_field(const std::string_view key) && noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} + +simdjson_really_inline simdjson_result object::start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.start_object().get(has_value) ); + return object(iter); +} +simdjson_really_inline simdjson_result object::try_start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.try_start_object().get(has_value) ); + return object(iter); +} +simdjson_really_inline object object::started(value_iterator &iter) noexcept { + simdjson_unused bool has_value = iter.started_object(); + return iter; +} +simdjson_really_inline object object::resume(const value_iterator &iter) noexcept { + return iter; +} + +simdjson_really_inline object::object(const value_iterator &_iter) noexcept + : iter{_iter} +{ +} + +simdjson_really_inline object_iterator object::begin() noexcept { + // Expanded version of SIMDJSON_ASSUME( iter.at_field_start() || !iter.is_open() ) + SIMDJSON_ASSUME( (iter._json_iter->token.index == iter._start_position + 1) || (iter._json_iter->_depth < iter._depth) ); + return iter; +} +simdjson_really_inline object_iterator object::end() noexcept { + return {}; +} + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(arm64::ondemand::object &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +simdjson_really_inline simdjson_result simdjson_result::begin() noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() noexcept { + if (error()) { return error(); } + return first.end(); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first)[key]; +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field(key); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object-inl.h */ +/* begin file include/simdjson/generic/ondemand/parser-inl.h */ +namespace simdjson { +namespace arm64 { +namespace ondemand { + +simdjson_warn_unused simdjson_really_inline error_code parser::allocate(size_t new_capacity, size_t new_max_depth) noexcept { + if (string_buf && new_capacity == _capacity && new_max_depth == _max_depth) { return SUCCESS; } + + // string_capacity copied from document::allocate + _capacity = 0; + _max_depth = 0; + size_t string_capacity = SIMDJSON_ROUNDUP_N(5 * new_capacity / 3 + SIMDJSON_PADDING, 64); + string_buf.reset(new (std::nothrow) uint8_t[string_capacity]); + if (dom_parser) { + SIMDJSON_TRY( dom_parser->set_capacity(new_capacity) ); + SIMDJSON_TRY( dom_parser->set_max_depth(new_max_depth) ); + } else { + SIMDJSON_TRY( simdjson::active_implementation->create_dom_parser_implementation(new_capacity, new_max_depth, dom_parser) ); + } + _capacity = new_capacity; + _max_depth = new_max_depth; + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result parser::iterate(const padded_string &buf) & noexcept { + // Allocate if needed + if (_capacity < buf.size() || !string_buf) { + SIMDJSON_TRY( allocate(buf.size(), _max_depth) ); + } + + // Run stage 1. + SIMDJSON_TRY( dom_parser->stage1((const uint8_t *)buf.data(), buf.size(), false) ); + return document::start({ (const uint8_t *)buf.data(), this }); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result parser::iterate(const simdjson_result &result) & noexcept { + // We don't presently have a way to temporarily get a const T& from a simdjson_result without throwing an exception + SIMDJSON_TRY( result.error() ); + const padded_string &buf = result.value_unsafe(); + return iterate(buf); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result parser::iterate_raw(const padded_string &buf) & noexcept { + // Allocate if needed + if (_capacity < buf.size()) { + SIMDJSON_TRY( allocate(buf.size(), _max_depth) ); + } + + // Run stage 1. + SIMDJSON_TRY( dom_parser->stage1((const uint8_t *)buf.data(), buf.size(), false) ); + return json_iterator((const uint8_t *)buf.data(), this); +} + +} // namespace ondemand +} // namespace arm64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(arm64::ondemand::parser &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/parser-inl.h */ +/* end file include/simdjson/generic/ondemand-inl.h */ +/* begin file include/simdjson/arm64/end.h */ +#undef arm64 +/* end file include/simdjson/arm64/end.h */ + +#endif // SIMDJSON_IMPLEMENTATION_ARM64 + +#endif // SIMDJSON_ARM64_H +/* end file include/simdjson/arm64.h */ +/* begin file include/simdjson/haswell.h */ +#ifndef SIMDJSON_HASWELL_H +#define SIMDJSON_HASWELL_H + +#ifdef SIMDJSON_WESTMERE_H +#error "haswell.h must be included before westmere.h" +#endif +#ifdef SIMDJSON_FALLBACK_H +#error "haswell.h must be included before fallback.h" +#endif + + +// Default Haswell to on if this is x86-64. Even if we're not compiled for it, it could be selected +// at runtime. +#ifndef SIMDJSON_IMPLEMENTATION_HASWELL +#define SIMDJSON_IMPLEMENTATION_HASWELL (SIMDJSON_IS_X86_64) +#endif +// To see why (__BMI__) && (__PCLMUL__) && (__LZCNT__) are not part of this next line, see +// https://github.com/simdjson/simdjson/issues/1247 +#define SIMDJSON_CAN_ALWAYS_RUN_HASWELL ((SIMDJSON_IMPLEMENTATION_HASWELL) && (SIMDJSON_IS_X86_64) && (__AVX2__)) + +#if SIMDJSON_IMPLEMENTATION_HASWELL + +#define SIMDJSON_TARGET_HASWELL SIMDJSON_TARGET_REGION("avx2,bmi,pclmul,lzcnt") + +namespace simdjson { +/** + * Implementation for Haswell (Intel AVX2). + */ +namespace haswell { +} // namespace haswell +} // namespace simdjson + +// +// These two need to be included outside SIMDJSON_TARGET_REGION +// +/* begin file include/simdjson/haswell/implementation.h */ +#ifndef SIMDJSON_HASWELL_IMPLEMENTATION_H +#define SIMDJSON_HASWELL_IMPLEMENTATION_H + + +// The constructor may be executed on any host, so we take care not to use SIMDJSON_TARGET_REGION +namespace simdjson { +namespace haswell { + +using namespace simdjson; + +class implementation final : public simdjson::implementation { +public: + simdjson_really_inline implementation() : simdjson::implementation( + "haswell", + "Intel/AMD AVX2", + internal::instruction_set::AVX2 | internal::instruction_set::PCLMULQDQ | internal::instruction_set::BMI1 | internal::instruction_set::BMI2 + ) {} + simdjson_warn_unused error_code create_dom_parser_implementation( + size_t capacity, + size_t max_length, + std::unique_ptr& dst + ) const noexcept final; + simdjson_warn_unused error_code minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) const noexcept final; + simdjson_warn_unused bool validate_utf8(const char *buf, size_t len) const noexcept final; +}; + +} // namespace haswell +} // namespace simdjson + +#endif // SIMDJSON_HASWELL_IMPLEMENTATION_H +/* end file include/simdjson/haswell/implementation.h */ +/* begin file include/simdjson/haswell/intrinsics.h */ +#ifndef SIMDJSON_HASWELL_INTRINSICS_H +#define SIMDJSON_HASWELL_INTRINSICS_H + + +#ifdef SIMDJSON_VISUAL_STUDIO +// under clang within visual studio, this will include +#include // visual studio or clang +#else +#include // elsewhere +#endif // SIMDJSON_VISUAL_STUDIO + +#ifdef SIMDJSON_CLANG_VISUAL_STUDIO +/** + * You are not supposed, normally, to include these + * headers directly. Instead you should either include intrin.h + * or x86intrin.h. However, when compiling with clang + * under Windows (i.e., when _MSC_VER is set), these headers + * only get included *if* the corresponding features are detected + * from macros: + * e.g., if __AVX2__ is set... in turn, we normally set these + * macros by compiling against the corresponding architecture + * (e.g., arch:AVX2, -mavx2, etc.) which compiles the whole + * software with these advanced instructions. In simdjson, we + * want to compile the whole program for a generic target, + * and only target our specific kernels. As a workaround, + * we directly include the needed headers. These headers would + * normally guard against such usage, but we carefully included + * (or ) before, so the headers + * are fooled. + */ +#include // for _blsr_u64 +#include // for __lzcnt64 +#include // for most things (AVX2, AVX512, _popcnt64) +#include +#include +#include +#include +#include // for _mm_clmulepi64_si128 +// unfortunately, we may not get _blsr_u64, but, thankfully, clang +// has it as a macro. +#ifndef _blsr_u64 +// we roll our own +SIMDJSON_TARGET_HASWELL +static simdjson_really_inline uint64_t _blsr_u64(uint64_t n) { + return (n - 1) & n; +} +SIMDJSON_UNTARGET_REGION +#endif // _blsr_u64 +#endif // SIMDJSON_CLANG_VISUAL_STUDIO + +#endif // SIMDJSON_HASWELL_INTRINSICS_H +/* end file include/simdjson/haswell/intrinsics.h */ + +// +// The rest need to be inside the region +// +/* begin file include/simdjson/haswell/begin.h */ +// redefining SIMDJSON_IMPLEMENTATION to "haswell" +// #define SIMDJSON_IMPLEMENTATION haswell +SIMDJSON_TARGET_HASWELL +/* end file include/simdjson/haswell/begin.h */ + +// Declarations +/* begin file include/simdjson/generic/dom_parser_implementation.h */ + +namespace simdjson { +namespace haswell { + +// expectation: sizeof(open_container) = 64/8. +struct open_container { + uint32_t tape_index; // where, on the tape, does the scope ([,{) begins + uint32_t count; // how many elements in the scope +}; // struct open_container + +static_assert(sizeof(open_container) == 64/8, "Open container must be 64 bits"); + +class dom_parser_implementation final : public internal::dom_parser_implementation { +public: + /** Tape location of each open { or [ */ + std::unique_ptr open_containers{}; + /** Whether each open container is a [ or { */ + std::unique_ptr is_array{}; + /** Buffer passed to stage 1 */ + const uint8_t *buf{}; + /** Length passed to stage 1 */ + size_t len{0}; + /** Document passed to stage 2 */ + dom::document *doc{}; + + inline dom_parser_implementation() noexcept; + inline dom_parser_implementation(dom_parser_implementation &&other) noexcept; + inline dom_parser_implementation &operator=(dom_parser_implementation &&other) noexcept; + dom_parser_implementation(const dom_parser_implementation &) = delete; + dom_parser_implementation &operator=(const dom_parser_implementation &) = delete; + + simdjson_warn_unused error_code parse(const uint8_t *buf, size_t len, dom::document &doc) noexcept final; + simdjson_warn_unused error_code stage1(const uint8_t *buf, size_t len, bool partial) noexcept final; + simdjson_warn_unused error_code check_for_unclosed_array() noexcept; + simdjson_warn_unused error_code stage2(dom::document &doc) noexcept final; + simdjson_warn_unused error_code stage2_next(dom::document &doc) noexcept final; + inline simdjson_warn_unused error_code set_capacity(size_t capacity) noexcept final; + inline simdjson_warn_unused error_code set_max_depth(size_t max_depth) noexcept final; +private: + simdjson_really_inline simdjson_warn_unused error_code set_capacity_stage1(size_t capacity); + +}; + +} // namespace haswell +} // namespace simdjson + +namespace simdjson { +namespace haswell { + +inline dom_parser_implementation::dom_parser_implementation() noexcept = default; +inline dom_parser_implementation::dom_parser_implementation(dom_parser_implementation &&other) noexcept = default; +inline dom_parser_implementation &dom_parser_implementation::operator=(dom_parser_implementation &&other) noexcept = default; + +// Leaving these here so they can be inlined if so desired +inline simdjson_warn_unused error_code dom_parser_implementation::set_capacity(size_t capacity) noexcept { + // Stage 1 index output + size_t max_structures = SIMDJSON_ROUNDUP_N(capacity, 64) + 2 + 7; + structural_indexes.reset( new (std::nothrow) uint32_t[max_structures] ); + if (!structural_indexes) { _capacity = 0; return MEMALLOC; } + structural_indexes[0] = 0; + n_structural_indexes = 0; + + _capacity = capacity; + return SUCCESS; +} + +inline simdjson_warn_unused error_code dom_parser_implementation::set_max_depth(size_t max_depth) noexcept { + // Stage 2 stacks + open_containers.reset(new (std::nothrow) open_container[max_depth]); + is_array.reset(new (std::nothrow) bool[max_depth]); + if (!is_array || !open_containers) { _max_depth = 0; return MEMALLOC; } + + _max_depth = max_depth; + return SUCCESS; +} + +} // namespace haswell +} // namespace simdjson +/* end file include/simdjson/generic/dom_parser_implementation.h */ +/* begin file include/simdjson/haswell/bitmanipulation.h */ +#ifndef SIMDJSON_HASWELL_BITMANIPULATION_H +#define SIMDJSON_HASWELL_BITMANIPULATION_H + +namespace simdjson { +namespace haswell { +namespace { + +// We sometimes call trailing_zero on inputs that are zero, +// but the algorithms do not end up using the returned value. +// Sadly, sanitizers are not smart enough to figure it out. +NO_SANITIZE_UNDEFINED +simdjson_really_inline int trailing_zeroes(uint64_t input_num) { +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO + return (int)_tzcnt_u64(input_num); +#else // SIMDJSON_REGULAR_VISUAL_STUDIO + //////// + // You might expect the next line to be equivalent to + // return (int)_tzcnt_u64(input_num); + // but the generated code differs and might be less efficient? + //////// + return __builtin_ctzll(input_num); +#endif // SIMDJSON_REGULAR_VISUAL_STUDIO +} + +/* result might be undefined when input_num is zero */ +simdjson_really_inline uint64_t clear_lowest_bit(uint64_t input_num) { + return _blsr_u64(input_num); +} + +/* result might be undefined when input_num is zero */ +simdjson_really_inline int leading_zeroes(uint64_t input_num) { + return int(_lzcnt_u64(input_num)); +} + +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO +simdjson_really_inline unsigned __int64 count_ones(uint64_t input_num) { + // note: we do not support legacy 32-bit Windows + return __popcnt64(input_num);// Visual Studio wants two underscores +} +#else +simdjson_really_inline long long int count_ones(uint64_t input_num) { + return _popcnt64(input_num); +} +#endif + +simdjson_really_inline bool add_overflow(uint64_t value1, uint64_t value2, + uint64_t *result) { +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO + return _addcarry_u64(0, value1, value2, + reinterpret_cast(result)); +#else + return __builtin_uaddll_overflow(value1, value2, + (unsigned long long *)result); +#endif +} + +} // unnamed namespace +} // namespace haswell +} // namespace simdjson + +#endif // SIMDJSON_HASWELL_BITMANIPULATION_H +/* end file include/simdjson/haswell/bitmanipulation.h */ +/* begin file include/simdjson/haswell/bitmask.h */ +#ifndef SIMDJSON_HASWELL_BITMASK_H +#define SIMDJSON_HASWELL_BITMASK_H + +namespace simdjson { +namespace haswell { +namespace { + +// +// Perform a "cumulative bitwise xor," flipping bits each time a 1 is encountered. +// +// For example, prefix_xor(00100100) == 00011100 +// +simdjson_really_inline uint64_t prefix_xor(const uint64_t bitmask) { + // There should be no such thing with a processor supporting avx2 + // but not clmul. + __m128i all_ones = _mm_set1_epi8('\xFF'); + __m128i result = _mm_clmulepi64_si128(_mm_set_epi64x(0ULL, bitmask), all_ones, 0); + return _mm_cvtsi128_si64(result); +} + +} // unnamed namespace +} // namespace haswell +} // namespace simdjson + +#endif // SIMDJSON_HASWELL_BITMASK_H +/* end file include/simdjson/haswell/bitmask.h */ +/* begin file include/simdjson/haswell/simd.h */ +#ifndef SIMDJSON_HASWELL_SIMD_H +#define SIMDJSON_HASWELL_SIMD_H + + +namespace simdjson { +namespace haswell { +namespace { +namespace simd { + + // Forward-declared so they can be used by splat and friends. + template + struct base { + __m256i value; + + // Zero constructor + simdjson_really_inline base() : value{__m256i()} {} + + // Conversion from SIMD register + simdjson_really_inline base(const __m256i _value) : value(_value) {} + + // Conversion to SIMD register + simdjson_really_inline operator const __m256i&() const { return this->value; } + simdjson_really_inline operator __m256i&() { return this->value; } + + // Bit operations + simdjson_really_inline Child operator|(const Child other) const { return _mm256_or_si256(*this, other); } + simdjson_really_inline Child operator&(const Child other) const { return _mm256_and_si256(*this, other); } + simdjson_really_inline Child operator^(const Child other) const { return _mm256_xor_si256(*this, other); } + simdjson_really_inline Child bit_andnot(const Child other) const { return _mm256_andnot_si256(other, *this); } + simdjson_really_inline Child& operator|=(const Child other) { auto this_cast = (Child*)this; *this_cast = *this_cast | other; return *this_cast; } + simdjson_really_inline Child& operator&=(const Child other) { auto this_cast = (Child*)this; *this_cast = *this_cast & other; return *this_cast; } + simdjson_really_inline Child& operator^=(const Child other) { auto this_cast = (Child*)this; *this_cast = *this_cast ^ other; return *this_cast; } + }; + + // Forward-declared so they can be used by splat and friends. + template + struct simd8; + + template> + struct base8: base> { + typedef uint32_t bitmask_t; + typedef uint64_t bitmask2_t; + + simdjson_really_inline base8() : base>() {} + simdjson_really_inline base8(const __m256i _value) : base>(_value) {} + + simdjson_really_inline Mask operator==(const simd8 other) const { return _mm256_cmpeq_epi8(*this, other); } + + static const int SIZE = sizeof(base::value); + + template + simdjson_really_inline simd8 prev(const simd8 prev_chunk) const { + return _mm256_alignr_epi8(*this, _mm256_permute2x128_si256(prev_chunk, *this, 0x21), 16 - N); + } + }; + + // SIMD byte mask type (returned by things like eq and gt) + template<> + struct simd8: base8 { + static simdjson_really_inline simd8 splat(bool _value) { return _mm256_set1_epi8(uint8_t(-(!!_value))); } + + simdjson_really_inline simd8() : base8() {} + simdjson_really_inline simd8(const __m256i _value) : base8(_value) {} + // Splat constructor + simdjson_really_inline simd8(bool _value) : base8(splat(_value)) {} + + simdjson_really_inline int to_bitmask() const { return _mm256_movemask_epi8(*this); } + simdjson_really_inline bool any() const { return !_mm256_testz_si256(*this, *this); } + simdjson_really_inline simd8 operator~() const { return *this ^ true; } + }; + + template + struct base8_numeric: base8 { + static simdjson_really_inline simd8 splat(T _value) { return _mm256_set1_epi8(_value); } + static simdjson_really_inline simd8 zero() { return _mm256_setzero_si256(); } + static simdjson_really_inline simd8 load(const T values[32]) { + return _mm256_loadu_si256(reinterpret_cast(values)); + } + // Repeat 16 values as many times as necessary (usually for lookup tables) + static simdjson_really_inline simd8 repeat_16( + T v0, T v1, T v2, T v3, T v4, T v5, T v6, T v7, + T v8, T v9, T v10, T v11, T v12, T v13, T v14, T v15 + ) { + return simd8( + v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10,v11,v12,v13,v14,v15, + v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10,v11,v12,v13,v14,v15 + ); + } + + simdjson_really_inline base8_numeric() : base8() {} + simdjson_really_inline base8_numeric(const __m256i _value) : base8(_value) {} + + // Store to array + simdjson_really_inline void store(T dst[32]) const { return _mm256_storeu_si256(reinterpret_cast<__m256i *>(dst), *this); } + + // Addition/subtraction are the same for signed and unsigned + simdjson_really_inline simd8 operator+(const simd8 other) const { return _mm256_add_epi8(*this, other); } + simdjson_really_inline simd8 operator-(const simd8 other) const { return _mm256_sub_epi8(*this, other); } + simdjson_really_inline simd8& operator+=(const simd8 other) { *this = *this + other; return *(simd8*)this; } + simdjson_really_inline simd8& operator-=(const simd8 other) { *this = *this - other; return *(simd8*)this; } + + // Override to distinguish from bool version + simdjson_really_inline simd8 operator~() const { return *this ^ 0xFFu; } + + // Perform a lookup assuming the value is between 0 and 16 (undefined behavior for out of range values) + template + simdjson_really_inline simd8 lookup_16(simd8 lookup_table) const { + return _mm256_shuffle_epi8(lookup_table, *this); + } + + // Copies to 'output" all bytes corresponding to a 0 in the mask (interpreted as a bitset). + // Passing a 0 value for mask would be equivalent to writing out every byte to output. + // Only the first 32 - count_ones(mask) bytes of the result are significant but 32 bytes + // get written. + // Design consideration: it seems like a function with the + // signature simd8 compress(uint32_t mask) would be + // sensible, but the AVX ISA makes this kind of approach difficult. + template + simdjson_really_inline void compress(uint32_t mask, L * output) const { + using internal::thintable_epi8; + using internal::BitsSetTable256mul2; + using internal::pshufb_combine_table; + // this particular implementation was inspired by work done by @animetosho + // we do it in four steps, first 8 bytes and then second 8 bytes... + uint8_t mask1 = uint8_t(mask); // least significant 8 bits + uint8_t mask2 = uint8_t(mask >> 8); // second least significant 8 bits + uint8_t mask3 = uint8_t(mask >> 16); // ... + uint8_t mask4 = uint8_t(mask >> 24); // ... + // next line just loads the 64-bit values thintable_epi8[mask1] and + // thintable_epi8[mask2] into a 128-bit register, using only + // two instructions on most compilers. + __m256i shufmask = _mm256_set_epi64x(thintable_epi8[mask4], thintable_epi8[mask3], + thintable_epi8[mask2], thintable_epi8[mask1]); + // we increment by 0x08 the second half of the mask and so forth + shufmask = + _mm256_add_epi8(shufmask, _mm256_set_epi32(0x18181818, 0x18181818, + 0x10101010, 0x10101010, 0x08080808, 0x08080808, 0, 0)); + // this is the version "nearly pruned" + __m256i pruned = _mm256_shuffle_epi8(*this, shufmask); + // we still need to put the pieces back together. + // we compute the popcount of the first words: + int pop1 = BitsSetTable256mul2[mask1]; + int pop3 = BitsSetTable256mul2[mask3]; + + // then load the corresponding mask + // could be done with _mm256_loadu2_m128i but many standard libraries omit this intrinsic. + __m256i v256 = _mm256_castsi128_si256( + _mm_loadu_si128((const __m128i *)(pshufb_combine_table + pop1 * 8))); + __m256i compactmask = _mm256_insertf128_si256(v256, + _mm_loadu_si128((const __m128i *)(pshufb_combine_table + pop3 * 8)), 1); + __m256i almostthere = _mm256_shuffle_epi8(pruned, compactmask); + // We just need to write out the result. + // This is the tricky bit that is hard to do + // if we want to return a SIMD register, since there + // is no single-instruction approach to recombine + // the two 128-bit lanes with an offset. + __m128i v128; + v128 = _mm256_castsi256_si128(almostthere); + _mm_storeu_si128( (__m128i *)output, v128); + v128 = _mm256_extractf128_si256(almostthere, 1); + _mm_storeu_si128( (__m128i *)(output + 16 - count_ones(mask & 0xFFFF)), v128); + } + + template + simdjson_really_inline simd8 lookup_16( + L replace0, L replace1, L replace2, L replace3, + L replace4, L replace5, L replace6, L replace7, + L replace8, L replace9, L replace10, L replace11, + L replace12, L replace13, L replace14, L replace15) const { + return lookup_16(simd8::repeat_16( + replace0, replace1, replace2, replace3, + replace4, replace5, replace6, replace7, + replace8, replace9, replace10, replace11, + replace12, replace13, replace14, replace15 + )); + } + }; + + // Signed bytes + template<> + struct simd8 : base8_numeric { + simdjson_really_inline simd8() : base8_numeric() {} + simdjson_really_inline simd8(const __m256i _value) : base8_numeric(_value) {} + // Splat constructor + simdjson_really_inline simd8(int8_t _value) : simd8(splat(_value)) {} + // Array constructor + simdjson_really_inline simd8(const int8_t values[32]) : simd8(load(values)) {} + // Member-by-member initialization + simdjson_really_inline simd8( + int8_t v0, int8_t v1, int8_t v2, int8_t v3, int8_t v4, int8_t v5, int8_t v6, int8_t v7, + int8_t v8, int8_t v9, int8_t v10, int8_t v11, int8_t v12, int8_t v13, int8_t v14, int8_t v15, + int8_t v16, int8_t v17, int8_t v18, int8_t v19, int8_t v20, int8_t v21, int8_t v22, int8_t v23, + int8_t v24, int8_t v25, int8_t v26, int8_t v27, int8_t v28, int8_t v29, int8_t v30, int8_t v31 + ) : simd8(_mm256_setr_epi8( + v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10,v11,v12,v13,v14,v15, + v16,v17,v18,v19,v20,v21,v22,v23, + v24,v25,v26,v27,v28,v29,v30,v31 + )) {} + // Repeat 16 values as many times as necessary (usually for lookup tables) + simdjson_really_inline static simd8 repeat_16( + int8_t v0, int8_t v1, int8_t v2, int8_t v3, int8_t v4, int8_t v5, int8_t v6, int8_t v7, + int8_t v8, int8_t v9, int8_t v10, int8_t v11, int8_t v12, int8_t v13, int8_t v14, int8_t v15 + ) { + return simd8( + v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10,v11,v12,v13,v14,v15, + v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10,v11,v12,v13,v14,v15 + ); + } + + // Order-sensitive comparisons + simdjson_really_inline simd8 max_val(const simd8 other) const { return _mm256_max_epi8(*this, other); } + simdjson_really_inline simd8 min_val(const simd8 other) const { return _mm256_min_epi8(*this, other); } + simdjson_really_inline simd8 operator>(const simd8 other) const { return _mm256_cmpgt_epi8(*this, other); } + simdjson_really_inline simd8 operator<(const simd8 other) const { return _mm256_cmpgt_epi8(other, *this); } + }; + + // Unsigned bytes + template<> + struct simd8: base8_numeric { + simdjson_really_inline simd8() : base8_numeric() {} + simdjson_really_inline simd8(const __m256i _value) : base8_numeric(_value) {} + // Splat constructor + simdjson_really_inline simd8(uint8_t _value) : simd8(splat(_value)) {} + // Array constructor + simdjson_really_inline simd8(const uint8_t values[32]) : simd8(load(values)) {} + // Member-by-member initialization + simdjson_really_inline simd8( + uint8_t v0, uint8_t v1, uint8_t v2, uint8_t v3, uint8_t v4, uint8_t v5, uint8_t v6, uint8_t v7, + uint8_t v8, uint8_t v9, uint8_t v10, uint8_t v11, uint8_t v12, uint8_t v13, uint8_t v14, uint8_t v15, + uint8_t v16, uint8_t v17, uint8_t v18, uint8_t v19, uint8_t v20, uint8_t v21, uint8_t v22, uint8_t v23, + uint8_t v24, uint8_t v25, uint8_t v26, uint8_t v27, uint8_t v28, uint8_t v29, uint8_t v30, uint8_t v31 + ) : simd8(_mm256_setr_epi8( + v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10,v11,v12,v13,v14,v15, + v16,v17,v18,v19,v20,v21,v22,v23, + v24,v25,v26,v27,v28,v29,v30,v31 + )) {} + // Repeat 16 values as many times as necessary (usually for lookup tables) + simdjson_really_inline static simd8 repeat_16( + uint8_t v0, uint8_t v1, uint8_t v2, uint8_t v3, uint8_t v4, uint8_t v5, uint8_t v6, uint8_t v7, + uint8_t v8, uint8_t v9, uint8_t v10, uint8_t v11, uint8_t v12, uint8_t v13, uint8_t v14, uint8_t v15 + ) { + return simd8( + v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10,v11,v12,v13,v14,v15, + v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10,v11,v12,v13,v14,v15 + ); + } + + // Saturated math + simdjson_really_inline simd8 saturating_add(const simd8 other) const { return _mm256_adds_epu8(*this, other); } + simdjson_really_inline simd8 saturating_sub(const simd8 other) const { return _mm256_subs_epu8(*this, other); } + + // Order-specific operations + simdjson_really_inline simd8 max_val(const simd8 other) const { return _mm256_max_epu8(*this, other); } + simdjson_really_inline simd8 min_val(const simd8 other) const { return _mm256_min_epu8(other, *this); } + // Same as >, but only guarantees true is nonzero (< guarantees true = -1) + simdjson_really_inline simd8 gt_bits(const simd8 other) const { return this->saturating_sub(other); } + // Same as <, but only guarantees true is nonzero (< guarantees true = -1) + simdjson_really_inline simd8 lt_bits(const simd8 other) const { return other.saturating_sub(*this); } + simdjson_really_inline simd8 operator<=(const simd8 other) const { return other.max_val(*this) == other; } + simdjson_really_inline simd8 operator>=(const simd8 other) const { return other.min_val(*this) == other; } + simdjson_really_inline simd8 operator>(const simd8 other) const { return this->gt_bits(other).any_bits_set(); } + simdjson_really_inline simd8 operator<(const simd8 other) const { return this->lt_bits(other).any_bits_set(); } + + // Bit-specific operations + simdjson_really_inline simd8 bits_not_set() const { return *this == uint8_t(0); } + simdjson_really_inline simd8 bits_not_set(simd8 bits) const { return (*this & bits).bits_not_set(); } + simdjson_really_inline simd8 any_bits_set() const { return ~this->bits_not_set(); } + simdjson_really_inline simd8 any_bits_set(simd8 bits) const { return ~this->bits_not_set(bits); } + simdjson_really_inline bool is_ascii() const { return _mm256_movemask_epi8(*this) == 0; } + simdjson_really_inline bool bits_not_set_anywhere() const { return _mm256_testz_si256(*this, *this); } + simdjson_really_inline bool any_bits_set_anywhere() const { return !bits_not_set_anywhere(); } + simdjson_really_inline bool bits_not_set_anywhere(simd8 bits) const { return _mm256_testz_si256(*this, bits); } + simdjson_really_inline bool any_bits_set_anywhere(simd8 bits) const { return !bits_not_set_anywhere(bits); } + template + simdjson_really_inline simd8 shr() const { return simd8(_mm256_srli_epi16(*this, N)) & uint8_t(0xFFu >> N); } + template + simdjson_really_inline simd8 shl() const { return simd8(_mm256_slli_epi16(*this, N)) & uint8_t(0xFFu << N); } + // Get one of the bits and make a bitmask out of it. + // e.g. value.get_bit<7>() gets the high bit + template + simdjson_really_inline int get_bit() const { return _mm256_movemask_epi8(_mm256_slli_epi16(*this, 7-N)); } + }; + + template + struct simd8x64 { + static constexpr int NUM_CHUNKS = 64 / sizeof(simd8); + static_assert(NUM_CHUNKS == 2, "Haswell kernel should use two registers per 64-byte block."); + const simd8 chunks[NUM_CHUNKS]; + + simd8x64(const simd8x64& o) = delete; // no copy allowed + simd8x64& operator=(const simd8 other) = delete; // no assignment allowed + simd8x64() = delete; // no default constructor allowed + + simdjson_really_inline simd8x64(const simd8 chunk0, const simd8 chunk1) : chunks{chunk0, chunk1} {} + simdjson_really_inline simd8x64(const T ptr[64]) : chunks{simd8::load(ptr), simd8::load(ptr+32)} {} + + simdjson_really_inline void compress(uint64_t mask, T * output) const { + uint32_t mask1 = uint32_t(mask); + uint32_t mask2 = uint32_t(mask >> 32); + this->chunks[0].compress(mask1, output); + this->chunks[1].compress(mask2, output + 32 - count_ones(mask1)); + } + + simdjson_really_inline void store(T ptr[64]) const { + this->chunks[0].store(ptr+sizeof(simd8)*0); + this->chunks[1].store(ptr+sizeof(simd8)*1); + } + + simdjson_really_inline uint64_t to_bitmask() const { + uint64_t r_lo = uint32_t(this->chunks[0].to_bitmask()); + uint64_t r_hi = this->chunks[1].to_bitmask(); + return r_lo | (r_hi << 32); + } + + simdjson_really_inline simd8 reduce_or() const { + return this->chunks[0] | this->chunks[1]; + } + + simdjson_really_inline simd8x64 bit_or(const T m) const { + const simd8 mask = simd8::splat(m); + return simd8x64( + this->chunks[0] | mask, + this->chunks[1] | mask + ); + } + + simdjson_really_inline uint64_t eq(const T m) const { + const simd8 mask = simd8::splat(m); + return simd8x64( + this->chunks[0] == mask, + this->chunks[1] == mask + ).to_bitmask(); + } + + simdjson_really_inline uint64_t eq(const simd8x64 &other) const { + return simd8x64( + this->chunks[0] == other.chunks[0], + this->chunks[1] == other.chunks[1] + ).to_bitmask(); + } + + simdjson_really_inline uint64_t lteq(const T m) const { + const simd8 mask = simd8::splat(m); + return simd8x64( + this->chunks[0] <= mask, + this->chunks[1] <= mask + ).to_bitmask(); + } + }; // struct simd8x64 + +} // namespace simd + +} // unnamed namespace +} // namespace haswell +} // namespace simdjson + +#endif // SIMDJSON_HASWELL_SIMD_H +/* end file include/simdjson/haswell/simd.h */ +/* begin file include/simdjson/generic/jsoncharutils.h */ + +namespace simdjson { +namespace haswell { +namespace { +namespace jsoncharutils { + +// return non-zero if not a structural or whitespace char +// zero otherwise +simdjson_really_inline uint32_t is_not_structural_or_whitespace(uint8_t c) { + return internal::structural_or_whitespace_negated[c]; +} + +simdjson_really_inline uint32_t is_structural_or_whitespace(uint8_t c) { + return internal::structural_or_whitespace[c]; +} + +// returns a value with the high 16 bits set if not valid +// otherwise returns the conversion of the 4 hex digits at src into the bottom +// 16 bits of the 32-bit return register +// +// see +// https://lemire.me/blog/2019/04/17/parsing-short-hexadecimal-strings-efficiently/ +static inline uint32_t hex_to_u32_nocheck( + const uint8_t *src) { // strictly speaking, static inline is a C-ism + uint32_t v1 = internal::digit_to_val32[630 + src[0]]; + uint32_t v2 = internal::digit_to_val32[420 + src[1]]; + uint32_t v3 = internal::digit_to_val32[210 + src[2]]; + uint32_t v4 = internal::digit_to_val32[0 + src[3]]; + return v1 | v2 | v3 | v4; +} + +// given a code point cp, writes to c +// the utf-8 code, outputting the length in +// bytes, if the length is zero, the code point +// is invalid +// +// This can possibly be made faster using pdep +// and clz and table lookups, but JSON documents +// have few escaped code points, and the following +// function looks cheap. +// +// Note: we assume that surrogates are treated separately +// +simdjson_really_inline size_t codepoint_to_utf8(uint32_t cp, uint8_t *c) { + if (cp <= 0x7F) { + c[0] = uint8_t(cp); + return 1; // ascii + } + if (cp <= 0x7FF) { + c[0] = uint8_t((cp >> 6) + 192); + c[1] = uint8_t((cp & 63) + 128); + return 2; // universal plane + // Surrogates are treated elsewhere... + //} //else if (0xd800 <= cp && cp <= 0xdfff) { + // return 0; // surrogates // could put assert here + } else if (cp <= 0xFFFF) { + c[0] = uint8_t((cp >> 12) + 224); + c[1] = uint8_t(((cp >> 6) & 63) + 128); + c[2] = uint8_t((cp & 63) + 128); + return 3; + } else if (cp <= 0x10FFFF) { // if you know you have a valid code point, this + // is not needed + c[0] = uint8_t((cp >> 18) + 240); + c[1] = uint8_t(((cp >> 12) & 63) + 128); + c[2] = uint8_t(((cp >> 6) & 63) + 128); + c[3] = uint8_t((cp & 63) + 128); + return 4; + } + // will return 0 when the code point was too large. + return 0; // bad r +} + +#ifdef SIMDJSON_IS_32BITS // _umul128 for x86, arm +// this is a slow emulation routine for 32-bit +// +static simdjson_really_inline uint64_t __emulu(uint32_t x, uint32_t y) { + return x * (uint64_t)y; +} +static simdjson_really_inline uint64_t _umul128(uint64_t ab, uint64_t cd, uint64_t *hi) { + uint64_t ad = __emulu((uint32_t)(ab >> 32), (uint32_t)cd); + uint64_t bd = __emulu((uint32_t)ab, (uint32_t)cd); + uint64_t adbc = ad + __emulu((uint32_t)ab, (uint32_t)(cd >> 32)); + uint64_t adbc_carry = !!(adbc < ad); + uint64_t lo = bd + (adbc << 32); + *hi = __emulu((uint32_t)(ab >> 32), (uint32_t)(cd >> 32)) + (adbc >> 32) + + (adbc_carry << 32) + !!(lo < bd); + return lo; +} +#endif + +using internal::value128; + +simdjson_really_inline value128 full_multiplication(uint64_t value1, uint64_t value2) { + value128 answer; +#if defined(SIMDJSON_REGULAR_VISUAL_STUDIO) || defined(SIMDJSON_IS_32BITS) +#ifdef _M_ARM64 + // ARM64 has native support for 64-bit multiplications, no need to emultate + answer.high = __umulh(value1, value2); + answer.low = value1 * value2; +#else + answer.low = _umul128(value1, value2, &answer.high); // _umul128 not available on ARM64 +#endif // _M_ARM64 +#else // defined(SIMDJSON_REGULAR_VISUAL_STUDIO) || defined(SIMDJSON_IS_32BITS) + __uint128_t r = ((__uint128_t)value1) * value2; + answer.low = uint64_t(r); + answer.high = uint64_t(r >> 64); +#endif + return answer; +} + +} // namespace jsoncharutils +} // unnamed namespace +} // namespace haswell +} // namespace simdjson +/* end file include/simdjson/generic/jsoncharutils.h */ +/* begin file include/simdjson/generic/atomparsing.h */ +namespace simdjson { +namespace haswell { +namespace { +/// @private +namespace atomparsing { + +// The string_to_uint32 is exclusively used to map literal strings to 32-bit values. +// We use memcpy instead of a pointer cast to avoid undefined behaviors since we cannot +// be certain that the character pointer will be properly aligned. +// You might think that using memcpy makes this function expensive, but you'd be wrong. +// All decent optimizing compilers (GCC, clang, Visual Studio) will compile string_to_uint32("false"); +// to the compile-time constant 1936482662. +simdjson_really_inline uint32_t string_to_uint32(const char* str) { uint32_t val; std::memcpy(&val, str, sizeof(uint32_t)); return val; } + + +// Again in str4ncmp we use a memcpy to avoid undefined behavior. The memcpy may appear expensive. +// Yet all decent optimizing compilers will compile memcpy to a single instruction, just about. +simdjson_warn_unused +simdjson_really_inline uint32_t str4ncmp(const uint8_t *src, const char* atom) { + uint32_t srcval; // we want to avoid unaligned 32-bit loads (undefined in C/C++) + static_assert(sizeof(uint32_t) <= SIMDJSON_PADDING, "SIMDJSON_PADDING must be larger than 4 bytes"); + std::memcpy(&srcval, src, sizeof(uint32_t)); + return srcval ^ string_to_uint32(atom); +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_true_atom(const uint8_t *src) { + return (str4ncmp(src, "true") | jsoncharutils::is_not_structural_or_whitespace(src[4])) == 0; +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_true_atom(const uint8_t *src, size_t len) { + if (len > 4) { return is_valid_true_atom(src); } + else if (len == 4) { return !str4ncmp(src, "true"); } + else { return false; } +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_false_atom(const uint8_t *src) { + return (str4ncmp(src+1, "alse") | jsoncharutils::is_not_structural_or_whitespace(src[5])) == 0; +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_false_atom(const uint8_t *src, size_t len) { + if (len > 5) { return is_valid_false_atom(src); } + else if (len == 5) { return !str4ncmp(src+1, "alse"); } + else { return false; } +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_null_atom(const uint8_t *src) { + return (str4ncmp(src, "null") | jsoncharutils::is_not_structural_or_whitespace(src[4])) == 0; +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_null_atom(const uint8_t *src, size_t len) { + if (len > 4) { return is_valid_null_atom(src); } + else if (len == 4) { return !str4ncmp(src, "null"); } + else { return false; } +} + +} // namespace atomparsing +} // unnamed namespace +} // namespace haswell +} // namespace simdjson +/* end file include/simdjson/generic/atomparsing.h */ +/* begin file include/simdjson/haswell/stringparsing.h */ +#ifndef SIMDJSON_HASWELL_STRINGPARSING_H +#define SIMDJSON_HASWELL_STRINGPARSING_H + + +namespace simdjson { +namespace haswell { +namespace { + +using namespace simd; + +// Holds backslashes and quotes locations. +struct backslash_and_quote { +public: + static constexpr uint32_t BYTES_PROCESSED = 32; + simdjson_really_inline static backslash_and_quote copy_and_find(const uint8_t *src, uint8_t *dst); + + simdjson_really_inline bool has_quote_first() { return ((bs_bits - 1) & quote_bits) != 0; } + simdjson_really_inline bool has_backslash() { return ((quote_bits - 1) & bs_bits) != 0; } + simdjson_really_inline int quote_index() { return trailing_zeroes(quote_bits); } + simdjson_really_inline int backslash_index() { return trailing_zeroes(bs_bits); } + + uint32_t bs_bits; + uint32_t quote_bits; +}; // struct backslash_and_quote + +simdjson_really_inline backslash_and_quote backslash_and_quote::copy_and_find(const uint8_t *src, uint8_t *dst) { + // this can read up to 15 bytes beyond the buffer size, but we require + // SIMDJSON_PADDING of padding + static_assert(SIMDJSON_PADDING >= (BYTES_PROCESSED - 1), "backslash and quote finder must process fewer than SIMDJSON_PADDING bytes"); + simd8 v(src); + // store to dest unconditionally - we can overwrite the bits we don't like later + v.store(dst); + return { + (uint32_t)(v == '\\').to_bitmask(), // bs_bits + (uint32_t)(v == '"').to_bitmask(), // quote_bits + }; +} + +} // unnamed namespace +} // namespace haswell +} // namespace simdjson + +/* begin file include/simdjson/generic/stringparsing.h */ +// This file contains the common code every implementation uses +// It is intended to be included multiple times and compiled multiple times + +namespace simdjson { +namespace haswell { +namespace { +/// @private +namespace stringparsing { + +// begin copypasta +// These chars yield themselves: " \ / +// b -> backspace, f -> formfeed, n -> newline, r -> cr, t -> horizontal tab +// u not handled in this table as it's complex +static const uint8_t escape_map[256] = { + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 0x0. + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0x22, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x2f, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 0x4. + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0, 0, // 0x5. + 0, 0, 0x08, 0, 0, 0, 0x0c, 0, 0, 0, 0, 0, 0, 0, 0x0a, 0, // 0x6. + 0, 0, 0x0d, 0, 0x09, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 0x7. + + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, +}; + +// handle a unicode codepoint +// write appropriate values into dest +// src will advance 6 bytes or 12 bytes +// dest will advance a variable amount (return via pointer) +// return true if the unicode codepoint was valid +// We work in little-endian then swap at write time +simdjson_warn_unused +simdjson_really_inline bool handle_unicode_codepoint(const uint8_t **src_ptr, + uint8_t **dst_ptr) { + // jsoncharutils::hex_to_u32_nocheck fills high 16 bits of the return value with 1s if the + // conversion isn't valid; we defer the check for this to inside the + // multilingual plane check + uint32_t code_point = jsoncharutils::hex_to_u32_nocheck(*src_ptr + 2); + *src_ptr += 6; + // check for low surrogate for characters outside the Basic + // Multilingual Plane. + if (code_point >= 0xd800 && code_point < 0xdc00) { + if (((*src_ptr)[0] != '\\') || (*src_ptr)[1] != 'u') { + return false; + } + uint32_t code_point_2 = jsoncharutils::hex_to_u32_nocheck(*src_ptr + 2); + + // if the first code point is invalid we will get here, as we will go past + // the check for being outside the Basic Multilingual plane. If we don't + // find a \u immediately afterwards we fail out anyhow, but if we do, + // this check catches both the case of the first code point being invalid + // or the second code point being invalid. + if ((code_point | code_point_2) >> 16) { + return false; + } + + code_point = + (((code_point - 0xd800) << 10) | (code_point_2 - 0xdc00)) + 0x10000; + *src_ptr += 6; + } + size_t offset = jsoncharutils::codepoint_to_utf8(code_point, *dst_ptr); + *dst_ptr += offset; + return offset > 0; +} + +/** + * Unescape a string from src to dst, stopping at a final unescaped quote. E.g., if src points at 'joe"', then + * dst needs to have four free bytes. + */ +simdjson_warn_unused simdjson_really_inline uint8_t *parse_string(const uint8_t *src, uint8_t *dst) { + while (1) { + // Copy the next n bytes, and find the backslash and quote in them. + auto bs_quote = backslash_and_quote::copy_and_find(src, dst); + // If the next thing is the end quote, copy and return + if (bs_quote.has_quote_first()) { + // we encountered quotes first. Move dst to point to quotes and exit + return dst + bs_quote.quote_index(); + } + if (bs_quote.has_backslash()) { + /* find out where the backspace is */ + auto bs_dist = bs_quote.backslash_index(); + uint8_t escape_char = src[bs_dist + 1]; + /* we encountered backslash first. Handle backslash */ + if (escape_char == 'u') { + /* move src/dst up to the start; they will be further adjusted + within the unicode codepoint handling code. */ + src += bs_dist; + dst += bs_dist; + if (!handle_unicode_codepoint(&src, &dst)) { + return nullptr; + } + } else { + /* simple 1:1 conversion. Will eat bs_dist+2 characters in input and + * write bs_dist+1 characters to output + * note this may reach beyond the part of the buffer we've actually + * seen. I think this is ok */ + uint8_t escape_result = escape_map[escape_char]; + if (escape_result == 0u) { + return nullptr; /* bogus escape value is an error */ + } + dst[bs_dist] = escape_result; + src += bs_dist + 2; + dst += bs_dist + 1; + } + } else { + /* they are the same. Since they can't co-occur, it means we + * encountered neither. */ + src += backslash_and_quote::BYTES_PROCESSED; + dst += backslash_and_quote::BYTES_PROCESSED; + } + } + /* can't be reached */ + return nullptr; +} + +simdjson_unused simdjson_warn_unused simdjson_really_inline error_code parse_string_to_buffer(const uint8_t *src, uint8_t *¤t_string_buf_loc, std::string_view &s) { + if (*(src++) != '"') { return STRING_ERROR; } + auto end = stringparsing::parse_string(src, current_string_buf_loc); + if (!end) { return STRING_ERROR; } + s = std::string_view((const char *)current_string_buf_loc, end-current_string_buf_loc); + current_string_buf_loc = end; + return SUCCESS; +} + +} // namespace stringparsing +} // unnamed namespace +} // namespace haswell +} // namespace simdjson +/* end file include/simdjson/generic/stringparsing.h */ + +#endif // SIMDJSON_HASWELL_STRINGPARSING_H +/* end file include/simdjson/haswell/stringparsing.h */ +/* begin file include/simdjson/haswell/numberparsing.h */ +#ifndef SIMDJSON_HASWELL_NUMBERPARSING_H +#define SIMDJSON_HASWELL_NUMBERPARSING_H + +namespace simdjson { +namespace haswell { +namespace { + +static simdjson_really_inline uint32_t parse_eight_digits_unrolled(const uint8_t *chars) { + // this actually computes *16* values so we are being wasteful. + const __m128i ascii0 = _mm_set1_epi8('0'); + const __m128i mul_1_10 = + _mm_setr_epi8(10, 1, 10, 1, 10, 1, 10, 1, 10, 1, 10, 1, 10, 1, 10, 1); + const __m128i mul_1_100 = _mm_setr_epi16(100, 1, 100, 1, 100, 1, 100, 1); + const __m128i mul_1_10000 = + _mm_setr_epi16(10000, 1, 10000, 1, 10000, 1, 10000, 1); + const __m128i input = _mm_sub_epi8( + _mm_loadu_si128(reinterpret_cast(chars)), ascii0); + const __m128i t1 = _mm_maddubs_epi16(input, mul_1_10); + const __m128i t2 = _mm_madd_epi16(t1, mul_1_100); + const __m128i t3 = _mm_packus_epi32(t2, t2); + const __m128i t4 = _mm_madd_epi16(t3, mul_1_10000); + return _mm_cvtsi128_si32( + t4); // only captures the sum of the first 8 digits, drop the rest +} + +} // unnamed namespace +} // namespace haswell +} // namespace simdjson + +#define SWAR_NUMBER_PARSING + +/* begin file include/simdjson/generic/numberparsing.h */ +#include + +namespace simdjson { +namespace haswell { +namespace { +/// @private +namespace numberparsing { + + + +#ifdef JSON_TEST_NUMBERS +#define INVALID_NUMBER(SRC) (found_invalid_number((SRC)), NUMBER_ERROR) +#define WRITE_INTEGER(VALUE, SRC, WRITER) (found_integer((VALUE), (SRC)), (WRITER).append_s64((VALUE))) +#define WRITE_UNSIGNED(VALUE, SRC, WRITER) (found_unsigned_integer((VALUE), (SRC)), (WRITER).append_u64((VALUE))) +#define WRITE_DOUBLE(VALUE, SRC, WRITER) (found_float((VALUE), (SRC)), (WRITER).append_double((VALUE))) +#else +#define INVALID_NUMBER(SRC) (NUMBER_ERROR) +#define WRITE_INTEGER(VALUE, SRC, WRITER) (WRITER).append_s64((VALUE)) +#define WRITE_UNSIGNED(VALUE, SRC, WRITER) (WRITER).append_u64((VALUE)) +#define WRITE_DOUBLE(VALUE, SRC, WRITER) (WRITER).append_double((VALUE)) +#endif + +namespace { +// Convert a mantissa, an exponent and a sign bit into an ieee64 double. +// The real_exponent needs to be in [0, 2046] (technically real_exponent = 2047 would be acceptable). +// The mantissa should be in [0,1<<53). The bit at index (1ULL << 52) while be zeroed. +simdjson_really_inline double to_double(uint64_t mantissa, uint64_t real_exponent, bool negative) { + double d; + mantissa &= ~(1ULL << 52); + mantissa |= real_exponent << 52; + mantissa |= (((uint64_t)negative) << 63); + std::memcpy(&d, &mantissa, sizeof(d)); + return d; +} +} +// Attempts to compute i * 10^(power) exactly; and if "negative" is +// true, negate the result. +// This function will only work in some cases, when it does not work, success is +// set to false. This should work *most of the time* (like 99% of the time). +// We assume that power is in the [smallest_power, +// largest_power] interval: the caller is responsible for this check. +simdjson_really_inline bool compute_float_64(int64_t power, uint64_t i, bool negative, double &d) { + // we start with a fast path + // It was described in + // Clinger WD. How to read floating point numbers accurately. + // ACM SIGPLAN Notices. 1990 +#ifndef FLT_EVAL_METHOD +#error "FLT_EVAL_METHOD should be defined, please include cfloat." +#endif +#if (FLT_EVAL_METHOD != 1) && (FLT_EVAL_METHOD != 0) + // We cannot be certain that x/y is rounded to nearest. + if (0 <= power && power <= 22 && i <= 9007199254740991) { +#else + if (-22 <= power && power <= 22 && i <= 9007199254740991) { +#endif + // convert the integer into a double. This is lossless since + // 0 <= i <= 2^53 - 1. + d = double(i); + // + // The general idea is as follows. + // If 0 <= s < 2^53 and if 10^0 <= p <= 10^22 then + // 1) Both s and p can be represented exactly as 64-bit floating-point + // values + // (binary64). + // 2) Because s and p can be represented exactly as floating-point values, + // then s * p + // and s / p will produce correctly rounded values. + // + if (power < 0) { + d = d / simdjson::internal::power_of_ten[-power]; + } else { + d = d * simdjson::internal::power_of_ten[power]; + } + if (negative) { + d = -d; + } + return true; + } + // When 22 < power && power < 22 + 16, we could + // hope for another, secondary fast path. It was + // described by David M. Gay in "Correctly rounded + // binary-decimal and decimal-binary conversions." (1990) + // If you need to compute i * 10^(22 + x) for x < 16, + // first compute i * 10^x, if you know that result is exact + // (e.g., when i * 10^x < 2^53), + // then you can still proceed and do (i * 10^x) * 10^22. + // Is this worth your time? + // You need 22 < power *and* power < 22 + 16 *and* (i * 10^(x-22) < 2^53) + // for this second fast path to work. + // If you you have 22 < power *and* power < 22 + 16, and then you + // optimistically compute "i * 10^(x-22)", there is still a chance that you + // have wasted your time if i * 10^(x-22) >= 2^53. It makes the use cases of + // this optimization maybe less common than we would like. Source: + // http://www.exploringbinary.com/fast-path-decimal-to-floating-point-conversion/ + // also used in RapidJSON: https://rapidjson.org/strtod_8h_source.html + + // The fast path has now failed, so we are failing back on the slower path. + + // In the slow path, we need to adjust i so that it is > 1<<63 which is always + // possible, except if i == 0, so we handle i == 0 separately. + if(i == 0) { + d = 0.0; + return true; + } + + + // The exponent is 1024 + 63 + power + // + floor(log(5**power)/log(2)). + // The 1024 comes from the ieee64 standard. + // The 63 comes from the fact that we use a 64-bit word. + // + // Computing floor(log(5**power)/log(2)) could be + // slow. Instead we use a fast function. + // + // For power in (-400,350), we have that + // (((152170 + 65536) * power ) >> 16); + // is equal to + // floor(log(5**power)/log(2)) + power when power >= 0 + // and it is equal to + // ceil(log(5**-power)/log(2)) + power when power < 0 + // + // The 65536 is (1<<16) and corresponds to + // (65536 * power) >> 16 ---> power + // + // ((152170 * power ) >> 16) is equal to + // floor(log(5**power)/log(2)) + // + // Note that this is not magic: 152170/(1<<16) is + // approximatively equal to log(5)/log(2). + // The 1<<16 value is a power of two; we could use a + // larger power of 2 if we wanted to. + // + int64_t exponent = (((152170 + 65536) * power) >> 16) + 1024 + 63; + + + // We want the most significant bit of i to be 1. Shift if needed. + int lz = leading_zeroes(i); + i <<= lz; + + + // We are going to need to do some 64-bit arithmetic to get a precise product. + // We use a table lookup approach. + // It is safe because + // power >= smallest_power + // and power <= largest_power + // We recover the mantissa of the power, it has a leading 1. It is always + // rounded down. + // + // We want the most significant 64 bits of the product. We know + // this will be non-zero because the most significant bit of i is + // 1. + const uint32_t index = 2 * uint32_t(power - simdjson::internal::smallest_power); + // Optimization: It may be that materializing the index as a variable might confuse some compilers and prevent effective complex-addressing loads. (Done for code clarity.) + // + // The full_multiplication function computes the 128-bit product of two 64-bit words + // with a returned value of type value128 with a "low component" corresponding to the + // 64-bit least significant bits of the product and with a "high component" corresponding + // to the 64-bit most significant bits of the product. + simdjson::internal::value128 firstproduct = jsoncharutils::full_multiplication(i, simdjson::internal::power_of_five_128[index]); + // Both i and power_of_five_128[index] have their most significant bit set to 1 which + // implies that the either the most or the second most significant bit of the product + // is 1. We pack values in this manner for efficiency reasons: it maximizes the use + // we make of the product. It also makes it easy to reason aboutthe product: there + // 0 or 1 leading zero in the product. + + // Unless the least significant 9 bits of the high (64-bit) part of the full + // product are all 1s, then we know that the most significant 55 bits are + // exact and no further work is needed. Having 55 bits is necessary because + // we need 53 bits for the mantissa but we have to have one rounding bit and + // we can waste a bit if the most significant bit of the product is zero. + if((firstproduct.high & 0x1FF) == 0x1FF) { + // We want to compute i * 5^q, but only care about the top 55 bits at most. + // Consider the scenario where q>=0. Then 5^q may not fit in 64-bits. Doing + // the full computation is wasteful. So we do what is called a "truncated + // multiplication". + // We take the most significant 64-bits, and we put them in + // power_of_five_128[index]. Usually, that's good enough to approximate i * 5^q + // to the desired approximation using one multiplication. Sometimes it does not suffice. + // Then we store the next most significant 64 bits in power_of_five_128[index + 1], and + // then we get a better approximation to i * 5^q. In very rare cases, even that + // will not suffice, though it is seemingly very hard to find such a scenario. + // + // That's for when q>=0. The logic for q<0 is somewhat similar but it is somewhat + // more complicated. + // + // There is an extra layer of complexity in that we need more than 55 bits of + // accuracy in the round-to-even scenario. + // + // The full_multiplication function computes the 128-bit product of two 64-bit words + // with a returned value of type value128 with a "low component" corresponding to the + // 64-bit least significant bits of the product and with a "high component" corresponding + // to the 64-bit most significant bits of the product. + simdjson::internal::value128 secondproduct = jsoncharutils::full_multiplication(i, simdjson::internal::power_of_five_128[index + 1]); + firstproduct.low += secondproduct.high; + if(secondproduct.high > firstproduct.low) { firstproduct.high++; } + // At this point, we might need to add at most one to firstproduct, but this + // can only change the value of firstproduct.high if firstproduct.low is maximal. + if(simdjson_unlikely(firstproduct.low == 0xFFFFFFFFFFFFFFFF)) { + // This is very unlikely, but if so, we need to do much more work! + return false; + } + } + uint64_t lower = firstproduct.low; + uint64_t upper = firstproduct.high; + // The final mantissa should be 53 bits with a leading 1. + // We shift it so that it occupies 54 bits with a leading 1. + /////// + uint64_t upperbit = upper >> 63; + uint64_t mantissa = upper >> (upperbit + 9); + lz += int(1 ^ upperbit); + + // Here we have mantissa < (1<<54). + int64_t real_exponent = exponent - lz; + if (simdjson_unlikely(real_exponent <= 0)) { // we have a subnormal? + // Here have that real_exponent <= 0 so -real_exponent >= 0 + if(-real_exponent + 1 >= 64) { // if we have more than 64 bits below the minimum exponent, you have a zero for sure. + d = 0.0; + return true; + } + // next line is safe because -real_exponent + 1 < 0 + mantissa >>= -real_exponent + 1; + // Thankfully, we can't have both "round-to-even" and subnormals because + // "round-to-even" only occurs for powers close to 0. + mantissa += (mantissa & 1); // round up + mantissa >>= 1; + // There is a weird scenario where we don't have a subnormal but just. + // Suppose we start with 2.2250738585072013e-308, we end up + // with 0x3fffffffffffff x 2^-1023-53 which is technically subnormal + // whereas 0x40000000000000 x 2^-1023-53 is normal. Now, we need to round + // up 0x3fffffffffffff x 2^-1023-53 and once we do, we are no longer + // subnormal, but we can only know this after rounding. + // So we only declare a subnormal if we are smaller than the threshold. + real_exponent = (mantissa < (uint64_t(1) << 52)) ? 0 : 1; + d = to_double(mantissa, real_exponent, negative); + return true; + } + // We have to round to even. The "to even" part + // is only a problem when we are right in between two floats + // which we guard against. + // If we have lots of trailing zeros, we may fall right between two + // floating-point values. + // + // The round-to-even cases take the form of a number 2m+1 which is in (2^53,2^54] + // times a power of two. That is, it is right between a number with binary significand + // m and another number with binary significand m+1; and it must be the case + // that it cannot be represented by a float itself. + // + // We must have that w * 10 ^q == (2m+1) * 2^p for some power of two 2^p. + // Recall that 10^q = 5^q * 2^q. + // When q >= 0, we must have that (2m+1) is divible by 5^q, so 5^q <= 2^54. We have that + // 5^23 <= 2^54 and it is the last power of five to qualify, so q <= 23. + // When q<0, we have w >= (2m+1) x 5^{-q}. We must have that w<2^{64} so + // (2m+1) x 5^{-q} < 2^{64}. We have that 2m+1>2^{53}. Hence, we must have + // 2^{53} x 5^{-q} < 2^{64}. + // Hence we have 5^{-q} < 2^{11}$ or q>= -4. + // + // We require lower <= 1 and not lower == 0 because we could not prove that + // that lower == 0 is implied; but we could prove that lower <= 1 is a necessary and sufficient test. + if (simdjson_unlikely((lower <= 1) && (power >= -4) && (power <= 23) && ((mantissa & 3) == 1))) { + if((mantissa << (upperbit + 64 - 53 - 2)) == upper) { + mantissa &= ~1; // flip it so that we do not round up + } + } + + mantissa += mantissa & 1; + mantissa >>= 1; + + // Here we have mantissa < (1<<53), unless there was an overflow + if (mantissa >= (1ULL << 53)) { + ////////// + // This will happen when parsing values such as 7.2057594037927933e+16 + //////// + mantissa = (1ULL << 52); + real_exponent++; + } + mantissa &= ~(1ULL << 52); + // we have to check that real_exponent is in range, otherwise we bail out + if (simdjson_unlikely(real_exponent > 2046)) { + // We have an infinte value!!! We could actually throw an error here if we could. + return false; + } + d = to_double(mantissa, real_exponent, negative); + return true; +} + +// We call a fallback floating-point parser that might be slow. Note +// it will accept JSON numbers, but the JSON spec. is more restrictive so +// before you call parse_float_fallback, you need to have validated the input +// string with the JSON grammar. +// It will return an error (false) if the parsed number is infinite. +// The string parsing itself always succeeds. We know that there is at least +// one digit. +static bool parse_float_fallback(const uint8_t *ptr, double *outDouble) { + *outDouble = simdjson::internal::from_chars((const char *)ptr); + // We do not accept infinite values. + + // Detecting finite values in a portable manner is ridiculously hard, ideally + // we would want to do: + // return !std::isfinite(*outDouble); + // but that mysteriously fails under legacy/old libc++ libraries, see + // https://github.com/simdjson/simdjson/issues/1286 + // + // Therefore, fall back to this solution (the extra parens are there + // to handle that max may be a macro on windows). + return !(*outDouble > (std::numeric_limits::max)() || *outDouble < std::numeric_limits::lowest()); +} + +// check quickly whether the next 8 chars are made of digits +// at a glance, it looks better than Mula's +// http://0x80.pl/articles/swar-digits-validate.html +simdjson_really_inline bool is_made_of_eight_digits_fast(const uint8_t *chars) { + uint64_t val; + // this can read up to 7 bytes beyond the buffer size, but we require + // SIMDJSON_PADDING of padding + static_assert(7 <= SIMDJSON_PADDING, "SIMDJSON_PADDING must be bigger than 7"); + std::memcpy(&val, chars, 8); + // a branchy method might be faster: + // return (( val & 0xF0F0F0F0F0F0F0F0 ) == 0x3030303030303030) + // && (( (val + 0x0606060606060606) & 0xF0F0F0F0F0F0F0F0 ) == + // 0x3030303030303030); + return (((val & 0xF0F0F0F0F0F0F0F0) | + (((val + 0x0606060606060606) & 0xF0F0F0F0F0F0F0F0) >> 4)) == + 0x3333333333333333); +} + +template +error_code slow_float_parsing(simdjson_unused const uint8_t * src, W writer) { + double d; + if (parse_float_fallback(src, &d)) { + writer.append_double(d); + return SUCCESS; + } + return INVALID_NUMBER(src); +} + +template +NO_SANITIZE_UNDEFINED // We deliberately allow overflow here and check later +simdjson_really_inline bool parse_digit(const uint8_t c, I &i) { + const uint8_t digit = static_cast(c - '0'); + if (digit > 9) { + return false; + } + // PERF NOTE: multiplication by 10 is cheaper than arbitrary integer multiplication + i = 10 * i + digit; // might overflow, we will handle the overflow later + return true; +} + +simdjson_really_inline error_code parse_decimal(simdjson_unused const uint8_t *const src, const uint8_t *&p, uint64_t &i, int64_t &exponent) { + // we continue with the fiction that we have an integer. If the + // floating point number is representable as x * 10^z for some integer + // z that fits in 53 bits, then we will be able to convert back the + // the integer into a float in a lossless manner. + const uint8_t *const first_after_period = p; + +#ifdef SWAR_NUMBER_PARSING + // this helps if we have lots of decimals! + // this turns out to be frequent enough. + if (is_made_of_eight_digits_fast(p)) { + i = i * 100000000 + parse_eight_digits_unrolled(p); + p += 8; + } +#endif + // Unrolling the first digit makes a small difference on some implementations (e.g. westmere) + if (parse_digit(*p, i)) { ++p; } + while (parse_digit(*p, i)) { p++; } + exponent = first_after_period - p; + // Decimal without digits (123.) is illegal + if (exponent == 0) { + return INVALID_NUMBER(src); + } + return SUCCESS; +} + +simdjson_really_inline error_code parse_exponent(simdjson_unused const uint8_t *const src, const uint8_t *&p, int64_t &exponent) { + // Exp Sign: -123.456e[-]78 + bool neg_exp = ('-' == *p); + if (neg_exp || '+' == *p) { p++; } // Skip + as well + + // Exponent: -123.456e-[78] + auto start_exp = p; + int64_t exp_number = 0; + while (parse_digit(*p, exp_number)) { ++p; } + // It is possible for parse_digit to overflow. + // In particular, it could overflow to INT64_MIN, and we cannot do - INT64_MIN. + // Thus we *must* check for possible overflow before we negate exp_number. + + // Performance notes: it may seem like combining the two "simdjson_unlikely checks" below into + // a single simdjson_unlikely path would be faster. The reasoning is sound, but the compiler may + // not oblige and may, in fact, generate two distinct paths in any case. It might be + // possible to do uint64_t(p - start_exp - 1) >= 18 but it could end up trading off + // instructions for a simdjson_likely branch, an unconclusive gain. + + // If there were no digits, it's an error. + if (simdjson_unlikely(p == start_exp)) { + return INVALID_NUMBER(src); + } + // We have a valid positive exponent in exp_number at this point, except that + // it may have overflowed. + + // If there were more than 18 digits, we may have overflowed the integer. We have to do + // something!!!! + if (simdjson_unlikely(p > start_exp+18)) { + // Skip leading zeroes: 1e000000000000000000001 is technically valid and doesn't overflow + while (*start_exp == '0') { start_exp++; } + // 19 digits could overflow int64_t and is kind of absurd anyway. We don't + // support exponents smaller than -999,999,999,999,999,999 and bigger + // than 999,999,999,999,999,999. + // We can truncate. + // Note that 999999999999999999 is assuredly too large. The maximal ieee64 value before + // infinity is ~1.8e308. The smallest subnormal is ~5e-324. So, actually, we could + // truncate at 324. + // Note that there is no reason to fail per se at this point in time. + // E.g., 0e999999999999999999999 is a fine number. + if (p > start_exp+18) { exp_number = 999999999999999999; } + } + // At this point, we know that exp_number is a sane, positive, signed integer. + // It is <= 999,999,999,999,999,999. As long as 'exponent' is in + // [-8223372036854775808, 8223372036854775808], we won't overflow. Because 'exponent' + // is bounded in magnitude by the size of the JSON input, we are fine in this universe. + // To sum it up: the next line should never overflow. + exponent += (neg_exp ? -exp_number : exp_number); + return SUCCESS; +} + +simdjson_really_inline int significant_digits(const uint8_t * start_digits, int digit_count) { + // It is possible that the integer had an overflow. + // We have to handle the case where we have 0.0000somenumber. + const uint8_t *start = start_digits; + while ((*start == '0') || (*start == '.')) { + start++; + } + // we over-decrement by one when there is a '.' + return digit_count - int(start - start_digits); +} + +template +simdjson_really_inline error_code write_float(const uint8_t *const src, bool negative, uint64_t i, const uint8_t * start_digits, int digit_count, int64_t exponent, W &writer) { + // If we frequently had to deal with long strings of digits, + // we could extend our code by using a 128-bit integer instead + // of a 64-bit integer. However, this is uncommon in practice. + // + // 9999999999999999999 < 2**64 so we can accomodate 19 digits. + // If we have a decimal separator, then digit_count - 1 is the number of digits, but we + // may not have a decimal separator! + if (simdjson_unlikely(digit_count > 19 && significant_digits(start_digits, digit_count) > 19)) { + // Ok, chances are good that we had an overflow! + // this is almost never going to get called!!! + // we start anew, going slowly!!! + // This will happen in the following examples: + // 10000000000000000000000000000000000000000000e+308 + // 3.1415926535897932384626433832795028841971693993751 + // + // NOTE: This makes a *copy* of the writer and passes it to slow_float_parsing. This happens + // because slow_float_parsing is a non-inlined function. If we passed our writer reference to + // it, it would force it to be stored in memory, preventing the compiler from picking it apart + // and putting into registers. i.e. if we pass it as reference, it gets slow. + // This is what forces the skip_double, as well. + error_code error = slow_float_parsing(src, writer); + writer.skip_double(); + return error; + } + // NOTE: it's weird that the simdjson_unlikely() only wraps half the if, but it seems to get slower any other + // way we've tried: https://github.com/simdjson/simdjson/pull/990#discussion_r448497331 + // To future reader: we'd love if someone found a better way, or at least could explain this result! + if (simdjson_unlikely(exponent < simdjson::internal::smallest_power) || (exponent > simdjson::internal::largest_power)) { + // + // Important: smallest_power is such that it leads to a zero value. + // Observe that 18446744073709551615e-343 == 0, i.e. (2**64 - 1) e -343 is zero + // so something x 10^-343 goes to zero, but not so with something x 10^-342. + static_assert(simdjson::internal::smallest_power <= -342, "smallest_power is not small enough"); + // + if((exponent < simdjson::internal::smallest_power) || (i == 0)) { + WRITE_DOUBLE(0, src, writer); + return SUCCESS; + } else { // (exponent > largest_power) and (i != 0) + // We have, for sure, an infinite value and simdjson refuses to parse infinite values. + return INVALID_NUMBER(src); + } + } + double d; + if (!compute_float_64(exponent, i, negative, d)) { + // we are almost never going to get here. + if (!parse_float_fallback(src, &d)) { return INVALID_NUMBER(src); } + } + WRITE_DOUBLE(d, src, writer); + return SUCCESS; +} + +// for performance analysis, it is sometimes useful to skip parsing +#ifdef SIMDJSON_SKIPNUMBERPARSING + +template +simdjson_really_inline error_code parse_number(const uint8_t *const, W &writer) { + writer.append_s64(0); // always write zero + return SUCCESS; // always succeeds +} + +simdjson_unused simdjson_really_inline simdjson_result parse_unsigned(const uint8_t * const src) noexcept { return 0; } +simdjson_unused simdjson_really_inline simdjson_result parse_integer(const uint8_t * const src) noexcept { return 0; } +simdjson_unused simdjson_really_inline simdjson_result parse_double(const uint8_t * const src) noexcept { return 0; } + +#else + +// parse the number at src +// define JSON_TEST_NUMBERS for unit testing +// +// It is assumed that the number is followed by a structural ({,},],[) character +// or a white space character. If that is not the case (e.g., when the JSON +// document is made of a single number), then it is necessary to copy the +// content and append a space before calling this function. +// +// Our objective is accurate parsing (ULP of 0) at high speed. +template +simdjson_really_inline error_code parse_number(const uint8_t *const src, W &writer) { + + // + // Check for minus sign + // + bool negative = (*src == '-'); + const uint8_t *p = src + negative; + + // + // Parse the integer part. + // + // PERF NOTE: we don't use is_made_of_eight_digits_fast because large integers like 123456789 are rare + const uint8_t *const start_digits = p; + uint64_t i = 0; + while (parse_digit(*p, i)) { p++; } + + // If there were no digits, or if the integer starts with 0 and has more than one digit, it's an error. + int digit_count = int(p - start_digits); + if (digit_count == 0 || ('0' == *start_digits && digit_count > 1)) { return INVALID_NUMBER(src); } + + // + // Handle floats if there is a . or e (or both) + // + int64_t exponent = 0; + bool is_float = false; + if ('.' == *p) { + is_float = true; + ++p; + SIMDJSON_TRY( parse_decimal(src, p, i, exponent) ); + digit_count = int(p - start_digits); // used later to guard against overflows + } + if (('e' == *p) || ('E' == *p)) { + is_float = true; + ++p; + SIMDJSON_TRY( parse_exponent(src, p, exponent) ); + } + if (is_float) { + const bool clean_end = jsoncharutils::is_structural_or_whitespace(*p); + SIMDJSON_TRY( write_float(src, negative, i, start_digits, digit_count, exponent, writer) ); + if (!clean_end) { return INVALID_NUMBER(src); } + return SUCCESS; + } + + // The longest negative 64-bit number is 19 digits. + // The longest positive 64-bit number is 20 digits. + // We do it this way so we don't trigger this branch unless we must. + int longest_digit_count = negative ? 19 : 20; + if (digit_count > longest_digit_count) { return INVALID_NUMBER(src); } + if (digit_count == longest_digit_count) { + if (negative) { + // Anything negative above INT64_MAX+1 is invalid + if (i > uint64_t(INT64_MAX)+1) { return INVALID_NUMBER(src); } + WRITE_INTEGER(~i+1, src, writer); + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return INVALID_NUMBER(src); } + return SUCCESS; + // Positive overflow check: + // - A 20 digit number starting with 2-9 is overflow, because 18,446,744,073,709,551,615 is the + // biggest uint64_t. + // - A 20 digit number starting with 1 is overflow if it is less than INT64_MAX. + // If we got here, it's a 20 digit number starting with the digit "1". + // - If a 20 digit number starting with 1 overflowed (i*10+digit), the result will be smaller + // than 1,553,255,926,290,448,384. + // - That is smaller than the smallest possible 20-digit number the user could write: + // 10,000,000,000,000,000,000. + // - Therefore, if the number is positive and lower than that, it's overflow. + // - The value we are looking at is less than or equal to 9,223,372,036,854,775,808 (INT64_MAX). + // + } else if (src[0] != uint8_t('1') || i <= uint64_t(INT64_MAX)) { return INVALID_NUMBER(src); } + } + + // Write unsigned if it doesn't fit in a signed integer. + if (i > uint64_t(INT64_MAX)) { + WRITE_UNSIGNED(i, src, writer); + } else { + WRITE_INTEGER(negative ? (~i+1) : i, src, writer); + } + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return INVALID_NUMBER(src); } + return SUCCESS; +} + +// SAX functions +namespace { +// Parse any number from 0 to 18,446,744,073,709,551,615 +simdjson_unused simdjson_really_inline simdjson_result parse_unsigned(const uint8_t * const src) noexcept { + const uint8_t *p = src; + + // + // Parse the integer part. + // + // PERF NOTE: we don't use is_made_of_eight_digits_fast because large integers like 123456789 are rare + const uint8_t *const start_digits = p; + uint64_t i = 0; + while (parse_digit(*p, i)) { p++; } + + // If there were no digits, or if the integer starts with 0 and has more than one digit, it's an error. + int digit_count = int(p - start_digits); + if (digit_count == 0 || ('0' == *start_digits && digit_count > 1)) { return NUMBER_ERROR; } + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return NUMBER_ERROR; } + + // The longest positive 64-bit number is 20 digits. + // We do it this way so we don't trigger this branch unless we must. + if (digit_count > 20) { return NUMBER_ERROR; } + if (digit_count == 20) { + // Positive overflow check: + // - A 20 digit number starting with 2-9 is overflow, because 18,446,744,073,709,551,615 is the + // biggest uint64_t. + // - A 20 digit number starting with 1 is overflow if it is less than INT64_MAX. + // If we got here, it's a 20 digit number starting with the digit "1". + // - If a 20 digit number starting with 1 overflowed (i*10+digit), the result will be smaller + // than 1,553,255,926,290,448,384. + // - That is smaller than the smallest possible 20-digit number the user could write: + // 10,000,000,000,000,000,000. + // - Therefore, if the number is positive and lower than that, it's overflow. + // - The value we are looking at is less than or equal to 9,223,372,036,854,775,808 (INT64_MAX). + // + if (src[0] != uint8_t('1') || i <= uint64_t(INT64_MAX)) { return NUMBER_ERROR; } + } + + return i; +} + +// Parse any number from -9,223,372,036,854,775,808 to 9,223,372,036,854,775,807 +simdjson_unused simdjson_really_inline simdjson_result parse_integer(const uint8_t *src) noexcept { + // + // Check for minus sign + // + bool negative = (*src == '-'); + const uint8_t *p = src + negative; + + // + // Parse the integer part. + // + // PERF NOTE: we don't use is_made_of_eight_digits_fast because large integers like 123456789 are rare + const uint8_t *const start_digits = p; + uint64_t i = 0; + while (parse_digit(*p, i)) { p++; } + + // If there were no digits, or if the integer starts with 0 and has more than one digit, it's an error. + int digit_count = int(p - start_digits); + if (digit_count == 0 || ('0' == *start_digits && digit_count > 1)) { return NUMBER_ERROR; } + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return NUMBER_ERROR; } + + // The longest negative 64-bit number is 19 digits. + // The longest positive 64-bit number is 20 digits. + // We do it this way so we don't trigger this branch unless we must. + int longest_digit_count = negative ? 19 : 20; + if (digit_count > longest_digit_count) { return NUMBER_ERROR; } + if (digit_count == longest_digit_count) { + if(negative) { + // Anything negative above INT64_MAX+1 is invalid + if (i > uint64_t(INT64_MAX)+1) { return NUMBER_ERROR; } + return ~i+1; + + // Positive overflow check: + // - A 20 digit number starting with 2-9 is overflow, because 18,446,744,073,709,551,615 is the + // biggest uint64_t. + // - A 20 digit number starting with 1 is overflow if it is less than INT64_MAX. + // If we got here, it's a 20 digit number starting with the digit "1". + // - If a 20 digit number starting with 1 overflowed (i*10+digit), the result will be smaller + // than 1,553,255,926,290,448,384. + // - That is smaller than the smallest possible 20-digit number the user could write: + // 10,000,000,000,000,000,000. + // - Therefore, if the number is positive and lower than that, it's overflow. + // - The value we are looking at is less than or equal to 9,223,372,036,854,775,808 (INT64_MAX). + // + } else if (src[0] != uint8_t('1') || i <= uint64_t(INT64_MAX)) { return NUMBER_ERROR; } + } + + return negative ? (~i+1) : i; +} + +simdjson_unused simdjson_really_inline simdjson_result parse_double(const uint8_t * src) noexcept { + // + // Check for minus sign + // + bool negative = (*src == '-'); + src += negative; + + // + // Parse the integer part. + // + uint64_t i = 0; + const uint8_t *p = src; + p += parse_digit(*p, i); + bool leading_zero = (i == 0); + while (parse_digit(*p, i)) { p++; } + // no integer digits, or 0123 (zero must be solo) + if ( p == src || (leading_zero && p != src+1)) { return NUMBER_ERROR; } + + // + // Parse the decimal part. + // + int64_t exponent = 0; + bool overflow; + if (simdjson_likely(*p == '.')) { + p++; + const uint8_t *start_decimal_digits = p; + if (!parse_digit(*p, i)) { return NUMBER_ERROR; } // no decimal digits + p++; + while (parse_digit(*p, i)) { p++; } + exponent = -(p - start_decimal_digits); + + // Overflow check. More than 19 digits (minus the decimal) may be overflow. + overflow = p-src-1 > 19; + if (simdjson_unlikely(overflow && leading_zero)) { + // Skip leading 0.00000 and see if it still overflows + const uint8_t *start_digits = src + 2; + while (*start_digits == '0') { start_digits++; } + overflow = start_digits-src > 19; + } + } else { + overflow = p-src > 19; + } + + // + // Parse the exponent + // + if (*p == 'e' || *p == 'E') { + p++; + bool exp_neg = *p == '-'; + p += exp_neg || *p == '+'; + + uint64_t exp = 0; + const uint8_t *start_exp_digits = p; + while (parse_digit(*p, exp)) { p++; } + // no exp digits, or 20+ exp digits + if (p-start_exp_digits == 0 || p-start_exp_digits > 19) { return NUMBER_ERROR; } + + exponent += exp_neg ? 0-exp : exp; + } + + if (jsoncharutils::is_not_structural_or_whitespace(*p)) { return NUMBER_ERROR; } + + overflow = overflow || exponent < simdjson::internal::smallest_power || exponent > simdjson::internal::largest_power; + + // + // Assemble (or slow-parse) the float + // + double d; + if (simdjson_likely(!overflow)) { + if (compute_float_64(exponent, i, negative, d)) { return d; } + } + if (!parse_float_fallback(src-negative, &d)) { + return NUMBER_ERROR; + } + return d; +} +} //namespace {} +#endif // SIMDJSON_SKIPNUMBERPARSING + +} // namespace numberparsing +} // unnamed namespace +} // namespace haswell +} // namespace simdjson +/* end file include/simdjson/generic/numberparsing.h */ + +#endif // SIMDJSON_HASWELL_NUMBERPARSING_H +/* end file include/simdjson/haswell/numberparsing.h */ +/* begin file include/simdjson/generic/implementation_simdjson_result_base.h */ +namespace simdjson { +namespace haswell { + +// This is a near copy of include/error.h's implementation_simdjson_result_base, except it doesn't use std::pair +// so we can avoid inlining errors +// TODO reconcile these! +/** + * The result of a simdjson operation that could fail. + * + * Gives the option of reading error codes, or throwing an exception by casting to the desired result. + * + * This is a base class for implementations that want to add functions to the result type for + * chaining. + * + * Override like: + * + * struct simdjson_result : public internal::implementation_simdjson_result_base { + * simdjson_result() noexcept : internal::implementation_simdjson_result_base() {} + * simdjson_result(error_code error) noexcept : internal::implementation_simdjson_result_base(error) {} + * simdjson_result(T &&value) noexcept : internal::implementation_simdjson_result_base(std::forward(value)) {} + * simdjson_result(T &&value, error_code error) noexcept : internal::implementation_simdjson_result_base(value, error) {} + * // Your extra methods here + * } + * + * Then any method returning simdjson_result will be chainable with your methods. + */ +template +struct implementation_simdjson_result_base { + + /** + * Create a new empty result with error = UNINITIALIZED. + */ + simdjson_really_inline implementation_simdjson_result_base() noexcept = default; + + /** + * Create a new error result. + */ + simdjson_really_inline implementation_simdjson_result_base(error_code error) noexcept; + + /** + * Create a new successful result. + */ + simdjson_really_inline implementation_simdjson_result_base(T &&value) noexcept; + + /** + * Create a new result with both things (use if you don't want to branch when creating the result). + */ + simdjson_really_inline implementation_simdjson_result_base(T &&value, error_code error) noexcept; + + /** + * Move the value and the error to the provided variables. + * + * @param value The variable to assign the value to. May not be set if there is an error. + * @param error The variable to assign the error to. Set to SUCCESS if there is no error. + */ + simdjson_really_inline void tie(T &value, error_code &error) && noexcept; + + /** + * Move the value to the provided variable. + * + * @param value The variable to assign the value to. May not be set if there is an error. + */ + simdjson_really_inline error_code get(T &value) && noexcept; + + /** + * The error. + */ + simdjson_really_inline error_code error() const noexcept; + +#if SIMDJSON_EXCEPTIONS + + /** + * Get the result value. + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T& value() & noexcept(false); + + /** + * Take the result value (move it). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T&& value() && noexcept(false); + + /** + * Take the result value (move it). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T&& take_value() && noexcept(false); + + /** + * Cast to the value (will throw on error). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline operator T&&() && noexcept(false); + +#endif // SIMDJSON_EXCEPTIONS + + T first{}; + error_code second{UNINITIALIZED}; +}; // struct implementation_simdjson_result_base + +} // namespace haswell +} // namespace simdjson +/* end file include/simdjson/generic/implementation_simdjson_result_base.h */ +/* begin file include/simdjson/generic/ondemand.h */ +namespace simdjson { +namespace haswell { +/** + * A fast, simple, DOM-like interface that parses JSON as you use it. + * + * Designed for maximum speed and a lower memory profile. + */ +namespace ondemand { + +/** Represents the depth of a JSON value (number of nested arrays/objects). */ +using depth_t = int32_t; + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +/* begin file include/simdjson/generic/ondemand/token_position.h */ +namespace simdjson { +namespace haswell { +namespace ondemand { + +/** @private Position in the JSON buffer indexes */ +using token_position = const uint32_t *; + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/token_position.h */ +/* begin file include/simdjson/generic/ondemand/logger.h */ +namespace simdjson { +namespace haswell { +namespace ondemand { + +class json_iterator; +class value_iterator; + +namespace logger { + +#if SIMDJSON_VERBOSE_LOGGING + static constexpr const bool LOG_ENABLED = true; +#else + static constexpr const bool LOG_ENABLED = false; +#endif + +static simdjson_really_inline void log_headers() noexcept; +static simdjson_really_inline void log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept; +static simdjson_really_inline void log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept; +static simdjson_really_inline void log_event(const json_iterator &iter, const char *type, std::string_view detail="", int delta=0, int depth_delta=0) noexcept; +static simdjson_really_inline void log_value(const json_iterator &iter, const char *type, std::string_view detail="", int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_value(const json_iterator &iter, token_position index, depth_t depth, const char *type, std::string_view detail="") noexcept; +static simdjson_really_inline void log_start_value(const json_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_end_value(const json_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_error(const json_iterator &iter, const char *error, const char *detail="", int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_error(const json_iterator &iter, token_position index, depth_t depth, const char *error, const char *detail="") noexcept; + +static simdjson_really_inline void log_event(const value_iterator &iter, const char *type, std::string_view detail="", int delta=0, int depth_delta=0) noexcept; +static simdjson_really_inline void log_value(const value_iterator &iter, const char *type, std::string_view detail="", int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_start_value(const value_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_end_value(const value_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_error(const value_iterator &iter, const char *error, const char *detail="", int delta=-1, int depth_delta=0) noexcept; + +} // namespace logger +} // namespace ondemand +} // namespace haswell +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/logger.h */ +/* begin file include/simdjson/generic/ondemand/raw_json_string.h */ + +namespace simdjson { +namespace haswell { +namespace ondemand { + +class object; +class parser; +class json_iterator; + +/** + * A string escaped per JSON rules, terminated with quote ("). They are used to represent + * unescaped keys inside JSON documents. + * + * (In other words, a pointer to the beginning of a string, just after the start quote, inside a + * JSON file.) + * + * This class is deliberately simplistic and has little functionality. You can + * compare two raw_json_string instances, or compare a raw_json_string with a string_view, but + * that is pretty much all you can do. + * + * They originate typically from field instance which in turn represent key-value pairs from + * object instances. From a field instance, you get the raw_json_string instance by calling key(). + * You can, if you want a more usable string_view instance, call the unescaped_key() method + * on the field instance. + */ +class raw_json_string { +public: + /** + * Create a new invalid raw_json_string. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline raw_json_string() noexcept = default; + + /** + * Create a new invalid raw_json_string pointed at the given location in the JSON. + * + * The given location must be just *after* the beginning quote (") in the JSON file. + * + * It *must* be terminated by a ", and be a valid JSON string. + */ + simdjson_really_inline raw_json_string(const uint8_t * _buf) noexcept; + /** + * Get the raw pointer to the beginning of the string in the JSON (just after the "). + * + * It is possible for this function to return a null pointer if the instance + * has outlived its existence. + */ + simdjson_really_inline const char * raw() const noexcept; + +private: + /** + * This will set the inner pointer to zero, effectively making + * this instance unusable. + */ + simdjson_really_inline void consume() noexcept { buf = nullptr; } + + /** + * Checks whether the inner pointer is non-null and thus usable. + */ + simdjson_really_inline simdjson_warn_unused bool alive() const noexcept { return buf != nullptr; } + + /** + * Unescape this JSON string, replacing \\ with \, \n with newline, etc. + * + * ## IMPORTANT: string_view lifetime + * + * The string_view is only valid as long as the bytes in dst. + * + * @param dst A pointer to a buffer at least large enough to write this string as well as a \0. + * dst will be updated to the next unused location (just after the \0 written out at + * the end of this string). + * @return A string_view pointing at the unescaped string in dst + * @error STRING_ERROR if escapes are incorrect. + */ + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(uint8_t *&dst) const noexcept; + /** + * Unescape this JSON string, replacing \\ with \, \n with newline, etc. + * + * ## IMPORTANT: string_view lifetime + * + * The string_view is only valid until the next parse() call on the parser. + * + * @param iter A json_iterator, which contains a buffer where the string will be written. + */ + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(json_iterator &iter) const noexcept; + + const uint8_t * buf{}; + friend class object; + friend class field; + friend struct simdjson_result; +}; + +simdjson_unused simdjson_really_inline bool operator==(const raw_json_string &a, std::string_view b) noexcept; +simdjson_unused simdjson_really_inline bool operator==(std::string_view a, const raw_json_string &b) noexcept; +simdjson_unused simdjson_really_inline bool operator!=(const raw_json_string &a, std::string_view b) noexcept; +simdjson_unused simdjson_really_inline bool operator!=(std::string_view a, const raw_json_string &b) noexcept; + +simdjson_unused simdjson_really_inline std::ostream &operator<<(std::ostream &, const raw_json_string &) noexcept; + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public haswell::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(haswell::ondemand::raw_json_string &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + simdjson_really_inline ~simdjson_result() noexcept = default; ///< @private + + simdjson_really_inline simdjson_result raw() const noexcept; + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(uint8_t *&dst) const noexcept; + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(haswell::ondemand::json_iterator &iter) const noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/raw_json_string.h */ +/* begin file include/simdjson/generic/ondemand/token_iterator.h */ +namespace simdjson { +namespace haswell { +namespace ondemand { + +/** + * Iterates through JSON tokens (`{` `}` `[` `]` `,` `:` `""` `123` `true` `false` `null`) + * detected by stage 1. + * + * @private This is not intended for external use. + */ +class token_iterator { +public: + /** + * Create a new invalid token_iterator. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline token_iterator() noexcept = default; + simdjson_really_inline token_iterator(token_iterator &&other) noexcept = default; + simdjson_really_inline token_iterator &operator=(token_iterator &&other) noexcept = default; + simdjson_really_inline token_iterator(const token_iterator &other) noexcept = default; + simdjson_really_inline token_iterator &operator=(const token_iterator &other) noexcept = default; + + /** + * Advance to the next token (returning the current one). + * + * Does not check or update depth/expect_value. Caller is responsible for that. + */ + simdjson_really_inline const uint8_t *advance() noexcept; + + /** + * Get the JSON text for a given token (relative). + * + * This is not null-terminated; it is a view into the JSON. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = current token, + * 1 = next token, -1 = prev token. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(int32_t delta=0) const noexcept; + /** + * Get the maximum length of the JSON text for a given token. + * + * The length will include any whitespace at the end of the token. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = current token, + * 1 = next token, -1 = prev token. + */ + simdjson_really_inline uint32_t peek_length(int32_t delta=0) const noexcept; + + /** + * Get the JSON text for a given token. + * + * This is not null-terminated; it is a view into the JSON. + * + * @param position The position of the token. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(token_position position) const noexcept; + /** + * Get the maximum length of the JSON text for a given token. + * + * The length will include any whitespace at the end of the token. + * + * @param position The position of the token. + */ + simdjson_really_inline uint32_t peek_length(token_position position) const noexcept; + + /** + * Save the current index to be restored later. + */ + simdjson_really_inline token_position position() const noexcept; + /** + * Reset to a previously saved index. + */ + simdjson_really_inline void set_position(token_position target_checkpoint) noexcept; + + // NOTE: we don't support a full C++ iterator interface, because we expect people to make + // different calls to advance the iterator based on *their own* state. + + simdjson_really_inline bool operator==(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator!=(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator>(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator>=(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator<(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator<=(const token_iterator &other) const noexcept; + +protected: + simdjson_really_inline token_iterator(const uint8_t *buf, token_position index) noexcept; + + /** + * Get the index of the JSON text for a given token (relative). + * + * This is not null-terminated; it is a view into the JSON. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = current token, + * 1 = next token, -1 = prev token. + */ + simdjson_really_inline uint32_t peek_index(int32_t delta=0) const noexcept; + /** + * Get the index of the JSON text for a given token. + * + * This is not null-terminated; it is a view into the JSON. + * + * @param position The position of the token. + * + */ + simdjson_really_inline uint32_t peek_index(token_position position) const noexcept; + + const uint8_t *buf{}; + token_position index{}; + + friend class json_iterator; + friend class value_iterator; + friend class object; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept; +}; + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public haswell::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(haswell::ondemand::token_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + simdjson_really_inline ~simdjson_result() noexcept = default; ///< @private +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/token_iterator.h */ +/* begin file include/simdjson/generic/ondemand/json_iterator.h */ +namespace simdjson { +namespace haswell { +namespace ondemand { + +class document; +class object; +class array; +class value; +class raw_json_string; +class parser; + +/** + * Iterates through JSON tokens, keeping track of depth and string buffer. + * + * @private This is not intended for external use. + */ +class json_iterator { +protected: + token_iterator token{}; + ondemand::parser *parser{}; + /** + * Next free location in the string buffer. + * + * Used by raw_json_string::unescape() to have a place to unescape strings to. + */ + uint8_t *_string_buf_loc{}; + /** + * JSON error, if there is one. + * + * INCORRECT_TYPE and NO_SUCH_FIELD are *not* stored here, ever. + * + * PERF NOTE: we *hope* this will be elided into control flow, as it is only used (a) in the first + * iteration of the loop, or (b) for the final iteration after a missing comma is found in ++. If + * this is not elided, we should make sure it's at least not using up a register. Failing that, + * we should store it in document so there's only one of them. + */ + error_code error{SUCCESS}; + /** + * Depth of the current token in the JSON. + * + * - 0 = finished with document + * - 1 = document root value (could be [ or {, not yet known) + * - 2 = , or } inside root array/object + * - 3 = key or value inside root array/object. + */ + depth_t _depth{}; + +public: + simdjson_really_inline json_iterator() noexcept = default; + simdjson_really_inline json_iterator(json_iterator &&other) noexcept; + simdjson_really_inline json_iterator &operator=(json_iterator &&other) noexcept; + simdjson_really_inline json_iterator(const json_iterator &other) noexcept = delete; + simdjson_really_inline json_iterator &operator=(const json_iterator &other) noexcept = delete; + + /** + * Skips a JSON value, whether it is a scalar, array or object. + */ + simdjson_warn_unused simdjson_really_inline error_code skip_child(depth_t parent_depth) noexcept; + + /** + * Tell whether the iterator is still at the start + */ + simdjson_really_inline bool at_root() const noexcept; + + /** + * Get the root value iterator + */ + simdjson_really_inline token_position root_checkpoint() const noexcept; + + /** + * Assert if the iterator is not at the start + */ + simdjson_really_inline void assert_at_root() const noexcept; + + /** + * Tell whether the iterator is at the EOF mark + */ + simdjson_really_inline bool at_eof() const noexcept; + + /** + * Tell whether the iterator is live (has not been moved). + */ + simdjson_really_inline bool is_alive() const noexcept; + + /** + * Abandon this iterator, setting depth to 0 (as if the document is finished). + */ + simdjson_really_inline void abandon() noexcept; + + /** + * Advance the current token. + */ + simdjson_really_inline const uint8_t *advance() noexcept; + + /** + * Get the JSON text for a given token (relative). + * + * This is not null-terminated; it is a view into the JSON. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = next token, -1 = prev token. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(int32_t delta=0) const noexcept; + /** + * Get the maximum length of the JSON text for the current token (or relative). + * + * The length will include any whitespace at the end of the token. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = next token, -1 = prev token. + */ + simdjson_really_inline uint32_t peek_length(int32_t delta=0) const noexcept; + /** + * Get the JSON text for a given token. + * + * This is not null-terminated; it is a view into the JSON. + * + * @param index The position of the token to retrieve. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(token_position position) const noexcept; + /** + * Get the maximum length of the JSON text for the current token (or relative). + * + * The length will include any whitespace at the end of the token. + * + * @param index The position of the token to retrieve. + */ + simdjson_really_inline uint32_t peek_length(token_position position) const noexcept; + + /** + * Ascend one level. + * + * Validates that the depth - 1 == parent_depth. + * + * @param parent_depth the expected parent depth. + */ + simdjson_really_inline void ascend_to(depth_t parent_depth) noexcept; + + /** + * Descend one level. + * + * Validates that the new depth == child_depth. + * + * @param child_depth the expected child depth. + */ + simdjson_really_inline void descend_to(depth_t parent_depth) noexcept; + + /** + * Get current depth. + */ + simdjson_really_inline depth_t depth() const noexcept; + + /** + * Get current (writeable) location in the string buffer. + */ + simdjson_really_inline uint8_t *&string_buf_loc() noexcept; + + /** + * Report an error, preventing further iteration. + * + * @param error The error to report. Must not be SUCCESS, UNINITIALIZED, INCORRECT_TYPE, or NO_SUCH_FIELD. + * @param message An error message to report with the error. + */ + simdjson_really_inline error_code report_error(error_code error, const char *message) noexcept; + + /** + * Log error, but don't stop iteration. + * @param error The error to report. Must be INCORRECT_TYPE, or NO_SUCH_FIELD. + * @param message An error message to report with the error. + */ + simdjson_really_inline error_code optional_error(error_code error, const char *message) noexcept; + + template simdjson_warn_unused simdjson_really_inline bool copy_to_buffer(const uint8_t *json, uint32_t max_len, uint8_t (&tmpbuf)[N]) noexcept; + template simdjson_warn_unused simdjson_really_inline bool peek_to_buffer(uint8_t (&tmpbuf)[N]) noexcept; + template simdjson_warn_unused simdjson_really_inline bool advance_to_buffer(uint8_t (&tmpbuf)[N]) noexcept; + + simdjson_really_inline token_position position() const noexcept; + simdjson_really_inline void set_position(token_position target_checkpoint) noexcept; + +protected: + simdjson_really_inline json_iterator(const uint8_t *buf, ondemand::parser *parser) noexcept; + + friend class document; + friend class object; + friend class array; + friend class value; + friend class raw_json_string; + friend class parser; + friend class value_iterator; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept; +}; // json_iterator + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public haswell::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(haswell::ondemand::json_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + + simdjson_really_inline simdjson_result() noexcept = default; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/json_iterator.h */ +/* begin file include/simdjson/generic/ondemand/value_iterator.h */ +namespace simdjson { +namespace haswell { +namespace ondemand { + +class document; +class object; +class array; +class value; +class raw_json_string; +class parser; + +/** + * Iterates through a single JSON value at a particular depth. + * + * Does not keep track of the type of value: provides methods for objects, arrays and scalars and expects + * the caller to call the right ones. + * + * @private This is not intended for external use. + */ +class value_iterator { +protected: + /** The underlying JSON iterator */ + json_iterator *_json_iter{}; + /** The depth of this value */ + depth_t _depth{}; + /** + * The starting token index for this value + * + * PERF NOTE: this is a safety check; we expect this to be elided in release builds. + */ + token_position _start_position{}; + +public: + simdjson_really_inline value_iterator() noexcept = default; + + /** + * Denote that we're starting a document. + */ + simdjson_really_inline void start_document() noexcept; + + /** + * Skips a non-iterated or partially-iterated JSON value, whether it is a scalar, array or object. + * + * Optimized for scalars. + */ + simdjson_warn_unused simdjson_really_inline error_code skip_child() noexcept; + + /** + * Tell whether the iterator is at the EOF mark + */ + simdjson_really_inline bool at_eof() const noexcept; + + /** + * Tell whether the iterator is at the start of the value + */ + simdjson_really_inline bool at_start() const noexcept; + + /** + * Tell whether the value is open--if the value has not been used, or the array/object is still open. + */ + simdjson_really_inline bool is_open() const noexcept; + + /** + * Tell whether the value is at an object's first field (just after the {). + */ + simdjson_really_inline bool at_first_field() const noexcept; + + /** + * Abandon all iteration. + */ + simdjson_really_inline void abandon() noexcept; + + /** + * Get the child value as a value_iterator. + */ + simdjson_really_inline value_iterator child_value() const noexcept; + + /** + * Get the depth of this value. + */ + simdjson_really_inline depth_t depth() const noexcept; + + /** + * @addtogroup object Object iteration + * + * Methods to iterate and find object fields. These methods generally *assume* the value is + * actually an object; the caller is responsible for keeping track of that fact. + * + * @{ + */ + + /** + * Start an object iteration. + * + * @returns Whether the object had any fields (returns false for empty). + * @error INCORRECT_TYPE if there is no opening { + */ + simdjson_warn_unused simdjson_really_inline simdjson_result start_object() noexcept; + /** + * Check for an opening { and start an object iteration. + * + * @returns Whether the object had any fields (returns false for empty). + * @error INCORRECT_TYPE if there is no opening { + */ + simdjson_warn_unused simdjson_really_inline simdjson_result try_start_object() noexcept; + + /** + * Start an object iteration after the user has already checked and moved past the {. + * + * Does not move the iterator. + * + * @returns Whether the object had any fields (returns false for empty). + */ + simdjson_warn_unused simdjson_really_inline bool started_object() noexcept; + + /** + * Moves to the next field in an object. + * + * Looks for , and }. If } is found, the object is finished and the iterator advances past it. + * Otherwise, it advances to the next value. + * + * @return whether there is another field in the object. + * @error TAPE_ERROR If there is a comma missing between fields. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result has_next_field() noexcept; + + /** + * Get the current field's key. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result field_key() noexcept; + + /** + * Pass the : in the field and move to its value. + */ + simdjson_warn_unused simdjson_really_inline error_code field_value() noexcept; + + /** + * Find the next field with the given key. + * + * Assumes you have called next_field() or otherwise matched the previous value. + * + * This means the iterator must be sitting at the next key: + * + * ``` + * { "a": 1, "b": 2 } + * ^ + * ``` + * + * Key is *raw JSON,* meaning it will be matched against the verbatim JSON without attempting to + * unescape it. This works well for typical ASCII and UTF-8 keys (almost all of them), but may + * fail to match some keys with escapes (\u, \n, etc.). + */ + simdjson_warn_unused simdjson_really_inline error_code find_field(const std::string_view key) noexcept; + + /** + * Find the next field with the given key, *without* unescaping. This assumes object order: it + * will not find the field if it was already passed when looking for some *other* field. + * + * Assumes you have called next_field() or otherwise matched the previous value. + * + * This means the iterator must be sitting at the next key: + * + * ``` + * { "a": 1, "b": 2 } + * ^ + * ``` + * + * Key is *raw JSON,* meaning it will be matched against the verbatim JSON without attempting to + * unescape it. This works well for typical ASCII and UTF-8 keys (almost all of them), but may + * fail to match some keys with escapes (\u, \n, etc.). + */ + simdjson_warn_unused simdjson_really_inline simdjson_result find_field_raw(const std::string_view key) noexcept; + + /** + * Find the field with the given key without regard to order, and *without* unescaping. + * + * This is an unordered object lookup: if the field is not found initially, it will cycle around and scan from the beginning. + * + * Assumes you have called next_field() or otherwise matched the previous value. + * + * This means the iterator must be sitting at the next key: + * + * ``` + * { "a": 1, "b": 2 } + * ^ + * ``` + * + * Key is *raw JSON,* meaning it will be matched against the verbatim JSON without attempting to + * unescape it. This works well for typical ASCII and UTF-8 keys (almost all of them), but may + * fail to match some keys with escapes (\u, \n, etc.). + */ + simdjson_warn_unused simdjson_really_inline simdjson_result find_field_unordered_raw(const std::string_view key) noexcept; + + /** @} */ + + /** + * @addtogroup array Array iteration + * Methods to iterate over array elements. These methods generally *assume* the value is actually + * an object; the caller is responsible for keeping track of that fact. + * @{ + */ + + /** + * Check for an opening [ and start an array iteration. + * + * @param json A pointer to the potential [. + * @returns Whether the array had any elements (returns false for empty). + * @error INCORRECT_TYPE If there is no [. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result start_array() noexcept; + /** + * Check for an opening [ and start an array iteration. + * + * @returns Whether the array had any elements (returns false for empty). + * @error INCORRECT_TYPE If there is no [. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result try_start_array() noexcept; + + /** + * Start an array iteration after the user has already checked and moved past the [. + * + * Does not move the iterator. + * + * @returns Whether the array had any elements (returns false for empty). + */ + simdjson_warn_unused simdjson_really_inline bool started_array() noexcept; + + /** + * Moves to the next element in an array. + * + * Looks for , and ]. If ] is found, the array is finished and the iterator advances past it. + * Otherwise, it advances to the next value. + * + * @return Whether there is another element in the array. + * @error TAPE_ERROR If there is a comma missing between elements. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result has_next_element() noexcept; + + /** + * Get a child value iterator. + */ + simdjson_warn_unused simdjson_really_inline value_iterator child() const noexcept; + + /** @} */ + + /** + * @defgroup scalar Scalar values + * @addtogroup scalar + * @{ + */ + + simdjson_warn_unused simdjson_really_inline simdjson_result get_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_uint64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_int64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_double() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_bool() noexcept; + simdjson_really_inline bool is_null() noexcept; + + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_raw_json_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_uint64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_int64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_double() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_bool() noexcept; + simdjson_really_inline bool is_root_null() noexcept; + + simdjson_really_inline error_code error() const noexcept; + simdjson_really_inline uint8_t *&string_buf_loc() noexcept; + simdjson_really_inline const json_iterator &json_iter() const noexcept; + simdjson_really_inline json_iterator &json_iter() noexcept; + + /** @} */ + +protected: + simdjson_really_inline value_iterator(json_iterator *json_iter, depth_t depth, token_position start_index) noexcept; + + simdjson_really_inline bool parse_null(const uint8_t *json) const noexcept; + simdjson_really_inline simdjson_result parse_bool(const uint8_t *json) const noexcept; + + simdjson_really_inline const uint8_t *peek_scalar() const noexcept; + simdjson_really_inline uint32_t peek_scalar_length() const noexcept; + simdjson_really_inline const uint8_t *advance_scalar(const char *type) const noexcept; + simdjson_really_inline const uint8_t *advance_root_scalar(const char *type) const noexcept; + simdjson_really_inline const uint8_t *advance_non_root_scalar(const char *type) const noexcept; + + simdjson_really_inline error_code incorrect_type_error(const char *message) const noexcept; + + simdjson_really_inline bool is_at_start() const noexcept; + simdjson_really_inline void assert_at_start() const noexcept; + simdjson_really_inline void assert_at_root() const noexcept; + simdjson_really_inline void assert_at_child() const noexcept; + simdjson_really_inline void assert_at_next() const noexcept; + simdjson_really_inline void assert_at_non_root_start() const noexcept; + + friend class document; + friend class object; + friend class array; + friend class value; +}; // value_iterator + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public haswell::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(haswell::ondemand::value_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value_iterator.h */ +/* begin file include/simdjson/generic/ondemand/array_iterator.h */ + +namespace simdjson { +namespace haswell { +namespace ondemand { + +class array; +class value; +class document; + +/** + * A forward-only JSON array. + * + * This is an input_iterator, meaning: + * - It is forward-only + * - * must be called exactly once per element. + * - ++ must be called exactly once in between each * (*, ++, *, ++, * ...) + */ +class array_iterator { +public: + /** Create a new, invalid array iterator. */ + simdjson_really_inline array_iterator() noexcept = default; + + // + // Iterator interface + // + + /** + * Get the current element. + * + * Part of the std::iterator interface. + */ + simdjson_really_inline simdjson_result operator*() noexcept; // MUST ONLY BE CALLED ONCE PER ITERATION. + /** + * Check if we are at the end of the JSON. + * + * Part of the std::iterator interface. + * + * @return true if there are no more elements in the JSON array. + */ + simdjson_really_inline bool operator==(const array_iterator &) const noexcept; + /** + * Check if there are more elements in the JSON array. + * + * Part of the std::iterator interface. + * + * @return true if there are more elements in the JSON array. + */ + simdjson_really_inline bool operator!=(const array_iterator &) const noexcept; + /** + * Move to the next element. + * + * Part of the std::iterator interface. + */ + simdjson_really_inline array_iterator &operator++() noexcept; + +private: + value_iterator iter{}; + + simdjson_really_inline array_iterator(const value_iterator &iter) noexcept; + + friend class array; + friend class value; + friend struct simdjson_result; +}; + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public haswell::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(haswell::ondemand::array_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + // + // Iterator interface + // + + simdjson_really_inline simdjson_result operator*() noexcept; // MUST ONLY BE CALLED ONCE PER ITERATION. + simdjson_really_inline bool operator==(const simdjson_result &) const noexcept; + simdjson_really_inline bool operator!=(const simdjson_result &) const noexcept; + simdjson_really_inline simdjson_result &operator++() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array_iterator.h */ +/* begin file include/simdjson/generic/ondemand/object_iterator.h */ + +namespace simdjson { +namespace haswell { +namespace ondemand { + +class field; + +class object_iterator { +public: + /** + * Create a new invalid object_iterator. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline object_iterator() noexcept = default; + + // + // Iterator interface + // + + // Reads key and value, yielding them to the user. + // MUST ONLY BE CALLED ONCE PER ITERATION. + simdjson_really_inline simdjson_result operator*() noexcept; + // Assumes it's being compared with the end. true if depth < iter->depth. + simdjson_really_inline bool operator==(const object_iterator &) const noexcept; + // Assumes it's being compared with the end. true if depth >= iter->depth. + simdjson_really_inline bool operator!=(const object_iterator &) const noexcept; + // Checks for ']' and ',' + simdjson_really_inline object_iterator &operator++() noexcept; + +private: + /** + * The underlying JSON iterator. + * + * PERF NOTE: expected to be elided in favor of the parent document: this is set when the object + * is first used, and never changes afterwards. + */ + value_iterator iter{}; + + simdjson_really_inline object_iterator(const value_iterator &iter) noexcept; + friend struct simdjson_result; + friend class object; +}; + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public haswell::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(haswell::ondemand::object_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + // + // Iterator interface + // + + // Reads key and value, yielding them to the user. + simdjson_really_inline simdjson_result operator*() noexcept; // MUST ONLY BE CALLED ONCE PER ITERATION. + // Assumes it's being compared with the end. true if depth < iter->depth. + simdjson_really_inline bool operator==(const simdjson_result &) const noexcept; + // Assumes it's being compared with the end. true if depth >= iter->depth. + simdjson_really_inline bool operator!=(const simdjson_result &) const noexcept; + // Checks for ']' and ',' + simdjson_really_inline simdjson_result &operator++() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object_iterator.h */ +/* begin file include/simdjson/generic/ondemand/array.h */ + +namespace simdjson { +namespace haswell { +namespace ondemand { + +class value; +class document; + +/** + * A forward-only JSON array. + */ +class array { +public: + /** + * Create a new invalid array. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline array() noexcept = default; + + /** + * Begin array iteration. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline array_iterator begin() noexcept; + /** + * Sentinel representing the end of the array. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline array_iterator end() noexcept; + +protected: + /** + * Begin array iteration. + * + * @param iter The iterator. Must be where the initial [ is expected. Will be *moved* into the + * resulting array. + * @error INCORRECT_TYPE if the iterator is not at [. + */ + static simdjson_really_inline simdjson_result start(value_iterator &iter) noexcept; + /** + * Begin array iteration. + * + * @param iter The iterator. Must be where the initial [ is expected. Will be *moved* into the + * resulting array. + * @error INCORRECT_TYPE if the iterator is not at [. + */ + static simdjson_really_inline simdjson_result try_start(value_iterator &iter) noexcept; + /** + * Begin array iteration. + * + * This version of the method should be called after the initial [ has been verified, and is + * intended for use by switch statements that check the type of a value. + * + * @param iter The iterator. Must be after the initial [. Will be *moved* into the resulting array. + */ + static simdjson_really_inline array started(value_iterator &iter) noexcept; + + /** + * Create an array at the given Internal array creation. Call array::start() or array::started() instead of this. + * + * @param iter The iterator. Must either be at the start of the first element with iter.is_alive() + * == true, or past the [] with is_alive() == false if the array is empty. Will be *moved* + * into the resulting array. + */ + simdjson_really_inline array(const value_iterator &iter) noexcept; + + /** + * Iterator marking current position. + * + * iter.is_alive() == false indicates iteration is complete. + */ + value_iterator iter{}; + + friend class value; + friend struct simdjson_result; + friend struct simdjson_result; + friend class array_iterator; +}; + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public haswell::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(haswell::ondemand::array &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result begin() noexcept; + simdjson_really_inline simdjson_result end() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array.h */ +/* begin file include/simdjson/generic/ondemand/document.h */ + +namespace simdjson { +namespace haswell { +namespace ondemand { + +class parser; +class array; +class object; +class value; +class raw_json_string; +class array_iterator; + +/** + * A JSON document iteration. + * + * Used by tokens to get text, and string buffer location. + * + * You must keep the document around during iteration. + */ +class document { +public: + /** + * Create a new invalid document. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline document() noexcept = default; + simdjson_really_inline document(const document &other) noexcept = delete; + simdjson_really_inline document(document &&other) noexcept = default; + simdjson_really_inline document &operator=(const document &other) noexcept = delete; + simdjson_really_inline document &operator=(document &&other) noexcept = default; + + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @returns INCORRECT_TYPE If the JSON value is not an array. + */ + simdjson_really_inline simdjson_result get_array() & noexcept; + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @returns INCORRECT_TYPE If the JSON value is not an object. + */ + simdjson_really_inline simdjson_result get_object() & noexcept; + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline simdjson_result get_uint64() noexcept; + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline simdjson_result get_int64() noexcept; + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @returns INCORRECT_TYPE If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline simdjson_result get_double() noexcept; + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_string() noexcept; + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @returns INCORRECT_TYPE if the JSON value is not true or false. + */ + simdjson_really_inline simdjson_result get_bool() noexcept; + /** + * Checks if this JSON value is null. + * + * @returns Whether the value is null. + */ + simdjson_really_inline bool is_null() noexcept; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @returns A value of the given type, parsed from the JSON. + * @returns INCORRECT_TYPE If the JSON value is not the given type. + */ + template simdjson_really_inline simdjson_result get() & noexcept; + /** @overload template simdjson_result get() & noexcept */ + template simdjson_really_inline simdjson_result get() && noexcept; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @param out This is set to a value of the given type, parsed from the JSON. If there is an error, this may not be initialized. + * @returns INCORRECT_TYPE If the JSON value is not an object. + * @returns SUCCESS If the parse succeeded and the out parameter was set to the value. + */ + template simdjson_really_inline error_code get(T &out) & noexcept; + /** @overload template error_code get(T &out) & noexcept */ + template simdjson_really_inline error_code get(T &out) && noexcept; + +#if SIMDJSON_EXCEPTIONS + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an array. + */ + simdjson_really_inline operator array() & noexcept(false); + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an object. + */ + simdjson_really_inline operator object() & noexcept(false); + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline operator uint64_t() noexcept(false); + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline operator int64_t() noexcept(false); + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline operator double() noexcept(false); + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator std::string_view() noexcept(false); + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator raw_json_string() noexcept(false); + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not true or false. + */ + simdjson_really_inline operator bool() noexcept(false); +#endif + + /** + * Begin array iteration. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline simdjson_result begin() & noexcept; + /** + * Sentinel representing the end of the array. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline simdjson_result end() & noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + +protected: + simdjson_really_inline document(ondemand::json_iterator &&iter) noexcept; + simdjson_really_inline const uint8_t *text(uint32_t idx) const noexcept; + + simdjson_really_inline value_iterator resume_value_iterator() noexcept; + simdjson_really_inline value_iterator get_root_value_iterator() noexcept; + simdjson_really_inline value resume_value() noexcept; + simdjson_really_inline value get_root_value() noexcept; + static simdjson_really_inline document start(ondemand::json_iterator &&iter) noexcept; + + // + // Fields + // + json_iterator iter{}; ///< Current position in the document + static constexpr depth_t DOCUMENT_DEPTH = 0; ///< document depth is always 0 + + friend struct simdjson_result; + friend class array_iterator; + friend class value; + friend class ondemand::parser; + friend class object; + friend class array; + friend class field; + friend class token; +}; + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public haswell::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(haswell::ondemand::document &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result get_array() & noexcept; + simdjson_really_inline simdjson_result get_object() & noexcept; + simdjson_really_inline simdjson_result get_uint64() noexcept; + simdjson_really_inline simdjson_result get_int64() noexcept; + simdjson_really_inline simdjson_result get_double() noexcept; + simdjson_really_inline simdjson_result get_string() noexcept; + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + simdjson_really_inline simdjson_result get_bool() noexcept; + simdjson_really_inline bool is_null() noexcept; + + template simdjson_really_inline simdjson_result get() & noexcept; + template simdjson_really_inline simdjson_result get() && noexcept; + + template simdjson_really_inline error_code get(T &out) & noexcept; + template simdjson_really_inline error_code get(T &out) && noexcept; + +#if SIMDJSON_EXCEPTIONS + simdjson_really_inline operator haswell::ondemand::array() & noexcept(false); + simdjson_really_inline operator haswell::ondemand::object() & noexcept(false); + simdjson_really_inline operator uint64_t() noexcept(false); + simdjson_really_inline operator int64_t() noexcept(false); + simdjson_really_inline operator double() noexcept(false); + simdjson_really_inline operator std::string_view() noexcept(false); + simdjson_really_inline operator haswell::ondemand::raw_json_string() noexcept(false); + simdjson_really_inline operator bool() noexcept(false); +#endif + + simdjson_really_inline simdjson_result begin() & noexcept; + simdjson_really_inline simdjson_result end() & noexcept; + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/document.h */ +/* begin file include/simdjson/generic/ondemand/value.h */ + +namespace simdjson { +namespace haswell { +namespace ondemand { + +class array; +class document; +class field; +class object; +class raw_json_string; + +/** + * An ephemeral JSON value returned during iteration. + */ +class value { +public: + /** + * Create a new invalid value. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline value() noexcept = default; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @returns A value of the given type, parsed from the JSON. + * @returns INCORRECT_TYPE If the JSON value is not the given type. + */ + template simdjson_really_inline simdjson_result get() & noexcept; + /** @overload template simdjson_result get() & noexcept */ + template simdjson_really_inline simdjson_result get() && noexcept; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @param out This is set to a value of the given type, parsed from the JSON. If there is an error, this may not be initialized. + * @returns INCORRECT_TYPE If the JSON value is not an object. + * @returns SUCCESS If the parse succeeded and the out parameter was set to the value. + */ + template simdjson_really_inline error_code get(T &out) & noexcept; + /** @overload template error_code get(T &out) & noexcept */ + template simdjson_really_inline error_code get(T &out) && noexcept; + + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @returns INCORRECT_TYPE If the JSON value is not an array. + */ + simdjson_really_inline simdjson_result get_array() && noexcept; + /** @overload simdjson_really_inline operator get_array() && noexcept(false); */ + simdjson_really_inline simdjson_result get_array() & noexcept; + + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @returns INCORRECT_TYPE If the JSON value is not an object. + */ + simdjson_really_inline simdjson_result get_object() && noexcept; + /** @overload simdjson_really_inline operator object() && noexcept(false); */ + simdjson_really_inline simdjson_result get_object() & noexcept; + + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline simdjson_result get_uint64() noexcept; + + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline simdjson_result get_int64() noexcept; + + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @returns INCORRECT_TYPE If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline simdjson_result get_double() noexcept; + + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_string() noexcept; + + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @returns INCORRECT_TYPE if the JSON value is not true or false. + */ + simdjson_really_inline simdjson_result get_bool() noexcept; + + /** + * Checks if this JSON value is null. + * + * @returns Whether the value is null. + */ + simdjson_really_inline bool is_null() noexcept; + +#if SIMDJSON_EXCEPTIONS + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an array. + */ + simdjson_really_inline operator array() && noexcept(false); + /** @overload simdjson_really_inline operator array() && noexcept(false); */ + simdjson_really_inline operator array() & noexcept(false); + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an object. + */ + simdjson_really_inline operator object() && noexcept(false); + /** @overload simdjson_really_inline operator object() && noexcept(false); */ + simdjson_really_inline operator object() & noexcept(false); + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline operator uint64_t() noexcept(false); + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline operator int64_t() noexcept(false); + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline operator double() noexcept(false); + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator std::string_view() noexcept(false); + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator raw_json_string() noexcept(false); + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not true or false. + */ + simdjson_really_inline operator bool() noexcept(false); +#endif + + /** + * Begin array iteration. + * + * Part of the std::iterable interface. + * + * @returns INCORRECT_TYPE If the JSON value is not an array. + */ + simdjson_really_inline simdjson_result begin() & noexcept; + /** + * Sentinel representing the end of the array. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline simdjson_result end() & noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) && noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) && noexcept; + +protected: + /** + * Create a value. + */ + simdjson_really_inline value(const value_iterator &iter) noexcept; + + /** + * Skip this value, allowing iteration to continue. + */ + simdjson_really_inline void skip() noexcept; + + /** + * Start a value at the current position. + * + * (It should already be started; this is just a self-documentation method.) + */ + static simdjson_really_inline value start(const value_iterator &iter) noexcept; + + /** + * Resume a value. + */ + static simdjson_really_inline value resume(const value_iterator &iter) noexcept; + + /** + * Get the object, starting or resuming it as necessary + */ + simdjson_really_inline simdjson_result start_or_resume_object() & noexcept; + /** @overload simdjson_really_inline simdjson_result start_or_resume_object() & noexcept; */ + simdjson_really_inline simdjson_result start_or_resume_object() && noexcept; + + // simdjson_really_inline void log_value(const char *type) const noexcept; + // simdjson_really_inline void log_error(const char *message) const noexcept; + + value_iterator iter{}; + + friend class document; + friend class array_iterator; + friend class field; + friend class object; + friend struct simdjson_result; + friend struct simdjson_result; + friend struct simdjson_result; +}; + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public haswell::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(haswell::ondemand::value &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result get_array() && noexcept; + simdjson_really_inline simdjson_result get_array() & noexcept; + + simdjson_really_inline simdjson_result get_object() && noexcept; + simdjson_really_inline simdjson_result get_object() & noexcept; + + simdjson_really_inline simdjson_result get_uint64() noexcept; + simdjson_really_inline simdjson_result get_int64() noexcept; + simdjson_really_inline simdjson_result get_double() noexcept; + simdjson_really_inline simdjson_result get_string() noexcept; + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + simdjson_really_inline simdjson_result get_bool() noexcept; + simdjson_really_inline bool is_null() noexcept; + + template simdjson_really_inline simdjson_result get() & noexcept; + template simdjson_really_inline simdjson_result get() && noexcept; + + template simdjson_really_inline error_code get(T &out) & noexcept; + template simdjson_really_inline error_code get(T &out) && noexcept; + +#if SIMDJSON_EXCEPTIONS + simdjson_really_inline operator haswell::ondemand::array() && noexcept(false); + simdjson_really_inline operator haswell::ondemand::array() & noexcept(false); + simdjson_really_inline operator haswell::ondemand::object() && noexcept(false); + simdjson_really_inline operator haswell::ondemand::object() & noexcept(false); + simdjson_really_inline operator uint64_t() noexcept(false); + simdjson_really_inline operator int64_t() noexcept(false); + simdjson_really_inline operator double() noexcept(false); + simdjson_really_inline operator std::string_view() noexcept(false); + simdjson_really_inline operator haswell::ondemand::raw_json_string() noexcept(false); + simdjson_really_inline operator bool() noexcept(false); +#endif + + simdjson_really_inline simdjson_result begin() & noexcept; + simdjson_really_inline simdjson_result end() & noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) && noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) && noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value.h */ +/* begin file include/simdjson/generic/ondemand/field.h */ + +namespace simdjson { +namespace haswell { +namespace ondemand { + +/** + * A JSON field (key/value pair) in an object. + * + * Returned from object iteration. + * + * Extends from std::pair so you can use C++ algorithms that rely on pairs. + */ +class field : public std::pair { +public: + /** + * Create a new invalid field. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline field() noexcept; + + /** + * Get the key as a string_view (for higher speed, consider raw_key). + * We deliberately use a more cumbersome name (unescaped_key) to force users + * to think twice about using it. + * + * This consumes the key: once you have called unescaped_key(), you cannot + * call it again nor can you call key(). + */ + simdjson_really_inline simdjson_warn_unused simdjson_result unescaped_key() noexcept; + /** + * Get the key as a raw_json_string: this is fast and allows straight comparisons. + * We want this to be the default for most users. + */ + simdjson_really_inline raw_json_string key() const noexcept; + /** + * Get the field value. + */ + simdjson_really_inline ondemand::value &value() & noexcept; + /** + * @overload ondemand::value &ondemand::value() & noexcept + */ + simdjson_really_inline ondemand::value value() && noexcept; + +protected: + simdjson_really_inline field(raw_json_string key, ondemand::value &&value) noexcept; + static simdjson_really_inline simdjson_result start(value_iterator &parent_iter) noexcept; + static simdjson_really_inline simdjson_result start(const value_iterator &parent_iter, raw_json_string key) noexcept; + friend struct simdjson_result; + friend class object_iterator; +}; + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public haswell::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(haswell::ondemand::field &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result unescaped_key() noexcept; + simdjson_really_inline simdjson_result key() noexcept; + simdjson_really_inline simdjson_result value() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/field.h */ +/* begin file include/simdjson/generic/ondemand/object.h */ + +namespace simdjson { +namespace haswell { +namespace ondemand { + +/** + * A forward-only JSON object field iterator. + */ +class object { +public: + /** + * Create a new invalid object. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline object() noexcept = default; + + simdjson_really_inline object_iterator begin() noexcept; + simdjson_really_inline object_iterator end() noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; + +protected: + static simdjson_really_inline simdjson_result start(value_iterator &iter) noexcept; + static simdjson_really_inline simdjson_result try_start(value_iterator &iter) noexcept; + static simdjson_really_inline object started(value_iterator &iter) noexcept; + static simdjson_really_inline object resume(const value_iterator &iter) noexcept; + simdjson_really_inline object(const value_iterator &iter) noexcept; + + simdjson_warn_unused simdjson_really_inline error_code find_field_raw(const std::string_view key) noexcept; + + value_iterator iter{}; + + friend class value; + friend class document; + friend struct simdjson_result; +}; + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public haswell::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(haswell::ondemand::object &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result begin() noexcept; + simdjson_really_inline simdjson_result end() noexcept; + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object.h */ +/* begin file include/simdjson/generic/ondemand/parser.h */ + +namespace simdjson { +namespace haswell { +namespace ondemand { + +class array; +class object; +class value; +class raw_json_string; + +/** + * A JSON fragment iterator. + * + * This holds the actual iterator as well as the buffer for writing strings. + */ +class parser { +public: + /** + * Create a JSON parser. + * + * The new parser will have zero capacity. + */ + inline parser() noexcept = default; + + inline parser(parser &&other) noexcept = default; + simdjson_really_inline parser(const parser &other) = delete; + simdjson_really_inline parser &operator=(const parser &other) = delete; + + /** Deallocate the JSON parser. */ + inline ~parser() noexcept = default; + + /** + * Start iterating an on-demand JSON document. + * + * ondemand::parser parser; + * document doc = parser.iterate(json); + * + * ### IMPORTANT: Buffer Lifetime + * + * Because parsing is done while you iterate, you *must* keep the JSON buffer around at least as + * long as the document iteration. + * + * ### IMPORTANT: Document Lifetime + * + * Only one iteration at a time can happen per parser, and the parser *must* be kept alive during + * iteration to ensure intermediate buffers can be accessed. Any document must be destroyed before + * you call parse() again or destroy the parser. + * + * ### REQUIRED: Buffer Padding + * + * The buffer must have at least SIMDJSON_PADDING extra allocated bytes. It does not matter what + * those bytes are initialized to, as long as they are allocated. + * + * @param json The JSON to parse. + * + * @return The document, or an error: + * - MEMALLOC if realloc_if_needed the parser does not have enough capacity, and memory + * allocation fails. + * - EMPTY if the document is all whitespace. + * - UTF8_ERROR if the document is not valid UTF-8. + * - UNESCAPED_CHARS if a string contains control characters that must be escaped + * - UNCLOSED_STRING if there is an unclosed string in the document. + */ + simdjson_warn_unused simdjson_result iterate(const padded_string &json) & noexcept; + simdjson_warn_unused simdjson_result iterate(const simdjson_result &json) & noexcept; + simdjson_warn_unused simdjson_result iterate(padded_string &&json) & noexcept = delete; + simdjson_warn_unused simdjson_result iterate(const std::string_view &json) & noexcept = delete; + simdjson_warn_unused simdjson_result iterate(const std::string &json) & noexcept = delete; + /** + * @private + * + * Start iterating an on-demand JSON document. + * + * ondemand::parser parser; + * json_iterator doc = parser.iterate(json); + * + * ### IMPORTANT: Buffer Lifetime + * + * Because parsing is done while you iterate, you *must* keep the JSON buffer around at least as + * long as the document iteration. + * + * ### IMPORTANT: Document Lifetime + * + * Only one iteration at a time can happen per parser, and the parser *must* be kept alive during + * iteration to ensure intermediate buffers can be accessed. Any document must be destroyed before + * you call parse() again or destroy the parser. + * + * ### REQUIRED: Buffer Padding + * + * The buffer must have at least SIMDJSON_PADDING extra allocated bytes. It does not matter what + * those bytes are initialized to, as long as they are allocated. + * + * @param json The JSON to parse. + * + * @return The iterator, or an error: + * - MEMALLOC if realloc_if_needed the parser does not have enough capacity, and memory + * allocation fails. + * - EMPTY if the document is all whitespace. + * - UTF8_ERROR if the document is not valid UTF-8. + * - UNESCAPED_CHARS if a string contains control characters that must be escaped + * - UNCLOSED_STRING if there is an unclosed string in the document. + */ + simdjson_warn_unused simdjson_result iterate_raw(const padded_string &json) & noexcept; + +private: + /** @private [for benchmarking access] The implementation to use */ + std::unique_ptr dom_parser{}; + size_t _capacity{0}; + size_t _max_depth{0}; + std::unique_ptr string_buf{}; + + /** + * Ensure this parser has enough memory to process JSON documents up to `capacity` bytes in length + * and `max_depth` depth. + * + * @param capacity The new capacity. + * @param max_depth The new max_depth. Defaults to DEFAULT_MAX_DEPTH. + * @return The error, if there is one. + */ + simdjson_warn_unused error_code allocate(size_t capacity, size_t max_depth=DEFAULT_MAX_DEPTH) noexcept; + + friend class json_iterator; +}; + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public haswell::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(haswell::ondemand::parser &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/parser.h */ +/* end file include/simdjson/generic/ondemand.h */ + +// Inline definitions +/* begin file include/simdjson/generic/implementation_simdjson_result_base-inl.h */ +namespace simdjson { +namespace haswell { + +// +// internal::implementation_simdjson_result_base inline implementation +// + +template +simdjson_really_inline void implementation_simdjson_result_base::tie(T &value, error_code &error) && noexcept { + // on the clang compiler that comes with current macOS (Apple clang version 11.0.0), + // tie(width, error) = size["w"].get(); + // fails with "error: no viable overloaded '='"" + error = this->second; + if (!error) { + value = std::forward>(*this).first; + } +} + +template +simdjson_warn_unused simdjson_really_inline error_code implementation_simdjson_result_base::get(T &value) && noexcept { + error_code error; + std::forward>(*this).tie(value, error); + return error; +} + +template +simdjson_really_inline error_code implementation_simdjson_result_base::error() const noexcept { + return this->second; +} + +#if SIMDJSON_EXCEPTIONS + +template +simdjson_really_inline T& implementation_simdjson_result_base::value() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return this->first; +} + +template +simdjson_really_inline T&& implementation_simdjson_result_base::value() && noexcept(false) { + return std::forward>(*this).take_value(); +} + +template +simdjson_really_inline T&& implementation_simdjson_result_base::take_value() && noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return std::forward(this->first); +} + +template +simdjson_really_inline implementation_simdjson_result_base::operator T&&() && noexcept(false) { + return std::forward>(*this).take_value(); +} + +#endif // SIMDJSON_EXCEPTIONS + +template +simdjson_really_inline implementation_simdjson_result_base::implementation_simdjson_result_base(T &&value, error_code error) noexcept + : first{std::forward(value)}, second{error} {} +template +simdjson_really_inline implementation_simdjson_result_base::implementation_simdjson_result_base(error_code error) noexcept + : implementation_simdjson_result_base(T{}, error) {} +template +simdjson_really_inline implementation_simdjson_result_base::implementation_simdjson_result_base(T &&value) noexcept + : implementation_simdjson_result_base(std::forward(value), SUCCESS) {} + +} // namespace haswell +} // namespace simdjson +/* end file include/simdjson/generic/implementation_simdjson_result_base-inl.h */ +/* begin file include/simdjson/generic/ondemand-inl.h */ +/* begin file include/simdjson/generic/ondemand/logger-inl.h */ +namespace simdjson { +namespace haswell { +namespace ondemand { +namespace logger { + +static constexpr const char * DASHES = "----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------"; +static constexpr const int LOG_EVENT_LEN = 20; +static constexpr const int LOG_BUFFER_LEN = 30; +static constexpr const int LOG_SMALL_BUFFER_LEN = 10; +static int log_depth = 0; // Not threadsafe. Log only. + +// Helper to turn unprintable or newline characters into spaces +static simdjson_really_inline char printable_char(char c) { + if (c >= 0x20) { + return c; + } else { + return ' '; + } +} + +simdjson_really_inline void log_event(const json_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_line(iter, "", type, detail, delta, depth_delta); +} +simdjson_really_inline void log_value(const json_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_line(iter, "", type, detail, delta, depth_delta); +} +simdjson_really_inline void log_value(const json_iterator &iter, token_position index, depth_t depth, const char *type, std::string_view detail) noexcept { + log_line(iter, index, depth, "", type, detail); +} +simdjson_really_inline void log_start_value(const json_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_line(iter, "+", type, "", delta, depth_delta); + log_depth++; +} +simdjson_really_inline void log_end_value(const json_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_depth--; + log_line(iter, "-", type, "", delta, depth_delta); +} +simdjson_really_inline void log_error(const json_iterator &iter, const char *error, const char *detail, int delta, int depth_delta) noexcept { + log_line(iter, "ERROR: ", error, detail, delta, depth_delta); +} +simdjson_really_inline void log_error(const json_iterator &iter, token_position index, depth_t depth, const char *error, const char *detail) noexcept { + log_line(iter, index, depth, "ERROR: ", error, detail); +} + +simdjson_really_inline void log_event(const value_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_event(iter.json_iter(), type, detail, delta, depth_delta); +} +simdjson_really_inline void log_value(const value_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_value(iter.json_iter(), type, detail, delta, depth_delta); +} +simdjson_really_inline void log_start_value(const value_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_start_value(iter.json_iter(), type, delta, depth_delta); +} +simdjson_really_inline void log_end_value(const value_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_end_value(iter.json_iter(), type, delta, depth_delta); +} +simdjson_really_inline void log_error(const value_iterator &iter, const char *error, const char *detail, int delta, int depth_delta) noexcept { + log_error(iter.json_iter(), error, detail, delta, depth_delta); +} + +simdjson_really_inline void log_headers() noexcept { + log_depth = 0; + if (LOG_ENABLED) { + printf("\n"); + printf("| %-*s ", LOG_EVENT_LEN, "Event"); + printf("| %-*s ", LOG_BUFFER_LEN, "Buffer"); + printf("| %-*s ", LOG_SMALL_BUFFER_LEN, "Next"); + // printf("| %-*s ", 5, "Next#"); + printf("| %-*s ", 5, "Depth"); + printf("| Detail "); + printf("|\n"); + + printf("|%.*s", LOG_EVENT_LEN+2, DASHES); + printf("|%.*s", LOG_BUFFER_LEN+2, DASHES); + printf("|%.*s", LOG_SMALL_BUFFER_LEN+2, DASHES); + // printf("|%.*s", 5+2, DASHES); + printf("|%.*s", 5+2, DASHES); + printf("|--------"); + printf("|\n"); + fflush(stdout); + } +} + +simdjson_really_inline void log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept { + log_line(iter, iter.token.index+delta, depth_t(iter.depth()+depth_delta), title_prefix, title, detail); +} +simdjson_really_inline void log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept { + if (LOG_ENABLED) { + const int indent = depth*2; + const auto buf = iter.token.buf; + printf("| %*s%s%-*s ", + indent, "", + title_prefix, + LOG_EVENT_LEN - indent - int(strlen(title_prefix)), title + ); + { + // Print the current structural. + printf("| "); + auto current_structural = &buf[*index]; + for (int i=0;i raw_json_string::unescape(uint8_t *&dst) const noexcept { + uint8_t *end = stringparsing::parse_string(buf, dst); + if (!end) { return STRING_ERROR; } + std::string_view result((const char *)dst, end-dst); + dst = end; + return result; +} + +simdjson_really_inline simdjson_warn_unused simdjson_result raw_json_string::unescape(json_iterator &iter) const noexcept { + return unescape(iter.string_buf_loc()); +} + +simdjson_unused simdjson_really_inline bool operator==(const raw_json_string &a, std::string_view b) noexcept { + return !memcmp(a.raw(), b.data(), b.size()); +} + +simdjson_unused simdjson_really_inline bool operator==(std::string_view a, const raw_json_string &b) noexcept { + return b == a; +} + +simdjson_unused simdjson_really_inline bool operator!=(const raw_json_string &a, std::string_view b) noexcept { + return !(a == b); +} + +simdjson_unused simdjson_really_inline bool operator!=(std::string_view a, const raw_json_string &b) noexcept { + return !(a == b); +} + +simdjson_unused simdjson_really_inline std::ostream &operator<<(std::ostream &out, const raw_json_string &str) noexcept { + bool in_escape = false; + const char *s = str.raw(); + while (true) { + switch (*s) { + case '\\': in_escape = !in_escape; break; + case '"': if (in_escape) { in_escape = false; } else { return out; } break; + default: if (in_escape) { in_escape = false; } + } + out << *s; + s++; + } +} + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(haswell::ondemand::raw_json_string &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +simdjson_really_inline simdjson_result simdjson_result::raw() const noexcept { + if (error()) { return error(); } + return first.raw(); +} +simdjson_really_inline simdjson_warn_unused simdjson_result simdjson_result::unescape(uint8_t *&dst) const noexcept { + if (error()) { return error(); } + return first.unescape(dst); +} +simdjson_really_inline simdjson_warn_unused simdjson_result simdjson_result::unescape(haswell::ondemand::json_iterator &iter) const noexcept { + if (error()) { return error(); } + return first.unescape(iter); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/raw_json_string-inl.h */ +/* begin file include/simdjson/generic/ondemand/token_iterator-inl.h */ +namespace simdjson { +namespace haswell { +namespace ondemand { + +simdjson_really_inline token_iterator::token_iterator(const uint8_t *_buf, token_position _index) noexcept + : buf{_buf}, index{_index} +{ +} + +simdjson_really_inline const uint8_t *token_iterator::advance() noexcept { + return &buf[*(index++)]; +} + +simdjson_really_inline const uint8_t *token_iterator::peek(token_position position) const noexcept { + return &buf[*position]; +} +simdjson_really_inline uint32_t token_iterator::peek_index(token_position position) const noexcept { + return *position; +} +simdjson_really_inline uint32_t token_iterator::peek_length(token_position position) const noexcept { + return *(position+1) - *position; +} + +simdjson_really_inline const uint8_t *token_iterator::peek(int32_t delta) const noexcept { + return &buf[*(index+delta)]; +} +simdjson_really_inline uint32_t token_iterator::peek_index(int32_t delta) const noexcept { + return *(index+delta); +} +simdjson_really_inline uint32_t token_iterator::peek_length(int32_t delta) const noexcept { + return *(index+delta+1) - *(index+delta); +} + +simdjson_really_inline token_position token_iterator::position() const noexcept { + return index; +} +simdjson_really_inline void token_iterator::set_position(token_position target_checkpoint) noexcept { + index = target_checkpoint; +} + +simdjson_really_inline bool token_iterator::operator==(const token_iterator &other) const noexcept { + return index == other.index; +} +simdjson_really_inline bool token_iterator::operator!=(const token_iterator &other) const noexcept { + return index != other.index; +} +simdjson_really_inline bool token_iterator::operator>(const token_iterator &other) const noexcept { + return index > other.index; +} +simdjson_really_inline bool token_iterator::operator>=(const token_iterator &other) const noexcept { + return index >= other.index; +} +simdjson_really_inline bool token_iterator::operator<(const token_iterator &other) const noexcept { + return index < other.index; +} +simdjson_really_inline bool token_iterator::operator<=(const token_iterator &other) const noexcept { + return index <= other.index; +} + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(haswell::ondemand::token_iterator &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/token_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/json_iterator-inl.h */ +namespace simdjson { +namespace haswell { +namespace ondemand { + +simdjson_really_inline json_iterator::json_iterator(json_iterator &&other) noexcept + : token(std::forward(other.token)), + parser{other.parser}, + _string_buf_loc{other._string_buf_loc}, + _depth{other._depth} +{ + other.parser = nullptr; +} +simdjson_really_inline json_iterator &json_iterator::operator=(json_iterator &&other) noexcept { + token = other.token; + parser = other.parser; + _string_buf_loc = other._string_buf_loc; + _depth = other._depth; + other.parser = nullptr; + return *this; +} + +simdjson_really_inline json_iterator::json_iterator(const uint8_t *buf, ondemand::parser *_parser) noexcept + : token(buf, _parser->dom_parser->structural_indexes.get()), + parser{_parser}, + _string_buf_loc{parser->string_buf.get()}, + _depth{1} +{ + // Release the string buf so it can be reused by the next document + logger::log_headers(); +} + +// GCC 7 warns when the first line of this function is inlined away into oblivion due to the caller +// relating depth and parent_depth, which is a desired effect. The warning does not show up if the +// skip_child() function is not marked inline). +SIMDJSON_PUSH_DISABLE_WARNINGS +SIMDJSON_DISABLE_STRICT_OVERFLOW_WARNING +simdjson_warn_unused simdjson_really_inline error_code json_iterator::skip_child(depth_t parent_depth) noexcept { + if (depth() <= parent_depth) { return SUCCESS; } + + switch (*advance()) { + // TODO consider whether matching braces is a requirement: if non-matching braces indicates + // *missing* braces, then future lookups are not in the object/arrays they think they are, + // violating the rule "validate enough structure that the user can be confident they are + // looking at the right values." + // PERF TODO we can eliminate the switch here with a lookup of how much to add to depth + + // For the first open array/object in a value, we've already incremented depth, so keep it the same + // We never stop at colon, but if we did, it wouldn't affect depth + case '[': case '{': case ':': + logger::log_start_value(*this, "skip"); + break; + // If there is a comma, we have just finished a value in an array/object, and need to get back in + case ',': + logger::log_value(*this, "skip"); + break; + // ] or } means we just finished a value and need to jump out of the array/object + case ']': case '}': + logger::log_end_value(*this, "skip"); + _depth--; + if (depth() <= parent_depth) { return SUCCESS; } + break; + // Anything else must be a scalar value + default: + // For the first scalar, we will have incremented depth already, so we decrement it here. + logger::log_value(*this, "skip"); + _depth--; + if (depth() <= parent_depth) { return SUCCESS; } + break; + } + + // Now that we've considered the first value, we only increment/decrement for arrays/objects + auto end = &parser->dom_parser->structural_indexes[parser->dom_parser->n_structural_indexes]; + while (token.index <= end) { + switch (*advance()) { + case '[': case '{': + logger::log_start_value(*this, "skip"); + _depth++; + break; + // TODO consider whether matching braces is a requirement: if non-matching braces indicates + // *missing* braces, then future lookups are not in the object/arrays they think they are, + // violating the rule "validate enough structure that the user can be confident they are + // looking at the right values." + // PERF TODO we can eliminate the switch here with a lookup of how much to add to depth + case ']': case '}': + logger::log_end_value(*this, "skip"); + _depth--; + if (depth() <= parent_depth) { return SUCCESS; } + break; + default: + logger::log_value(*this, "skip", ""); + break; + } + } + + return report_error(TAPE_ERROR, "not enough close braces"); +} + +SIMDJSON_POP_DISABLE_WARNINGS + +simdjson_really_inline bool json_iterator::at_root() const noexcept { + return token.position() == root_checkpoint(); +} + +simdjson_really_inline token_position json_iterator::root_checkpoint() const noexcept { + return parser->dom_parser->structural_indexes.get(); +} + +simdjson_really_inline void json_iterator::assert_at_root() const noexcept { + SIMDJSON_ASSUME( _depth == 1 ); + // Visual Studio Clang treats unique_ptr.get() as "side effecting." +#ifndef SIMDJSON_CLANG_VISUAL_STUDIO + SIMDJSON_ASSUME( token.index == parser->dom_parser->structural_indexes.get() ); +#endif +} + +simdjson_really_inline bool json_iterator::at_eof() const noexcept { + return token.index == &parser->dom_parser->structural_indexes[parser->dom_parser->n_structural_indexes]; +} + +simdjson_really_inline bool json_iterator::is_alive() const noexcept { + return parser; +} + +simdjson_really_inline void json_iterator::abandon() noexcept { + parser = nullptr; + _depth = 0; +} + +simdjson_really_inline const uint8_t *json_iterator::advance() noexcept { + return token.advance(); +} + +simdjson_really_inline const uint8_t *json_iterator::peek(int32_t delta) const noexcept { + return token.peek(delta); +} + +simdjson_really_inline uint32_t json_iterator::peek_length(int32_t delta) const noexcept { + return token.peek_length(delta); +} + +simdjson_really_inline const uint8_t *json_iterator::peek(token_position position) const noexcept { + return token.peek(position); +} + +simdjson_really_inline uint32_t json_iterator::peek_length(token_position position) const noexcept { + return token.peek_length(position); +} + +simdjson_really_inline void json_iterator::ascend_to(depth_t parent_depth) noexcept { + SIMDJSON_ASSUME(parent_depth >= 0 && parent_depth < INT32_MAX - 1); + SIMDJSON_ASSUME(_depth == parent_depth + 1); + _depth = parent_depth; +} + +simdjson_really_inline void json_iterator::descend_to(depth_t child_depth) noexcept { + SIMDJSON_ASSUME(child_depth >= 1 && child_depth < INT32_MAX); + SIMDJSON_ASSUME(_depth == child_depth - 1); + _depth = child_depth; +} + +simdjson_really_inline depth_t json_iterator::depth() const noexcept { + return _depth; +} + +simdjson_really_inline uint8_t *&json_iterator::string_buf_loc() noexcept { + return _string_buf_loc; +} + +simdjson_really_inline error_code json_iterator::report_error(error_code _error, const char *message) noexcept { + SIMDJSON_ASSUME(_error != SUCCESS && _error != UNINITIALIZED && _error != INCORRECT_TYPE && _error != NO_SUCH_FIELD); + logger::log_error(*this, message); + error = _error; + return error; +} + +simdjson_really_inline token_position json_iterator::position() const noexcept { + return token.position(); +} +simdjson_really_inline void json_iterator::set_position(token_position target_checkpoint) noexcept { + token.set_position(target_checkpoint); +} + + +simdjson_really_inline error_code json_iterator::optional_error(error_code _error, const char *message) noexcept { + SIMDJSON_ASSUME(_error == INCORRECT_TYPE || _error == NO_SUCH_FIELD); + logger::log_error(*this, message); + return _error; +} + +template +simdjson_warn_unused simdjson_really_inline bool json_iterator::copy_to_buffer(const uint8_t *json, uint32_t max_len, uint8_t (&tmpbuf)[N]) noexcept { + // Truncate whitespace to fit the buffer. + if (max_len > N-1) { + if (jsoncharutils::is_not_structural_or_whitespace(json[N-1])) { return false; } + max_len = N-1; + } + + // Copy to the buffer. + std::memcpy(tmpbuf, json, max_len); + tmpbuf[max_len] = ' '; + return true; +} + +template +simdjson_warn_unused simdjson_really_inline bool json_iterator::peek_to_buffer(uint8_t (&tmpbuf)[N]) noexcept { + auto max_len = token.peek_length(); + auto json = token.peek(); + return copy_to_buffer(json, max_len, tmpbuf); +} + +template +simdjson_warn_unused simdjson_really_inline bool json_iterator::advance_to_buffer(uint8_t (&tmpbuf)[N]) noexcept { + auto max_len = peek_length(); + auto json = advance(); + return copy_to_buffer(json, max_len, tmpbuf); +} + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(haswell::ondemand::json_iterator &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/json_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/value_iterator-inl.h */ +namespace simdjson { +namespace haswell { +namespace ondemand { + +simdjson_really_inline value_iterator::value_iterator(json_iterator *json_iter, depth_t depth, token_position start_index) noexcept + : _json_iter{json_iter}, + _depth{depth}, + _start_position{start_index} +{ +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::start_object() noexcept { + assert_at_start(); + + if (*_json_iter->advance() != '{') { logger::log_error(*_json_iter, "Not an object"); return INCORRECT_TYPE; } + return started_object(); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::try_start_object() noexcept { + assert_at_start(); + + if (*_json_iter->peek() != '{') { logger::log_error(*_json_iter, "Not an object"); return INCORRECT_TYPE; } + _json_iter->advance(); + return started_object(); +} + +simdjson_warn_unused simdjson_really_inline bool value_iterator::started_object() noexcept { + if (*_json_iter->peek() == '}') { + logger::log_value(*_json_iter, "empty object"); + _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return false; + } + _json_iter->descend_to(depth()+1); + logger::log_start_value(*_json_iter, "object"); + return true; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::has_next_field() noexcept { + assert_at_next(); + + switch (*_json_iter->advance()) { + case '}': + logger::log_end_value(*_json_iter, "object"); + _json_iter->ascend_to(depth()-1); + return false; + case ',': + _json_iter->descend_to(depth()+1); + return true; + default: + return _json_iter->report_error(TAPE_ERROR, "Missing comma between object fields"); + } +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::find_field_raw(const std::string_view key) noexcept { + error_code error; + bool has_value; + + // + // Initially, the object can be in one of a few different places: + // + // 1. The start of the object, at the first field: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2, index 1) + // ``` + // + // 2. When a previous search did not yield a value or the object is empty: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 0) + // { } + // ^ (depth 0, index 2) + // ``` + // + if (!is_open()) { return false; } + if (at_first_field()) { + has_value = true; + + // 3. When a previous search found a field or an iterator yielded a value: + // + // ``` + // // When a field was not fully consumed (or not even touched at all) + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2) + // // When a field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // // When the last field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // ``` + // + } else { + if ((error = skip_child() )) { abandon(); return error; } + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + while (has_value) { + // Get the key and colon, stopping at the value. + raw_json_string actual_key; + if ((error = field_key().get(actual_key) )) { abandon(); return error; }; + if ((error = field_value() )) { abandon(); return error; } + + // If it matches, stop and return + if (actual_key == key) { + logger::log_event(*this, "match", key, -2); + return true; + } + + // No match: skip the value and see if , or } is next + logger::log_event(*this, "no match", key, -2); + SIMDJSON_TRY( skip_child() ); // Skip the value entirely + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + + // If the loop ended, we're out of fields to look at. + return false; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::find_field_unordered_raw(const std::string_view key) noexcept { + error_code error; + bool has_value; + + // + // Initially, the object can be in one of a few different places: + // + // 1. The start of the object, at the first field: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2, index 1) + // ``` + // + if (at_first_field()) { + // If we're at the beginning of the object, we definitely have a field + has_value = true; + + // 2. When a previous search did not yield a value or the object is empty: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 0) + // { } + // ^ (depth 0, index 2) + // ``` + // + } else if (!is_open()) { + has_value = false; + + // 3. When a previous search found a field or an iterator yielded a value: + // + // ``` + // // When a field was not fully consumed (or not even touched at all) + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2) + // // When a field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // // When the last field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // ``` + // + } else { + // Finish the previous value and see if , or } is next + if ((error = skip_child() )) { abandon(); return error; } + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + + // After initial processing, we will be in one of two states: + // + // ``` + // // At the beginning of a field + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // // At the end of the object + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 0) + // ``` + // + + // First, we scan from that point to the end. + // If we don't find a match, we loop back around, and scan from the beginning to that point. + token_position search_start = _json_iter->position(); + + // Next, we find a match starting from the current position. + while (has_value) { + SIMDJSON_ASSUME( _json_iter->_depth == _depth + 1 ); // We must be at the start of a field + + // Get the key and colon, stopping at the value. + raw_json_string actual_key; + if ((error = field_key().get(actual_key) )) { abandon(); return error; }; + if ((error = field_value() )) { abandon(); return error; } + + // If it matches, stop and return + if (actual_key == key) { + logger::log_event(*this, "match", key, -2); + return true; + } + + // No match: skip the value and see if , or } is next + logger::log_event(*this, "no match", key, -2); + SIMDJSON_TRY( skip_child() ); + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + + // If we reach the end without finding a match, search the rest of the fields starting at the + // beginning of the object. + // (We have already run through the object before, so we've already validated its structure. We + // don't check errors in this bit.) + _json_iter->set_position(_start_position + 1); + _json_iter->descend_to(_depth); + + has_value = started_object(); + while (_json_iter->position() < search_start) { + SIMDJSON_ASSUME(has_value); // we should reach search_start before ever reaching the end of the object + SIMDJSON_ASSUME( _json_iter->_depth == _depth + 1 ); // We must be at the start of a field + + // Get the key and colon, stopping at the value. + raw_json_string actual_key; + error = field_key().get(actual_key); SIMDJSON_ASSUME(!error); + error = field_value(); SIMDJSON_ASSUME(!error); + + // If it matches, stop and return + if (actual_key == key) { + logger::log_event(*this, "match", key, -2); + return true; + } + + // No match: skip the value and see if , or } is next + logger::log_event(*this, "no match", key, -2); + SIMDJSON_TRY( skip_child() ); + error = has_next_field().get(has_value); SIMDJSON_ASSUME(!error); + } + + // If the loop ended, we're out of fields to look at. + return false; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::field_key() noexcept { + assert_at_child(); + + const uint8_t *key = _json_iter->advance(); + if (*(key++) != '"') { return _json_iter->report_error(TAPE_ERROR, "Object key is not a string"); } + return raw_json_string(key); +} + +simdjson_warn_unused simdjson_really_inline error_code value_iterator::field_value() noexcept { + assert_at_child(); + + if (*_json_iter->advance() != ':') { return _json_iter->report_error(TAPE_ERROR, "Missing colon in object field"); } + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::start_array() noexcept { + assert_at_start(); + + if (*_json_iter->advance() != '[') { logger::log_error(*_json_iter, "Not an array"); return INCORRECT_TYPE; } + return started_array(); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::try_start_array() noexcept { + assert_at_start(); + + if (*_json_iter->peek() != '[') { logger::log_error(*_json_iter, "Not an array"); return INCORRECT_TYPE; } + _json_iter->advance(); + return started_array(); +} + +simdjson_warn_unused simdjson_really_inline bool value_iterator::started_array() noexcept { + if (*_json_iter->peek() == ']') { + logger::log_value(*_json_iter, "empty array"); + _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return false; + } + logger::log_start_value(*_json_iter, "array"); + _json_iter->descend_to(depth()+1); + return true; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::has_next_element() noexcept { + assert_at_next(); + + switch (*_json_iter->advance()) { + case ']': + logger::log_end_value(*_json_iter, "array"); + _json_iter->ascend_to(depth()-1); + return false; + case ',': + _json_iter->descend_to(depth()+1); + return true; + default: + return _json_iter->report_error(TAPE_ERROR, "Missing comma between array elements"); + } +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::parse_bool(const uint8_t *json) const noexcept { + auto not_true = atomparsing::str4ncmp(json, "true"); + auto not_false = atomparsing::str4ncmp(json, "fals") | (json[4] ^ 'e'); + bool error = (not_true && not_false) || jsoncharutils::is_not_structural_or_whitespace(json[not_true ? 5 : 4]); + if (error) { return incorrect_type_error("Not a boolean"); } + return simdjson_result(!not_true); +} +simdjson_really_inline bool value_iterator::parse_null(const uint8_t *json) const noexcept { + return !atomparsing::str4ncmp(json, "null") && jsoncharutils::is_structural_or_whitespace(json[4]); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_string() noexcept { + return get_raw_json_string().unescape(_json_iter->string_buf_loc()); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_raw_json_string() noexcept { + auto json = advance_scalar("string"); + if (*json != '"') { return incorrect_type_error("Not a string"); } + return raw_json_string(json+1); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_uint64() noexcept { + return numberparsing::parse_unsigned(advance_non_root_scalar("uint64")); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_int64() noexcept { + return numberparsing::parse_integer(advance_non_root_scalar("int64")); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_double() noexcept { + return numberparsing::parse_double(advance_non_root_scalar("double")); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_bool() noexcept { + return parse_bool(advance_non_root_scalar("bool")); +} +simdjson_really_inline bool value_iterator::is_null() noexcept { + return parse_null(advance_non_root_scalar("null")); +} + +constexpr const uint32_t MAX_INT_LENGTH = 1024; + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_string() noexcept { + return get_string(); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_raw_json_string() noexcept { + return get_raw_json_string(); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_uint64() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("uint64"); + uint8_t tmpbuf[20+1]; // <20 digits> is the longest possible unsigned integer + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { logger::log_error(*_json_iter, _start_position, depth(), "Root number more than 20 characters"); return NUMBER_ERROR; } + return numberparsing::parse_unsigned(tmpbuf); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_int64() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("int64"); + uint8_t tmpbuf[20+1]; // -<19 digits> is the longest possible integer + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { logger::log_error(*_json_iter, _start_position, depth(), "Root number more than 20 characters"); return NUMBER_ERROR; } + return numberparsing::parse_integer(tmpbuf); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_double() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("double"); + // Per https://www.exploringbinary.com/maximum-number-of-decimal-digits-in-binary-floating-point-numbers/, 1074 is the maximum number of significant fractional digits. Add 8 more digits for the biggest number: -0.e-308. + uint8_t tmpbuf[1074+8+1]; + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { logger::log_error(*_json_iter, _start_position, depth(), "Root number more than 1082 characters"); return NUMBER_ERROR; } + return numberparsing::parse_double(tmpbuf); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_bool() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("bool"); + uint8_t tmpbuf[5+1]; + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { return incorrect_type_error("Not a boolean"); } + return parse_bool(tmpbuf); +} +simdjson_really_inline bool value_iterator::is_root_null() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("null"); + return max_len >= 4 && !atomparsing::str4ncmp(json, "null") && + (max_len == 4 || jsoncharutils::is_structural_or_whitespace(json[5])); +} + +simdjson_warn_unused simdjson_really_inline error_code value_iterator::skip_child() noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth >= _depth ); + + return _json_iter->skip_child(depth()); +} + +simdjson_really_inline value_iterator value_iterator::child() const noexcept { + assert_at_child(); + return { _json_iter, depth()+1, _json_iter->token.position() }; +} + +simdjson_really_inline bool value_iterator::is_open() const noexcept { + return _json_iter->depth() >= depth(); +} + +simdjson_really_inline bool value_iterator::at_eof() const noexcept { + return _json_iter->at_eof(); +} + +simdjson_really_inline bool value_iterator::at_start() const noexcept { + return _json_iter->token.index == _start_position; +} + +simdjson_really_inline bool value_iterator::at_first_field() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + return _json_iter->token.index == _start_position + 1; +} + +simdjson_really_inline void value_iterator::abandon() noexcept { + _json_iter->abandon(); +} + + +simdjson_warn_unused simdjson_really_inline depth_t value_iterator::depth() const noexcept { + return _depth; +} +simdjson_warn_unused simdjson_really_inline error_code value_iterator::error() const noexcept { + return _json_iter->error; +} +simdjson_warn_unused simdjson_really_inline uint8_t *&value_iterator::string_buf_loc() noexcept { + return _json_iter->string_buf_loc(); +} +simdjson_warn_unused simdjson_really_inline const json_iterator &value_iterator::json_iter() const noexcept { + return *_json_iter; +} +simdjson_warn_unused simdjson_really_inline json_iterator &value_iterator::json_iter() noexcept { + return *_json_iter; +} + +simdjson_really_inline const uint8_t *value_iterator::peek_scalar() const noexcept { + return _json_iter->peek(_start_position); +} +simdjson_really_inline uint32_t value_iterator::peek_scalar_length() const noexcept { + return _json_iter->peek_length(_start_position); +} + +simdjson_really_inline const uint8_t *value_iterator::advance_scalar(const char *type) const noexcept { + logger::log_value(*_json_iter, _start_position, depth(), type); + // If we're not at the position anymore, we don't want to advance the cursor. + if (!is_at_start()) { return peek_scalar(); } + + // Get the JSON and advance the cursor, decreasing depth to signify that we have retrieved the value. + assert_at_start(); + auto result = _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return result; +} +simdjson_really_inline const uint8_t *value_iterator::advance_root_scalar(const char *type) const noexcept { + logger::log_value(*_json_iter, _start_position, depth(), type); + if (!is_at_start()) { return peek_scalar(); } + + assert_at_root(); + auto result = _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return result; +} +simdjson_really_inline const uint8_t *value_iterator::advance_non_root_scalar(const char *type) const noexcept { + logger::log_value(*_json_iter, _start_position, depth(), type); + if (!is_at_start()) { return peek_scalar(); } + + assert_at_non_root_start(); + auto result = _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return result; +} + +simdjson_really_inline error_code value_iterator::incorrect_type_error(const char *message) const noexcept { + logger::log_error(*_json_iter, _start_position, depth(), message); + return INCORRECT_TYPE; +} + +simdjson_really_inline bool value_iterator::is_at_start() const noexcept { + return _json_iter->token.index == _start_position; +} + +simdjson_really_inline void value_iterator::assert_at_start() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index == _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth == _depth ); + SIMDJSON_ASSUME( _depth > 0 ); +} + +simdjson_really_inline void value_iterator::assert_at_next() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth == _depth ); + SIMDJSON_ASSUME( _depth > 0 ); +} + +simdjson_really_inline void value_iterator::assert_at_child() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth == _depth + 1 ); + SIMDJSON_ASSUME( _depth > 0 ); +} + +simdjson_really_inline void value_iterator::assert_at_root() const noexcept { + assert_at_start(); + SIMDJSON_ASSUME( _depth == 1 ); +} + +simdjson_really_inline void value_iterator::assert_at_non_root_start() const noexcept { + assert_at_start(); + SIMDJSON_ASSUME( _depth > 1 ); +} + + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(haswell::ondemand::value_iterator &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/array_iterator-inl.h */ +namespace simdjson { +namespace haswell { +namespace ondemand { + +simdjson_really_inline array_iterator::array_iterator(const value_iterator &_iter) noexcept + : iter{_iter} +{} + +simdjson_really_inline simdjson_result array_iterator::operator*() noexcept { + if (iter.error()) { iter.abandon(); return iter.error(); } + return value(iter.child()); +} +simdjson_really_inline bool array_iterator::operator==(const array_iterator &other) const noexcept { + return !(*this != other); +} +simdjson_really_inline bool array_iterator::operator!=(const array_iterator &) const noexcept { + return iter.is_open(); +} +simdjson_really_inline array_iterator &array_iterator::operator++() noexcept { + error_code error; + // PERF NOTE this is a safety rail ... users should exit loops as soon as they receive an error, so we'll never get here. + // However, it does not seem to make a perf difference, so we add it out of an abundance of caution. + if ((error = iter.error()) ) { return *this; } + if ((error = iter.skip_child() )) { return *this; } + if ((error = iter.has_next_element().error() )) { return *this; } + return *this; +} + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + haswell::ondemand::array_iterator &&value +) noexcept + : haswell::implementation_simdjson_result_base(std::forward(value)) +{ +} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : haswell::implementation_simdjson_result_base({}, error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::operator*() noexcept { + if (this->error()) { this->second = SUCCESS; return this->error(); } + return *this->first; +} +simdjson_really_inline bool simdjson_result::operator==(const simdjson_result &other) const noexcept { + if (this->error()) { return true; } + return this->first == other.first; +} +simdjson_really_inline bool simdjson_result::operator!=(const simdjson_result &other) const noexcept { + if (this->error()) { return false; } + return this->first != other.first; +} +simdjson_really_inline simdjson_result &simdjson_result::operator++() noexcept { + if (this->error()) { return *this; } + ++(this->first); + return *this; +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/object_iterator-inl.h */ +namespace simdjson { +namespace haswell { +namespace ondemand { + +// +// object_iterator +// + +simdjson_really_inline object_iterator::object_iterator(const value_iterator &_iter) noexcept + : iter{_iter} +{} + +simdjson_really_inline simdjson_result object_iterator::operator*() noexcept { + error_code error = iter.error(); + if (error) { iter.abandon(); return error; } + auto result = field::start(iter); + // TODO this is a safety rail ... users should exit loops as soon as they receive an error. + // Nonetheless, let's see if performance is OK with this if statement--the compiler may give it to us for free. + if (result.error()) { iter.abandon(); } + return result; +} +simdjson_really_inline bool object_iterator::operator==(const object_iterator &other) const noexcept { + return !(*this != other); +} +simdjson_really_inline bool object_iterator::operator!=(const object_iterator &) const noexcept { + return iter.is_open(); +} +simdjson_really_inline object_iterator &object_iterator::operator++() noexcept { + // TODO this is a safety rail ... users should exit loops as soon as they receive an error. + // Nonetheless, let's see if performance is OK with this if statement--the compiler may give it to us for free. + if (!iter.is_open()) { return *this; } // Iterator will be released if there is an error + + simdjson_unused error_code error; + if ((error = iter.skip_child() )) { return *this; } + + simdjson_unused bool has_value; + if ((error = iter.has_next_field().get(has_value) )) { return *this; }; + return *this; +} + +// +// ### Live States +// +// While iterating or looking up values, depth >= iter.depth. at_start may vary. Error is +// always SUCCESS: +// +// - Start: This is the state when the object is first found and the iterator is just past the {. +// In this state, at_start == true. +// - Next: After we hand a scalar value to the user, or an array/object which they then fully +// iterate over, the iterator is at the , or } before the next value. In this state, +// depth == iter.depth, at_start == false, and error == SUCCESS. +// - Unfinished Business: When we hand an array/object to the user which they do not fully +// iterate over, we need to finish that iteration by skipping child values until we reach the +// Next state. In this state, depth > iter.depth, at_start == false, and error == SUCCESS. +// +// ## Error States +// +// In error states, we will yield exactly one more value before stopping. iter.depth == depth +// and at_start is always false. We decrement after yielding the error, moving to the Finished +// state. +// +// - Chained Error: When the object iterator is part of an error chain--for example, in +// `for (auto tweet : doc["tweets"])`, where the tweet field may be missing or not be an +// object--we yield that error in the loop, exactly once. In this state, error != SUCCESS and +// iter.depth == depth, and at_start == false. We decrement depth when we yield the error. +// - Missing Comma Error: When the iterator ++ method discovers there is no comma between fields, +// we flag that as an error and treat it exactly the same as a Chained Error. In this state, +// error == TAPE_ERROR, iter.depth == depth, and at_start == false. +// +// Errors that occur while reading a field to give to the user (such as when the key is not a +// string or the field is missing a colon) are yielded immediately. Depth is then decremented, +// moving to the Finished state without transitioning through an Error state at all. +// +// ## Terminal State +// +// The terminal state has iter.depth < depth. at_start is always false. +// +// - Finished: When we have reached a }, we are finished. We signal this by decrementing depth. +// In this state, iter.depth < depth, at_start == false, and error == SUCCESS. +// + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + haswell::ondemand::object_iterator &&value +) noexcept + : implementation_simdjson_result_base(std::forward(value)) +{ +} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base({}, error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::operator*() noexcept { + if (error()) { second = SUCCESS; return error(); } + return *first; +} +// Assumes it's being compared with the end. true if depth < iter->depth. +simdjson_really_inline bool simdjson_result::operator==(const simdjson_result &other) const noexcept { + if (error()) { return true; } + return first == other.first; +} +// Assumes it's being compared with the end. true if depth >= iter->depth. +simdjson_really_inline bool simdjson_result::operator!=(const simdjson_result &other) const noexcept { + if (error()) { return false; } + return first != other.first; +} +// Checks for ']' and ',' +simdjson_really_inline simdjson_result &simdjson_result::operator++() noexcept { + if (error()) { return *this; } + ++first; + return *this; +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/array-inl.h */ +namespace simdjson { +namespace haswell { +namespace ondemand { + +// +// ### Live States +// +// While iterating or looking up values, depth >= iter->depth. at_start may vary. Error is +// always SUCCESS: +// +// - Start: This is the state when the array is first found and the iterator is just past the `{`. +// In this state, at_start == true. +// - Next: After we hand a scalar value to the user, or an array/object which they then fully +// iterate over, the iterator is at the `,` before the next value (or `]`). In this state, +// depth == iter->depth, at_start == false, and error == SUCCESS. +// - Unfinished Business: When we hand an array/object to the user which they do not fully +// iterate over, we need to finish that iteration by skipping child values until we reach the +// Next state. In this state, depth > iter->depth, at_start == false, and error == SUCCESS. +// +// ## Error States +// +// In error states, we will yield exactly one more value before stopping. iter->depth == depth +// and at_start is always false. We decrement after yielding the error, moving to the Finished +// state. +// +// - Chained Error: When the array iterator is part of an error chain--for example, in +// `for (auto tweet : doc["tweets"])`, where the tweet element may be missing or not be an +// array--we yield that error in the loop, exactly once. In this state, error != SUCCESS and +// iter->depth == depth, and at_start == false. We decrement depth when we yield the error. +// - Missing Comma Error: When the iterator ++ method discovers there is no comma between elements, +// we flag that as an error and treat it exactly the same as a Chained Error. In this state, +// error == TAPE_ERROR, iter->depth == depth, and at_start == false. +// +// ## Terminal State +// +// The terminal state has iter->depth < depth. at_start is always false. +// +// - Finished: When we have reached a `]` or have reported an error, we are finished. We signal this +// by decrementing depth. In this state, iter->depth < depth, at_start == false, and +// error == SUCCESS. +// + +simdjson_really_inline array::array(const value_iterator &_iter) noexcept + : iter{_iter} +{ +} + +simdjson_really_inline simdjson_result array::start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.start_array().get(has_value) ); + return array(iter); +} +simdjson_really_inline simdjson_result array::try_start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.try_start_array().get(has_value) ); + return array(iter); +} +simdjson_really_inline array array::started(value_iterator &iter) noexcept { + simdjson_unused bool has_value = iter.started_array(); + return array(iter); +} + +simdjson_really_inline array_iterator array::begin() noexcept { + return iter; +} +simdjson_really_inline array_iterator array::end() noexcept { + return {}; +} + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + haswell::ondemand::array &&value +) noexcept + : implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept + : implementation_simdjson_result_base(error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::begin() noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() noexcept { + if (error()) { return error(); } + return first.end(); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array-inl.h */ +/* begin file include/simdjson/generic/ondemand/document-inl.h */ +namespace simdjson { +namespace haswell { +namespace ondemand { + +simdjson_really_inline document::document(ondemand::json_iterator &&_iter) noexcept + : iter{std::forward(_iter)} +{ + logger::log_start_value(iter, "document"); +} + +simdjson_really_inline document document::start(json_iterator &&iter) noexcept { + return document(std::forward(iter)); +} + +simdjson_really_inline value_iterator document::resume_value_iterator() noexcept { + return value_iterator(&iter, 1, iter.root_checkpoint()); +} +simdjson_really_inline value_iterator document::get_root_value_iterator() noexcept { + return resume_value_iterator(); +} +simdjson_really_inline value document::resume_value() noexcept { + return resume_value_iterator(); +} +simdjson_really_inline value document::get_root_value() noexcept { + return get_root_value_iterator(); +} + +simdjson_really_inline simdjson_result document::get_array() & noexcept { + return get_root_value().get_array(); +} +simdjson_really_inline simdjson_result document::get_object() & noexcept { + return get_root_value().get_object(); +} +simdjson_really_inline simdjson_result document::get_uint64() noexcept { + return get_root_value_iterator().get_root_uint64(); +} +simdjson_really_inline simdjson_result document::get_int64() noexcept { + return get_root_value_iterator().get_root_int64(); +} +simdjson_really_inline simdjson_result document::get_double() noexcept { + return get_root_value_iterator().get_root_double(); +} +simdjson_really_inline simdjson_result document::get_string() noexcept { + return get_root_value_iterator().get_root_string(); +} +simdjson_really_inline simdjson_result document::get_raw_json_string() noexcept { + return get_root_value_iterator().get_root_raw_json_string(); +} +simdjson_really_inline simdjson_result document::get_bool() noexcept { + return get_root_value_iterator().get_root_bool(); +} +simdjson_really_inline bool document::is_null() noexcept { + return get_root_value_iterator().is_root_null(); +} + +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_array(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_object(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_string(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_double(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_uint64(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_int64(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_bool(); } + +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return get_string(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_double(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_uint64(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_int64(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_bool(); } + +template simdjson_really_inline error_code document::get(T &out) & noexcept { + return get().get(out); +} +template simdjson_really_inline error_code document::get(T &out) && noexcept { + return std::forward(*this).get().get(out); +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline document::operator array() & noexcept(false) { return get_array(); } +simdjson_really_inline document::operator object() & noexcept(false) { return get_object(); } +simdjson_really_inline document::operator uint64_t() noexcept(false) { return get_uint64(); } +simdjson_really_inline document::operator int64_t() noexcept(false) { return get_int64(); } +simdjson_really_inline document::operator double() noexcept(false) { return get_double(); } +simdjson_really_inline document::operator std::string_view() noexcept(false) { return get_string(); } +simdjson_really_inline document::operator raw_json_string() noexcept(false) { return get_raw_json_string(); } +simdjson_really_inline document::operator bool() noexcept(false) { return get_bool(); } +#endif + +simdjson_really_inline simdjson_result document::begin() & noexcept { + return get_array().begin(); +} +simdjson_really_inline simdjson_result document::end() & noexcept { + return {}; +} + +simdjson_really_inline simdjson_result document::find_field(std::string_view key) & noexcept { + return resume_value().find_field(key); +} +simdjson_really_inline simdjson_result document::find_field(const char *key) & noexcept { + return resume_value().find_field(key); +} +simdjson_really_inline simdjson_result document::find_field_unordered(std::string_view key) & noexcept { + return resume_value().find_field_unordered(key); +} +simdjson_really_inline simdjson_result document::find_field_unordered(const char *key) & noexcept { + return resume_value().find_field_unordered(key); +} +simdjson_really_inline simdjson_result document::operator[](std::string_view key) & noexcept { + return resume_value()[key]; +} +simdjson_really_inline simdjson_result document::operator[](const char *key) & noexcept { + return resume_value()[key]; +} + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + haswell::ondemand::document &&value +) noexcept : + implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept : + implementation_simdjson_result_base( + error + ) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::begin() & noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() & noexcept { + return {}; +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](const char *key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::get_array() & noexcept { + if (error()) { return error(); } + return first.get_array(); +} +simdjson_really_inline simdjson_result simdjson_result::get_object() & noexcept { + if (error()) { return error(); } + return first.get_object(); +} +simdjson_really_inline simdjson_result simdjson_result::get_uint64() noexcept { + if (error()) { return error(); } + return first.get_uint64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_int64() noexcept { + if (error()) { return error(); } + return first.get_int64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_double() noexcept { + if (error()) { return error(); } + return first.get_double(); +} +simdjson_really_inline simdjson_result simdjson_result::get_string() noexcept { + if (error()) { return error(); } + return first.get_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_raw_json_string() noexcept { + if (error()) { return error(); } + return first.get_raw_json_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_bool() noexcept { + if (error()) { return error(); } + return first.get_bool(); +} +simdjson_really_inline bool simdjson_result::is_null() noexcept { + if (error()) { return error(); } + return first.is_null(); +} + +template +simdjson_really_inline simdjson_result simdjson_result::get() & noexcept { + if (error()) { return error(); } + return first.get(); +} +template +simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first).get(); +} +template +simdjson_really_inline error_code simdjson_result::get(T &out) & noexcept { + if (error()) { return error(); } + return first.get(out); +} +template +simdjson_really_inline error_code simdjson_result::get(T &out) && noexcept { + if (error()) { return error(); } + return std::forward(first).get(out); +} + +template<> simdjson_really_inline simdjson_result simdjson_result::get() & noexcept = delete; +template<> simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first); +} +template<> simdjson_really_inline error_code simdjson_result::get(haswell::ondemand::document &out) & noexcept = delete; +template<> simdjson_really_inline error_code simdjson_result::get(haswell::ondemand::document &out) && noexcept { + if (error()) { return error(); } + out = std::forward(first); + return SUCCESS; +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline simdjson_result::operator haswell::ondemand::array() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator haswell::ondemand::object() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator uint64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator int64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator double() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator std::string_view() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator haswell::ondemand::raw_json_string() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator bool() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +#endif + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/document-inl.h */ +/* begin file include/simdjson/generic/ondemand/value-inl.h */ +namespace simdjson { +namespace haswell { +namespace ondemand { + +simdjson_really_inline value::value(const value_iterator &_iter) noexcept + : iter{_iter} +{ +} +simdjson_really_inline value value::start(const value_iterator &iter) noexcept { + return iter; +} +simdjson_really_inline value value::resume(const value_iterator &iter) noexcept { + return iter; +} + +simdjson_really_inline simdjson_result value::get_array() && noexcept { + return array::start(iter); +} +simdjson_really_inline simdjson_result value::get_array() & noexcept { + return array::try_start(iter); +} +simdjson_really_inline simdjson_result value::get_object() && noexcept { + return object::start(iter); +} +simdjson_really_inline simdjson_result value::get_object() & noexcept { + return object::try_start(iter); +} +simdjson_really_inline simdjson_result value::start_or_resume_object() & noexcept { + if (iter.at_start()) { + return get_object(); + } else { + return object::resume(iter); + } +} +simdjson_really_inline simdjson_result value::start_or_resume_object() && noexcept { + if (iter.at_start()) { + return get_object(); + } else { + return object::resume(iter); + } +} + +simdjson_really_inline simdjson_result value::get_raw_json_string() noexcept { + return iter.get_raw_json_string(); +} +simdjson_really_inline simdjson_result value::get_string() noexcept { + return iter.get_string(); +} +simdjson_really_inline simdjson_result value::get_double() noexcept { + return iter.get_double(); +} +simdjson_really_inline simdjson_result value::get_uint64() noexcept { + return iter.get_uint64(); +} +simdjson_really_inline simdjson_result value::get_int64() noexcept { + return iter.get_int64(); +} +simdjson_really_inline simdjson_result value::get_bool() noexcept { + return iter.get_bool(); +} +simdjson_really_inline bool value::is_null() noexcept { + return iter.is_null(); +} + +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_array(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_object(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_string(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_double(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_uint64(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_int64(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_bool(); } + +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_array(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_object(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_string(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_double(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_uint64(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_int64(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_bool(); } + +template simdjson_really_inline error_code value::get(T &out) & noexcept { + return get().get(out); +} +template simdjson_really_inline error_code value::get(T &out) && noexcept { + return std::forward(*this).get().get(out); +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline value::operator array() && noexcept(false) { + return std::forward(*this).get_array(); +} +simdjson_really_inline value::operator array() & noexcept(false) { + return std::forward(*this).get_array(); +} +simdjson_really_inline value::operator object() && noexcept(false) { + return std::forward(*this).get_object(); +} +simdjson_really_inline value::operator object() & noexcept(false) { + return std::forward(*this).get_object(); +} +simdjson_really_inline value::operator uint64_t() noexcept(false) { + return get_uint64(); +} +simdjson_really_inline value::operator int64_t() noexcept(false) { + return get_int64(); +} +simdjson_really_inline value::operator double() noexcept(false) { + return get_double(); +} +simdjson_really_inline value::operator std::string_view() noexcept(false) { + return get_string(); +} +simdjson_really_inline value::operator raw_json_string() noexcept(false) { + return get_raw_json_string(); +} +simdjson_really_inline value::operator bool() noexcept(false) { + return get_bool(); +} +#endif + +simdjson_really_inline simdjson_result value::begin() & noexcept { + return get_array().begin(); +} +simdjson_really_inline simdjson_result value::end() & noexcept { + return {}; +} + +simdjson_really_inline simdjson_result value::find_field(std::string_view key) & noexcept { + return start_or_resume_object().find_field(key); +} +simdjson_really_inline simdjson_result value::find_field(std::string_view key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field(key); +} +simdjson_really_inline simdjson_result value::find_field(const char *key) & noexcept { + return start_or_resume_object().find_field(key); +} +simdjson_really_inline simdjson_result value::find_field(const char *key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field(key); +} + +simdjson_really_inline simdjson_result value::find_field_unordered(std::string_view key) & noexcept { + return start_or_resume_object().find_field_unordered(key); +} +simdjson_really_inline simdjson_result value::find_field_unordered(std::string_view key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field_unordered(key); +} +simdjson_really_inline simdjson_result value::find_field_unordered(const char *key) & noexcept { + return start_or_resume_object().find_field_unordered(key); +} +simdjson_really_inline simdjson_result value::find_field_unordered(const char *key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field_unordered(key); +} + +simdjson_really_inline simdjson_result value::operator[](std::string_view key) & noexcept { + return start_or_resume_object()[key]; +} +simdjson_really_inline simdjson_result value::operator[](std::string_view key) && noexcept { + return std::forward(*this).start_or_resume_object()[key]; +} +simdjson_really_inline simdjson_result value::operator[](const char *key) & noexcept { + return start_or_resume_object()[key]; +} +simdjson_really_inline simdjson_result value::operator[](const char *key) && noexcept { + return std::forward(*this).start_or_resume_object()[key]; +} + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + haswell::ondemand::value &&value +) noexcept : + implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept : + implementation_simdjson_result_base(error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::begin() & noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() & noexcept { + if (error()) { return error(); } + return {}; +} + +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(const char *key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field(key); +} + +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(const char *key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field_unordered(key); +} + +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first)[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](const char *key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](const char *key) && noexcept { + if (error()) { return error(); } + return std::forward(first)[key]; +} + +simdjson_really_inline simdjson_result simdjson_result::get_array() & noexcept { + if (error()) { return error(); } + return first.get_array(); +} +simdjson_really_inline simdjson_result simdjson_result::get_array() && noexcept { + if (error()) { return error(); } + return std::forward(first).get_array(); +} +simdjson_really_inline simdjson_result simdjson_result::get_object() & noexcept { + if (error()) { return error(); } + return first.get_object(); +} +simdjson_really_inline simdjson_result simdjson_result::get_object() && noexcept { + if (error()) { return error(); } + return std::forward(first).get_object(); +} +simdjson_really_inline simdjson_result simdjson_result::get_uint64() noexcept { + if (error()) { return error(); } + return first.get_uint64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_int64() noexcept { + if (error()) { return error(); } + return first.get_int64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_double() noexcept { + if (error()) { return error(); } + return first.get_double(); +} +simdjson_really_inline simdjson_result simdjson_result::get_string() noexcept { + if (error()) { return error(); } + return first.get_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_raw_json_string() noexcept { + if (error()) { return error(); } + return first.get_raw_json_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_bool() noexcept { + if (error()) { return error(); } + return first.get_bool(); +} +simdjson_really_inline bool simdjson_result::is_null() noexcept { + if (error()) { return false; } + return first.is_null(); +} + +template simdjson_really_inline simdjson_result simdjson_result::get() & noexcept { + if (error()) { return error(); } + return first.get(); +} +template simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first).get(); +} +template simdjson_really_inline error_code simdjson_result::get(T &out) & noexcept { + if (error()) { return error(); } + return first.get(out); +} +template simdjson_really_inline error_code simdjson_result::get(T &out) && noexcept { + if (error()) { return error(); } + return std::forward(first).get(out); +} + +template<> simdjson_really_inline simdjson_result simdjson_result::get() & noexcept { + if (error()) { return error(); } + return std::move(first); +} +template<> simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first); +} +template<> simdjson_really_inline error_code simdjson_result::get(haswell::ondemand::value &out) & noexcept { + if (error()) { return error(); } + out = first; + return SUCCESS; +} +template<> simdjson_really_inline error_code simdjson_result::get(haswell::ondemand::value &out) && noexcept { + if (error()) { return error(); } + out = std::forward(first); + return SUCCESS; +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline simdjson_result::operator haswell::ondemand::array() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator haswell::ondemand::array() && noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return std::forward(first); +} +simdjson_really_inline simdjson_result::operator haswell::ondemand::object() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator haswell::ondemand::object() && noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return std::forward(first); +} +simdjson_really_inline simdjson_result::operator uint64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator int64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator double() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator std::string_view() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator haswell::ondemand::raw_json_string() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator bool() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +#endif + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value-inl.h */ +/* begin file include/simdjson/generic/ondemand/field-inl.h */ +namespace simdjson { +namespace haswell { +namespace ondemand { + +// clang 6 doesn't think the default constructor can be noexcept, so we make it explicit +simdjson_really_inline field::field() noexcept : std::pair() {} + +simdjson_really_inline field::field(raw_json_string key, ondemand::value &&value) noexcept + : std::pair(key, std::forward(value)) +{ +} + +simdjson_really_inline simdjson_result field::start(value_iterator &parent_iter) noexcept { + raw_json_string key; + SIMDJSON_TRY( parent_iter.field_key().get(key) ); + SIMDJSON_TRY( parent_iter.field_value() ); + return field::start(parent_iter, key); +} + +simdjson_really_inline simdjson_result field::start(const value_iterator &parent_iter, raw_json_string key) noexcept { + return field(key, parent_iter.child()); +} + +simdjson_really_inline simdjson_warn_unused simdjson_result field::unescaped_key() noexcept { + SIMDJSON_ASSUME(first.buf != nullptr); // We would like to call .alive() by Visual Studio won't let us. + simdjson_result answer = first.unescape(second.iter.string_buf_loc()); + first.consume(); + return answer; +} + +simdjson_really_inline raw_json_string field::key() const noexcept { + SIMDJSON_ASSUME(first.buf != nullptr); // We would like to call .alive() by Visual Studio won't let us. + return first; +} + +simdjson_really_inline value &field::value() & noexcept { + return second; +} + +simdjson_really_inline value field::value() && noexcept { + return std::forward(*this).second; +} + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + haswell::ondemand::field &&value +) noexcept : + implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept : + implementation_simdjson_result_base(error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::key() noexcept { + if (error()) { return error(); } + return first.key(); +} +simdjson_really_inline simdjson_result simdjson_result::unescaped_key() noexcept { + if (error()) { return error(); } + return first.unescaped_key(); +} +simdjson_really_inline simdjson_result simdjson_result::value() noexcept { + if (error()) { return error(); } + return std::move(first.value()); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/field-inl.h */ +/* begin file include/simdjson/generic/ondemand/object-inl.h */ +namespace simdjson { +namespace haswell { +namespace ondemand { + +simdjson_really_inline simdjson_result object::find_field_unordered(const std::string_view key) & noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_unordered_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} +simdjson_really_inline simdjson_result object::find_field_unordered(const std::string_view key) && noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_unordered_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} +simdjson_really_inline simdjson_result object::operator[](const std::string_view key) & noexcept { + return find_field_unordered(key); +} +simdjson_really_inline simdjson_result object::operator[](const std::string_view key) && noexcept { + return std::forward(*this).find_field_unordered(key); +} +simdjson_really_inline simdjson_result object::find_field(const std::string_view key) & noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} +simdjson_really_inline simdjson_result object::find_field(const std::string_view key) && noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} + +simdjson_really_inline simdjson_result object::start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.start_object().get(has_value) ); + return object(iter); +} +simdjson_really_inline simdjson_result object::try_start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.try_start_object().get(has_value) ); + return object(iter); +} +simdjson_really_inline object object::started(value_iterator &iter) noexcept { + simdjson_unused bool has_value = iter.started_object(); + return iter; +} +simdjson_really_inline object object::resume(const value_iterator &iter) noexcept { + return iter; +} + +simdjson_really_inline object::object(const value_iterator &_iter) noexcept + : iter{_iter} +{ +} + +simdjson_really_inline object_iterator object::begin() noexcept { + // Expanded version of SIMDJSON_ASSUME( iter.at_field_start() || !iter.is_open() ) + SIMDJSON_ASSUME( (iter._json_iter->token.index == iter._start_position + 1) || (iter._json_iter->_depth < iter._depth) ); + return iter; +} +simdjson_really_inline object_iterator object::end() noexcept { + return {}; +} + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(haswell::ondemand::object &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +simdjson_really_inline simdjson_result simdjson_result::begin() noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() noexcept { + if (error()) { return error(); } + return first.end(); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first)[key]; +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field(key); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object-inl.h */ +/* begin file include/simdjson/generic/ondemand/parser-inl.h */ +namespace simdjson { +namespace haswell { +namespace ondemand { + +simdjson_warn_unused simdjson_really_inline error_code parser::allocate(size_t new_capacity, size_t new_max_depth) noexcept { + if (string_buf && new_capacity == _capacity && new_max_depth == _max_depth) { return SUCCESS; } + + // string_capacity copied from document::allocate + _capacity = 0; + _max_depth = 0; + size_t string_capacity = SIMDJSON_ROUNDUP_N(5 * new_capacity / 3 + SIMDJSON_PADDING, 64); + string_buf.reset(new (std::nothrow) uint8_t[string_capacity]); + if (dom_parser) { + SIMDJSON_TRY( dom_parser->set_capacity(new_capacity) ); + SIMDJSON_TRY( dom_parser->set_max_depth(new_max_depth) ); + } else { + SIMDJSON_TRY( simdjson::active_implementation->create_dom_parser_implementation(new_capacity, new_max_depth, dom_parser) ); + } + _capacity = new_capacity; + _max_depth = new_max_depth; + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result parser::iterate(const padded_string &buf) & noexcept { + // Allocate if needed + if (_capacity < buf.size() || !string_buf) { + SIMDJSON_TRY( allocate(buf.size(), _max_depth) ); + } + + // Run stage 1. + SIMDJSON_TRY( dom_parser->stage1((const uint8_t *)buf.data(), buf.size(), false) ); + return document::start({ (const uint8_t *)buf.data(), this }); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result parser::iterate(const simdjson_result &result) & noexcept { + // We don't presently have a way to temporarily get a const T& from a simdjson_result without throwing an exception + SIMDJSON_TRY( result.error() ); + const padded_string &buf = result.value_unsafe(); + return iterate(buf); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result parser::iterate_raw(const padded_string &buf) & noexcept { + // Allocate if needed + if (_capacity < buf.size()) { + SIMDJSON_TRY( allocate(buf.size(), _max_depth) ); + } + + // Run stage 1. + SIMDJSON_TRY( dom_parser->stage1((const uint8_t *)buf.data(), buf.size(), false) ); + return json_iterator((const uint8_t *)buf.data(), this); +} + +} // namespace ondemand +} // namespace haswell +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(haswell::ondemand::parser &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/parser-inl.h */ +/* end file include/simdjson/generic/ondemand-inl.h */ + +/* begin file include/simdjson/haswell/end.h */ +SIMDJSON_UNTARGET_REGION +#undef haswell +/* end file include/simdjson/haswell/end.h */ + +#endif // SIMDJSON_IMPLEMENTATION_HASWELL +#endif // SIMDJSON_HASWELL_COMMON_H +/* end file include/simdjson/haswell.h */ +/* begin file include/simdjson/westmere.h */ +#ifndef SIMDJSON_WESTMERE_H +#define SIMDJSON_WESTMERE_H + +#ifdef SIMDJSON_FALLBACK_H +#error "westmere.h must be included before fallback.h" +#endif + + +// Default Westmere to on if this is x86-64, unless we'll always select Haswell. +#ifndef SIMDJSON_IMPLEMENTATION_WESTMERE +#define SIMDJSON_IMPLEMENTATION_WESTMERE (SIMDJSON_IS_X86_64 && !SIMDJSON_REQUIRES_HASWELL) +#endif +#define SIMDJSON_CAN_ALWAYS_RUN_WESTMERE (SIMDJSON_IMPLEMENTATION_WESTMERE && SIMDJSON_IS_X86_64 && __SSE4_2__ && __PCLMUL__) + +#if SIMDJSON_IMPLEMENTATION_WESTMERE + +#define SIMDJSON_TARGET_WESTMERE SIMDJSON_TARGET_REGION("sse4.2,pclmul") + +namespace simdjson { +/** + * Implementation for Westmere (Intel SSE4.2). + */ +namespace westmere { +} // namespace westmere +} // namespace simdjson + +// +// These two need to be included outside SIMDJSON_TARGET_REGION +// +/* begin file include/simdjson/westmere/implementation.h */ +#ifndef SIMDJSON_WESTMERE_IMPLEMENTATION_H +#define SIMDJSON_WESTMERE_IMPLEMENTATION_H + + +// The constructor may be executed on any host, so we take care not to use SIMDJSON_TARGET_REGION +namespace simdjson { +namespace westmere { + +namespace { +using namespace simdjson; +using namespace simdjson::dom; +} + +class implementation final : public simdjson::implementation { +public: + simdjson_really_inline implementation() : simdjson::implementation("westmere", "Intel/AMD SSE4.2", internal::instruction_set::SSE42 | internal::instruction_set::PCLMULQDQ) {} + simdjson_warn_unused error_code create_dom_parser_implementation( + size_t capacity, + size_t max_length, + std::unique_ptr& dst + ) const noexcept final; + simdjson_warn_unused error_code minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) const noexcept final; + simdjson_warn_unused bool validate_utf8(const char *buf, size_t len) const noexcept final; +}; + +} // namespace westmere +} // namespace simdjson + +#endif // SIMDJSON_WESTMERE_IMPLEMENTATION_H +/* end file include/simdjson/westmere/implementation.h */ +/* begin file include/simdjson/westmere/intrinsics.h */ +#ifndef SIMDJSON_WESTMERE_INTRINSICS_H +#define SIMDJSON_WESTMERE_INTRINSICS_H + +#ifdef SIMDJSON_VISUAL_STUDIO +// under clang within visual studio, this will include +#include // visual studio or clang +#else +#include // elsewhere +#endif // SIMDJSON_VISUAL_STUDIO + + +#ifdef SIMDJSON_CLANG_VISUAL_STUDIO +/** + * You are not supposed, normally, to include these + * headers directly. Instead you should either include intrin.h + * or x86intrin.h. However, when compiling with clang + * under Windows (i.e., when _MSC_VER is set), these headers + * only get included *if* the corresponding features are detected + * from macros: + */ +#include // for _mm_alignr_epi8 +#include // for _mm_clmulepi64_si128 +#endif + + + +#endif // SIMDJSON_WESTMERE_INTRINSICS_H +/* end file include/simdjson/westmere/intrinsics.h */ + +// +// The rest need to be inside the region +// +/* begin file include/simdjson/westmere/begin.h */ +// redefining SIMDJSON_IMPLEMENTATION to "westmere" +// #define SIMDJSON_IMPLEMENTATION westmere +SIMDJSON_TARGET_WESTMERE +/* end file include/simdjson/westmere/begin.h */ + +// Declarations +/* begin file include/simdjson/generic/dom_parser_implementation.h */ + +namespace simdjson { +namespace westmere { + +// expectation: sizeof(open_container) = 64/8. +struct open_container { + uint32_t tape_index; // where, on the tape, does the scope ([,{) begins + uint32_t count; // how many elements in the scope +}; // struct open_container + +static_assert(sizeof(open_container) == 64/8, "Open container must be 64 bits"); + +class dom_parser_implementation final : public internal::dom_parser_implementation { +public: + /** Tape location of each open { or [ */ + std::unique_ptr open_containers{}; + /** Whether each open container is a [ or { */ + std::unique_ptr is_array{}; + /** Buffer passed to stage 1 */ + const uint8_t *buf{}; + /** Length passed to stage 1 */ + size_t len{0}; + /** Document passed to stage 2 */ + dom::document *doc{}; + + inline dom_parser_implementation() noexcept; + inline dom_parser_implementation(dom_parser_implementation &&other) noexcept; + inline dom_parser_implementation &operator=(dom_parser_implementation &&other) noexcept; + dom_parser_implementation(const dom_parser_implementation &) = delete; + dom_parser_implementation &operator=(const dom_parser_implementation &) = delete; + + simdjson_warn_unused error_code parse(const uint8_t *buf, size_t len, dom::document &doc) noexcept final; + simdjson_warn_unused error_code stage1(const uint8_t *buf, size_t len, bool partial) noexcept final; + simdjson_warn_unused error_code check_for_unclosed_array() noexcept; + simdjson_warn_unused error_code stage2(dom::document &doc) noexcept final; + simdjson_warn_unused error_code stage2_next(dom::document &doc) noexcept final; + inline simdjson_warn_unused error_code set_capacity(size_t capacity) noexcept final; + inline simdjson_warn_unused error_code set_max_depth(size_t max_depth) noexcept final; +private: + simdjson_really_inline simdjson_warn_unused error_code set_capacity_stage1(size_t capacity); + +}; + +} // namespace westmere +} // namespace simdjson + +namespace simdjson { +namespace westmere { + +inline dom_parser_implementation::dom_parser_implementation() noexcept = default; +inline dom_parser_implementation::dom_parser_implementation(dom_parser_implementation &&other) noexcept = default; +inline dom_parser_implementation &dom_parser_implementation::operator=(dom_parser_implementation &&other) noexcept = default; + +// Leaving these here so they can be inlined if so desired +inline simdjson_warn_unused error_code dom_parser_implementation::set_capacity(size_t capacity) noexcept { + // Stage 1 index output + size_t max_structures = SIMDJSON_ROUNDUP_N(capacity, 64) + 2 + 7; + structural_indexes.reset( new (std::nothrow) uint32_t[max_structures] ); + if (!structural_indexes) { _capacity = 0; return MEMALLOC; } + structural_indexes[0] = 0; + n_structural_indexes = 0; + + _capacity = capacity; + return SUCCESS; +} + +inline simdjson_warn_unused error_code dom_parser_implementation::set_max_depth(size_t max_depth) noexcept { + // Stage 2 stacks + open_containers.reset(new (std::nothrow) open_container[max_depth]); + is_array.reset(new (std::nothrow) bool[max_depth]); + if (!is_array || !open_containers) { _max_depth = 0; return MEMALLOC; } + + _max_depth = max_depth; + return SUCCESS; +} + +} // namespace westmere +} // namespace simdjson +/* end file include/simdjson/generic/dom_parser_implementation.h */ +/* begin file include/simdjson/westmere/bitmanipulation.h */ +#ifndef SIMDJSON_WESTMERE_BITMANIPULATION_H +#define SIMDJSON_WESTMERE_BITMANIPULATION_H + +namespace simdjson { +namespace westmere { +namespace { + +// We sometimes call trailing_zero on inputs that are zero, +// but the algorithms do not end up using the returned value. +// Sadly, sanitizers are not smart enough to figure it out. +NO_SANITIZE_UNDEFINED +simdjson_really_inline int trailing_zeroes(uint64_t input_num) { +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO + unsigned long ret; + // Search the mask data from least significant bit (LSB) + // to the most significant bit (MSB) for a set bit (1). + _BitScanForward64(&ret, input_num); + return (int)ret; +#else // SIMDJSON_REGULAR_VISUAL_STUDIO + return __builtin_ctzll(input_num); +#endif // SIMDJSON_REGULAR_VISUAL_STUDIO +} + +/* result might be undefined when input_num is zero */ +simdjson_really_inline uint64_t clear_lowest_bit(uint64_t input_num) { + return input_num & (input_num-1); +} + +/* result might be undefined when input_num is zero */ +simdjson_really_inline int leading_zeroes(uint64_t input_num) { +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO + unsigned long leading_zero = 0; + // Search the mask data from most significant bit (MSB) + // to least significant bit (LSB) for a set bit (1). + if (_BitScanReverse64(&leading_zero, input_num)) + return (int)(63 - leading_zero); + else + return 64; +#else + return __builtin_clzll(input_num); +#endif// SIMDJSON_REGULAR_VISUAL_STUDIO +} + +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO +simdjson_really_inline unsigned __int64 count_ones(uint64_t input_num) { + // note: we do not support legacy 32-bit Windows + return __popcnt64(input_num);// Visual Studio wants two underscores +} +#else +simdjson_really_inline long long int count_ones(uint64_t input_num) { + return _popcnt64(input_num); +} +#endif + +simdjson_really_inline bool add_overflow(uint64_t value1, uint64_t value2, + uint64_t *result) { +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO + return _addcarry_u64(0, value1, value2, + reinterpret_cast(result)); +#else + return __builtin_uaddll_overflow(value1, value2, + (unsigned long long *)result); +#endif +} + +} // unnamed namespace +} // namespace westmere +} // namespace simdjson + +#endif // SIMDJSON_WESTMERE_BITMANIPULATION_H +/* end file include/simdjson/westmere/bitmanipulation.h */ +/* begin file include/simdjson/westmere/bitmask.h */ +#ifndef SIMDJSON_WESTMERE_BITMASK_H +#define SIMDJSON_WESTMERE_BITMASK_H + +namespace simdjson { +namespace westmere { +namespace { + +// +// Perform a "cumulative bitwise xor," flipping bits each time a 1 is encountered. +// +// For example, prefix_xor(00100100) == 00011100 +// +simdjson_really_inline uint64_t prefix_xor(const uint64_t bitmask) { + // There should be no such thing with a processing supporting avx2 + // but not clmul. + __m128i all_ones = _mm_set1_epi8('\xFF'); + __m128i result = _mm_clmulepi64_si128(_mm_set_epi64x(0ULL, bitmask), all_ones, 0); + return _mm_cvtsi128_si64(result); +} + +} // unnamed namespace +} // namespace westmere +} // namespace simdjson + +#endif // SIMDJSON_WESTMERE_BITMASK_H +/* end file include/simdjson/westmere/bitmask.h */ +/* begin file include/simdjson/westmere/simd.h */ +#ifndef SIMDJSON_WESTMERE_SIMD_H +#define SIMDJSON_WESTMERE_SIMD_H + + +namespace simdjson { +namespace westmere { +namespace { +namespace simd { + + template + struct base { + __m128i value; + + // Zero constructor + simdjson_really_inline base() : value{__m128i()} {} + + // Conversion from SIMD register + simdjson_really_inline base(const __m128i _value) : value(_value) {} + + // Conversion to SIMD register + simdjson_really_inline operator const __m128i&() const { return this->value; } + simdjson_really_inline operator __m128i&() { return this->value; } + + // Bit operations + simdjson_really_inline Child operator|(const Child other) const { return _mm_or_si128(*this, other); } + simdjson_really_inline Child operator&(const Child other) const { return _mm_and_si128(*this, other); } + simdjson_really_inline Child operator^(const Child other) const { return _mm_xor_si128(*this, other); } + simdjson_really_inline Child bit_andnot(const Child other) const { return _mm_andnot_si128(other, *this); } + simdjson_really_inline Child& operator|=(const Child other) { auto this_cast = (Child*)this; *this_cast = *this_cast | other; return *this_cast; } + simdjson_really_inline Child& operator&=(const Child other) { auto this_cast = (Child*)this; *this_cast = *this_cast & other; return *this_cast; } + simdjson_really_inline Child& operator^=(const Child other) { auto this_cast = (Child*)this; *this_cast = *this_cast ^ other; return *this_cast; } + }; + + // Forward-declared so they can be used by splat and friends. + template + struct simd8; + + template> + struct base8: base> { + typedef uint16_t bitmask_t; + typedef uint32_t bitmask2_t; + + simdjson_really_inline base8() : base>() {} + simdjson_really_inline base8(const __m128i _value) : base>(_value) {} + + simdjson_really_inline Mask operator==(const simd8 other) const { return _mm_cmpeq_epi8(*this, other); } + + static const int SIZE = sizeof(base>::value); + + template + simdjson_really_inline simd8 prev(const simd8 prev_chunk) const { + return _mm_alignr_epi8(*this, prev_chunk, 16 - N); + } + }; + + // SIMD byte mask type (returned by things like eq and gt) + template<> + struct simd8: base8 { + static simdjson_really_inline simd8 splat(bool _value) { return _mm_set1_epi8(uint8_t(-(!!_value))); } + + simdjson_really_inline simd8() : base8() {} + simdjson_really_inline simd8(const __m128i _value) : base8(_value) {} + // Splat constructor + simdjson_really_inline simd8(bool _value) : base8(splat(_value)) {} + + simdjson_really_inline int to_bitmask() const { return _mm_movemask_epi8(*this); } + simdjson_really_inline bool any() const { return !_mm_testz_si128(*this, *this); } + simdjson_really_inline simd8 operator~() const { return *this ^ true; } + }; + + template + struct base8_numeric: base8 { + static simdjson_really_inline simd8 splat(T _value) { return _mm_set1_epi8(_value); } + static simdjson_really_inline simd8 zero() { return _mm_setzero_si128(); } + static simdjson_really_inline simd8 load(const T values[16]) { + return _mm_loadu_si128(reinterpret_cast(values)); + } + // Repeat 16 values as many times as necessary (usually for lookup tables) + static simdjson_really_inline simd8 repeat_16( + T v0, T v1, T v2, T v3, T v4, T v5, T v6, T v7, + T v8, T v9, T v10, T v11, T v12, T v13, T v14, T v15 + ) { + return simd8( + v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10,v11,v12,v13,v14,v15 + ); + } + + simdjson_really_inline base8_numeric() : base8() {} + simdjson_really_inline base8_numeric(const __m128i _value) : base8(_value) {} + + // Store to array + simdjson_really_inline void store(T dst[16]) const { return _mm_storeu_si128(reinterpret_cast<__m128i *>(dst), *this); } + + // Override to distinguish from bool version + simdjson_really_inline simd8 operator~() const { return *this ^ 0xFFu; } + + // Addition/subtraction are the same for signed and unsigned + simdjson_really_inline simd8 operator+(const simd8 other) const { return _mm_add_epi8(*this, other); } + simdjson_really_inline simd8 operator-(const simd8 other) const { return _mm_sub_epi8(*this, other); } + simdjson_really_inline simd8& operator+=(const simd8 other) { *this = *this + other; return *(simd8*)this; } + simdjson_really_inline simd8& operator-=(const simd8 other) { *this = *this - other; return *(simd8*)this; } + + // Perform a lookup assuming the value is between 0 and 16 (undefined behavior for out of range values) + template + simdjson_really_inline simd8 lookup_16(simd8 lookup_table) const { + return _mm_shuffle_epi8(lookup_table, *this); + } + + // Copies to 'output" all bytes corresponding to a 0 in the mask (interpreted as a bitset). + // Passing a 0 value for mask would be equivalent to writing out every byte to output. + // Only the first 16 - count_ones(mask) bytes of the result are significant but 16 bytes + // get written. + // Design consideration: it seems like a function with the + // signature simd8 compress(uint32_t mask) would be + // sensible, but the AVX ISA makes this kind of approach difficult. + template + simdjson_really_inline void compress(uint16_t mask, L * output) const { + using internal::thintable_epi8; + using internal::BitsSetTable256mul2; + using internal::pshufb_combine_table; + // this particular implementation was inspired by work done by @animetosho + // we do it in two steps, first 8 bytes and then second 8 bytes + uint8_t mask1 = uint8_t(mask); // least significant 8 bits + uint8_t mask2 = uint8_t(mask >> 8); // most significant 8 bits + // next line just loads the 64-bit values thintable_epi8[mask1] and + // thintable_epi8[mask2] into a 128-bit register, using only + // two instructions on most compilers. + __m128i shufmask = _mm_set_epi64x(thintable_epi8[mask2], thintable_epi8[mask1]); + // we increment by 0x08 the second half of the mask + shufmask = + _mm_add_epi8(shufmask, _mm_set_epi32(0x08080808, 0x08080808, 0, 0)); + // this is the version "nearly pruned" + __m128i pruned = _mm_shuffle_epi8(*this, shufmask); + // we still need to put the two halves together. + // we compute the popcount of the first half: + int pop1 = BitsSetTable256mul2[mask1]; + // then load the corresponding mask, what it does is to write + // only the first pop1 bytes from the first 8 bytes, and then + // it fills in with the bytes from the second 8 bytes + some filling + // at the end. + __m128i compactmask = + _mm_loadu_si128((const __m128i *)(pshufb_combine_table + pop1 * 8)); + __m128i answer = _mm_shuffle_epi8(pruned, compactmask); + _mm_storeu_si128(( __m128i *)(output), answer); + } + + template + simdjson_really_inline simd8 lookup_16( + L replace0, L replace1, L replace2, L replace3, + L replace4, L replace5, L replace6, L replace7, + L replace8, L replace9, L replace10, L replace11, + L replace12, L replace13, L replace14, L replace15) const { + return lookup_16(simd8::repeat_16( + replace0, replace1, replace2, replace3, + replace4, replace5, replace6, replace7, + replace8, replace9, replace10, replace11, + replace12, replace13, replace14, replace15 + )); + } + }; + + // Signed bytes + template<> + struct simd8 : base8_numeric { + simdjson_really_inline simd8() : base8_numeric() {} + simdjson_really_inline simd8(const __m128i _value) : base8_numeric(_value) {} + // Splat constructor + simdjson_really_inline simd8(int8_t _value) : simd8(splat(_value)) {} + // Array constructor + simdjson_really_inline simd8(const int8_t* values) : simd8(load(values)) {} + // Member-by-member initialization + simdjson_really_inline simd8( + int8_t v0, int8_t v1, int8_t v2, int8_t v3, int8_t v4, int8_t v5, int8_t v6, int8_t v7, + int8_t v8, int8_t v9, int8_t v10, int8_t v11, int8_t v12, int8_t v13, int8_t v14, int8_t v15 + ) : simd8(_mm_setr_epi8( + v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10,v11,v12,v13,v14,v15 + )) {} + // Repeat 16 values as many times as necessary (usually for lookup tables) + simdjson_really_inline static simd8 repeat_16( + int8_t v0, int8_t v1, int8_t v2, int8_t v3, int8_t v4, int8_t v5, int8_t v6, int8_t v7, + int8_t v8, int8_t v9, int8_t v10, int8_t v11, int8_t v12, int8_t v13, int8_t v14, int8_t v15 + ) { + return simd8( + v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10,v11,v12,v13,v14,v15 + ); + } + + // Order-sensitive comparisons + simdjson_really_inline simd8 max_val(const simd8 other) const { return _mm_max_epi8(*this, other); } + simdjson_really_inline simd8 min_val(const simd8 other) const { return _mm_min_epi8(*this, other); } + simdjson_really_inline simd8 operator>(const simd8 other) const { return _mm_cmpgt_epi8(*this, other); } + simdjson_really_inline simd8 operator<(const simd8 other) const { return _mm_cmpgt_epi8(other, *this); } + }; + + // Unsigned bytes + template<> + struct simd8: base8_numeric { + simdjson_really_inline simd8() : base8_numeric() {} + simdjson_really_inline simd8(const __m128i _value) : base8_numeric(_value) {} + // Splat constructor + simdjson_really_inline simd8(uint8_t _value) : simd8(splat(_value)) {} + // Array constructor + simdjson_really_inline simd8(const uint8_t* values) : simd8(load(values)) {} + // Member-by-member initialization + simdjson_really_inline simd8( + uint8_t v0, uint8_t v1, uint8_t v2, uint8_t v3, uint8_t v4, uint8_t v5, uint8_t v6, uint8_t v7, + uint8_t v8, uint8_t v9, uint8_t v10, uint8_t v11, uint8_t v12, uint8_t v13, uint8_t v14, uint8_t v15 + ) : simd8(_mm_setr_epi8( + v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10,v11,v12,v13,v14,v15 + )) {} + // Repeat 16 values as many times as necessary (usually for lookup tables) + simdjson_really_inline static simd8 repeat_16( + uint8_t v0, uint8_t v1, uint8_t v2, uint8_t v3, uint8_t v4, uint8_t v5, uint8_t v6, uint8_t v7, + uint8_t v8, uint8_t v9, uint8_t v10, uint8_t v11, uint8_t v12, uint8_t v13, uint8_t v14, uint8_t v15 + ) { + return simd8( + v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10,v11,v12,v13,v14,v15 + ); + } + + // Saturated math + simdjson_really_inline simd8 saturating_add(const simd8 other) const { return _mm_adds_epu8(*this, other); } + simdjson_really_inline simd8 saturating_sub(const simd8 other) const { return _mm_subs_epu8(*this, other); } + + // Order-specific operations + simdjson_really_inline simd8 max_val(const simd8 other) const { return _mm_max_epu8(*this, other); } + simdjson_really_inline simd8 min_val(const simd8 other) const { return _mm_min_epu8(*this, other); } + // Same as >, but only guarantees true is nonzero (< guarantees true = -1) + simdjson_really_inline simd8 gt_bits(const simd8 other) const { return this->saturating_sub(other); } + // Same as <, but only guarantees true is nonzero (< guarantees true = -1) + simdjson_really_inline simd8 lt_bits(const simd8 other) const { return other.saturating_sub(*this); } + simdjson_really_inline simd8 operator<=(const simd8 other) const { return other.max_val(*this) == other; } + simdjson_really_inline simd8 operator>=(const simd8 other) const { return other.min_val(*this) == other; } + simdjson_really_inline simd8 operator>(const simd8 other) const { return this->gt_bits(other).any_bits_set(); } + simdjson_really_inline simd8 operator<(const simd8 other) const { return this->gt_bits(other).any_bits_set(); } + + // Bit-specific operations + simdjson_really_inline simd8 bits_not_set() const { return *this == uint8_t(0); } + simdjson_really_inline simd8 bits_not_set(simd8 bits) const { return (*this & bits).bits_not_set(); } + simdjson_really_inline simd8 any_bits_set() const { return ~this->bits_not_set(); } + simdjson_really_inline simd8 any_bits_set(simd8 bits) const { return ~this->bits_not_set(bits); } + simdjson_really_inline bool is_ascii() const { return _mm_movemask_epi8(*this) == 0; } + simdjson_really_inline bool bits_not_set_anywhere() const { return _mm_testz_si128(*this, *this); } + simdjson_really_inline bool any_bits_set_anywhere() const { return !bits_not_set_anywhere(); } + simdjson_really_inline bool bits_not_set_anywhere(simd8 bits) const { return _mm_testz_si128(*this, bits); } + simdjson_really_inline bool any_bits_set_anywhere(simd8 bits) const { return !bits_not_set_anywhere(bits); } + template + simdjson_really_inline simd8 shr() const { return simd8(_mm_srli_epi16(*this, N)) & uint8_t(0xFFu >> N); } + template + simdjson_really_inline simd8 shl() const { return simd8(_mm_slli_epi16(*this, N)) & uint8_t(0xFFu << N); } + // Get one of the bits and make a bitmask out of it. + // e.g. value.get_bit<7>() gets the high bit + template + simdjson_really_inline int get_bit() const { return _mm_movemask_epi8(_mm_slli_epi16(*this, 7-N)); } + }; + + template + struct simd8x64 { + static constexpr int NUM_CHUNKS = 64 / sizeof(simd8); + static_assert(NUM_CHUNKS == 4, "Westmere kernel should use four registers per 64-byte block."); + const simd8 chunks[NUM_CHUNKS]; + + simd8x64(const simd8x64& o) = delete; // no copy allowed + simd8x64& operator=(const simd8 other) = delete; // no assignment allowed + simd8x64() = delete; // no default constructor allowed + + simdjson_really_inline simd8x64(const simd8 chunk0, const simd8 chunk1, const simd8 chunk2, const simd8 chunk3) : chunks{chunk0, chunk1, chunk2, chunk3} {} + simdjson_really_inline simd8x64(const T ptr[64]) : chunks{simd8::load(ptr), simd8::load(ptr+16), simd8::load(ptr+32), simd8::load(ptr+48)} {} + + simdjson_really_inline void store(T ptr[64]) const { + this->chunks[0].store(ptr+sizeof(simd8)*0); + this->chunks[1].store(ptr+sizeof(simd8)*1); + this->chunks[2].store(ptr+sizeof(simd8)*2); + this->chunks[3].store(ptr+sizeof(simd8)*3); + } + + simdjson_really_inline simd8 reduce_or() const { + return (this->chunks[0] | this->chunks[1]) | (this->chunks[2] | this->chunks[3]); + } + + simdjson_really_inline void compress(uint64_t mask, T * output) const { + this->chunks[0].compress(uint16_t(mask), output); + this->chunks[1].compress(uint16_t(mask >> 16), output + 16 - count_ones(mask & 0xFFFF)); + this->chunks[2].compress(uint16_t(mask >> 32), output + 32 - count_ones(mask & 0xFFFFFFFF)); + this->chunks[3].compress(uint16_t(mask >> 48), output + 48 - count_ones(mask & 0xFFFFFFFFFFFF)); + } + + simdjson_really_inline uint64_t to_bitmask() const { + uint64_t r0 = uint32_t(this->chunks[0].to_bitmask() ); + uint64_t r1 = this->chunks[1].to_bitmask() ; + uint64_t r2 = this->chunks[2].to_bitmask() ; + uint64_t r3 = this->chunks[3].to_bitmask() ; + return r0 | (r1 << 16) | (r2 << 32) | (r3 << 48); + } + + simdjson_really_inline uint64_t eq(const T m) const { + const simd8 mask = simd8::splat(m); + return simd8x64( + this->chunks[0] == mask, + this->chunks[1] == mask, + this->chunks[2] == mask, + this->chunks[3] == mask + ).to_bitmask(); + } + + simdjson_really_inline uint64_t eq(const simd8x64 &other) const { + return simd8x64( + this->chunks[0] == other.chunks[0], + this->chunks[1] == other.chunks[1], + this->chunks[2] == other.chunks[2], + this->chunks[3] == other.chunks[3] + ).to_bitmask(); + } + + simdjson_really_inline uint64_t lteq(const T m) const { + const simd8 mask = simd8::splat(m); + return simd8x64( + this->chunks[0] <= mask, + this->chunks[1] <= mask, + this->chunks[2] <= mask, + this->chunks[3] <= mask + ).to_bitmask(); + } + }; // struct simd8x64 + +} // namespace simd +} // unnamed namespace +} // namespace westmere +} // namespace simdjson + +#endif // SIMDJSON_WESTMERE_SIMD_INPUT_H +/* end file include/simdjson/westmere/simd.h */ +/* begin file include/simdjson/generic/jsoncharutils.h */ + +namespace simdjson { +namespace westmere { +namespace { +namespace jsoncharutils { + +// return non-zero if not a structural or whitespace char +// zero otherwise +simdjson_really_inline uint32_t is_not_structural_or_whitespace(uint8_t c) { + return internal::structural_or_whitespace_negated[c]; +} + +simdjson_really_inline uint32_t is_structural_or_whitespace(uint8_t c) { + return internal::structural_or_whitespace[c]; +} + +// returns a value with the high 16 bits set if not valid +// otherwise returns the conversion of the 4 hex digits at src into the bottom +// 16 bits of the 32-bit return register +// +// see +// https://lemire.me/blog/2019/04/17/parsing-short-hexadecimal-strings-efficiently/ +static inline uint32_t hex_to_u32_nocheck( + const uint8_t *src) { // strictly speaking, static inline is a C-ism + uint32_t v1 = internal::digit_to_val32[630 + src[0]]; + uint32_t v2 = internal::digit_to_val32[420 + src[1]]; + uint32_t v3 = internal::digit_to_val32[210 + src[2]]; + uint32_t v4 = internal::digit_to_val32[0 + src[3]]; + return v1 | v2 | v3 | v4; +} + +// given a code point cp, writes to c +// the utf-8 code, outputting the length in +// bytes, if the length is zero, the code point +// is invalid +// +// This can possibly be made faster using pdep +// and clz and table lookups, but JSON documents +// have few escaped code points, and the following +// function looks cheap. +// +// Note: we assume that surrogates are treated separately +// +simdjson_really_inline size_t codepoint_to_utf8(uint32_t cp, uint8_t *c) { + if (cp <= 0x7F) { + c[0] = uint8_t(cp); + return 1; // ascii + } + if (cp <= 0x7FF) { + c[0] = uint8_t((cp >> 6) + 192); + c[1] = uint8_t((cp & 63) + 128); + return 2; // universal plane + // Surrogates are treated elsewhere... + //} //else if (0xd800 <= cp && cp <= 0xdfff) { + // return 0; // surrogates // could put assert here + } else if (cp <= 0xFFFF) { + c[0] = uint8_t((cp >> 12) + 224); + c[1] = uint8_t(((cp >> 6) & 63) + 128); + c[2] = uint8_t((cp & 63) + 128); + return 3; + } else if (cp <= 0x10FFFF) { // if you know you have a valid code point, this + // is not needed + c[0] = uint8_t((cp >> 18) + 240); + c[1] = uint8_t(((cp >> 12) & 63) + 128); + c[2] = uint8_t(((cp >> 6) & 63) + 128); + c[3] = uint8_t((cp & 63) + 128); + return 4; + } + // will return 0 when the code point was too large. + return 0; // bad r +} + +#ifdef SIMDJSON_IS_32BITS // _umul128 for x86, arm +// this is a slow emulation routine for 32-bit +// +static simdjson_really_inline uint64_t __emulu(uint32_t x, uint32_t y) { + return x * (uint64_t)y; +} +static simdjson_really_inline uint64_t _umul128(uint64_t ab, uint64_t cd, uint64_t *hi) { + uint64_t ad = __emulu((uint32_t)(ab >> 32), (uint32_t)cd); + uint64_t bd = __emulu((uint32_t)ab, (uint32_t)cd); + uint64_t adbc = ad + __emulu((uint32_t)ab, (uint32_t)(cd >> 32)); + uint64_t adbc_carry = !!(adbc < ad); + uint64_t lo = bd + (adbc << 32); + *hi = __emulu((uint32_t)(ab >> 32), (uint32_t)(cd >> 32)) + (adbc >> 32) + + (adbc_carry << 32) + !!(lo < bd); + return lo; +} +#endif + +using internal::value128; + +simdjson_really_inline value128 full_multiplication(uint64_t value1, uint64_t value2) { + value128 answer; +#if defined(SIMDJSON_REGULAR_VISUAL_STUDIO) || defined(SIMDJSON_IS_32BITS) +#ifdef _M_ARM64 + // ARM64 has native support for 64-bit multiplications, no need to emultate + answer.high = __umulh(value1, value2); + answer.low = value1 * value2; +#else + answer.low = _umul128(value1, value2, &answer.high); // _umul128 not available on ARM64 +#endif // _M_ARM64 +#else // defined(SIMDJSON_REGULAR_VISUAL_STUDIO) || defined(SIMDJSON_IS_32BITS) + __uint128_t r = ((__uint128_t)value1) * value2; + answer.low = uint64_t(r); + answer.high = uint64_t(r >> 64); +#endif + return answer; +} + +} // namespace jsoncharutils +} // unnamed namespace +} // namespace westmere +} // namespace simdjson +/* end file include/simdjson/generic/jsoncharutils.h */ +/* begin file include/simdjson/generic/atomparsing.h */ +namespace simdjson { +namespace westmere { +namespace { +/// @private +namespace atomparsing { + +// The string_to_uint32 is exclusively used to map literal strings to 32-bit values. +// We use memcpy instead of a pointer cast to avoid undefined behaviors since we cannot +// be certain that the character pointer will be properly aligned. +// You might think that using memcpy makes this function expensive, but you'd be wrong. +// All decent optimizing compilers (GCC, clang, Visual Studio) will compile string_to_uint32("false"); +// to the compile-time constant 1936482662. +simdjson_really_inline uint32_t string_to_uint32(const char* str) { uint32_t val; std::memcpy(&val, str, sizeof(uint32_t)); return val; } + + +// Again in str4ncmp we use a memcpy to avoid undefined behavior. The memcpy may appear expensive. +// Yet all decent optimizing compilers will compile memcpy to a single instruction, just about. +simdjson_warn_unused +simdjson_really_inline uint32_t str4ncmp(const uint8_t *src, const char* atom) { + uint32_t srcval; // we want to avoid unaligned 32-bit loads (undefined in C/C++) + static_assert(sizeof(uint32_t) <= SIMDJSON_PADDING, "SIMDJSON_PADDING must be larger than 4 bytes"); + std::memcpy(&srcval, src, sizeof(uint32_t)); + return srcval ^ string_to_uint32(atom); +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_true_atom(const uint8_t *src) { + return (str4ncmp(src, "true") | jsoncharutils::is_not_structural_or_whitespace(src[4])) == 0; +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_true_atom(const uint8_t *src, size_t len) { + if (len > 4) { return is_valid_true_atom(src); } + else if (len == 4) { return !str4ncmp(src, "true"); } + else { return false; } +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_false_atom(const uint8_t *src) { + return (str4ncmp(src+1, "alse") | jsoncharutils::is_not_structural_or_whitespace(src[5])) == 0; +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_false_atom(const uint8_t *src, size_t len) { + if (len > 5) { return is_valid_false_atom(src); } + else if (len == 5) { return !str4ncmp(src+1, "alse"); } + else { return false; } +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_null_atom(const uint8_t *src) { + return (str4ncmp(src, "null") | jsoncharutils::is_not_structural_or_whitespace(src[4])) == 0; +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_null_atom(const uint8_t *src, size_t len) { + if (len > 4) { return is_valid_null_atom(src); } + else if (len == 4) { return !str4ncmp(src, "null"); } + else { return false; } +} + +} // namespace atomparsing +} // unnamed namespace +} // namespace westmere +} // namespace simdjson +/* end file include/simdjson/generic/atomparsing.h */ +/* begin file include/simdjson/westmere/stringparsing.h */ +#ifndef SIMDJSON_WESTMERE_STRINGPARSING_H +#define SIMDJSON_WESTMERE_STRINGPARSING_H + +namespace simdjson { +namespace westmere { +namespace { + +using namespace simd; + +// Holds backslashes and quotes locations. +struct backslash_and_quote { +public: + static constexpr uint32_t BYTES_PROCESSED = 32; + simdjson_really_inline static backslash_and_quote copy_and_find(const uint8_t *src, uint8_t *dst); + + simdjson_really_inline bool has_quote_first() { return ((bs_bits - 1) & quote_bits) != 0; } + simdjson_really_inline bool has_backslash() { return bs_bits != 0; } + simdjson_really_inline int quote_index() { return trailing_zeroes(quote_bits); } + simdjson_really_inline int backslash_index() { return trailing_zeroes(bs_bits); } + + uint32_t bs_bits; + uint32_t quote_bits; +}; // struct backslash_and_quote + +simdjson_really_inline backslash_and_quote backslash_and_quote::copy_and_find(const uint8_t *src, uint8_t *dst) { + // this can read up to 31 bytes beyond the buffer size, but we require + // SIMDJSON_PADDING of padding + static_assert(SIMDJSON_PADDING >= (BYTES_PROCESSED - 1), "backslash and quote finder must process fewer than SIMDJSON_PADDING bytes"); + simd8 v0(src); + simd8 v1(src + 16); + v0.store(dst); + v1.store(dst + 16); + uint64_t bs_and_quote = simd8x64(v0 == '\\', v1 == '\\', v0 == '"', v1 == '"').to_bitmask(); + return { + uint32_t(bs_and_quote), // bs_bits + uint32_t(bs_and_quote >> 32) // quote_bits + }; +} + +} // unnamed namespace +} // namespace westmere +} // namespace simdjson + +/* begin file include/simdjson/generic/stringparsing.h */ +// This file contains the common code every implementation uses +// It is intended to be included multiple times and compiled multiple times + +namespace simdjson { +namespace westmere { +namespace { +/// @private +namespace stringparsing { + +// begin copypasta +// These chars yield themselves: " \ / +// b -> backspace, f -> formfeed, n -> newline, r -> cr, t -> horizontal tab +// u not handled in this table as it's complex +static const uint8_t escape_map[256] = { + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 0x0. + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0x22, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x2f, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 0x4. + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0, 0, // 0x5. + 0, 0, 0x08, 0, 0, 0, 0x0c, 0, 0, 0, 0, 0, 0, 0, 0x0a, 0, // 0x6. + 0, 0, 0x0d, 0, 0x09, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 0x7. + + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, +}; + +// handle a unicode codepoint +// write appropriate values into dest +// src will advance 6 bytes or 12 bytes +// dest will advance a variable amount (return via pointer) +// return true if the unicode codepoint was valid +// We work in little-endian then swap at write time +simdjson_warn_unused +simdjson_really_inline bool handle_unicode_codepoint(const uint8_t **src_ptr, + uint8_t **dst_ptr) { + // jsoncharutils::hex_to_u32_nocheck fills high 16 bits of the return value with 1s if the + // conversion isn't valid; we defer the check for this to inside the + // multilingual plane check + uint32_t code_point = jsoncharutils::hex_to_u32_nocheck(*src_ptr + 2); + *src_ptr += 6; + // check for low surrogate for characters outside the Basic + // Multilingual Plane. + if (code_point >= 0xd800 && code_point < 0xdc00) { + if (((*src_ptr)[0] != '\\') || (*src_ptr)[1] != 'u') { + return false; + } + uint32_t code_point_2 = jsoncharutils::hex_to_u32_nocheck(*src_ptr + 2); + + // if the first code point is invalid we will get here, as we will go past + // the check for being outside the Basic Multilingual plane. If we don't + // find a \u immediately afterwards we fail out anyhow, but if we do, + // this check catches both the case of the first code point being invalid + // or the second code point being invalid. + if ((code_point | code_point_2) >> 16) { + return false; + } + + code_point = + (((code_point - 0xd800) << 10) | (code_point_2 - 0xdc00)) + 0x10000; + *src_ptr += 6; + } + size_t offset = jsoncharutils::codepoint_to_utf8(code_point, *dst_ptr); + *dst_ptr += offset; + return offset > 0; +} + +/** + * Unescape a string from src to dst, stopping at a final unescaped quote. E.g., if src points at 'joe"', then + * dst needs to have four free bytes. + */ +simdjson_warn_unused simdjson_really_inline uint8_t *parse_string(const uint8_t *src, uint8_t *dst) { + while (1) { + // Copy the next n bytes, and find the backslash and quote in them. + auto bs_quote = backslash_and_quote::copy_and_find(src, dst); + // If the next thing is the end quote, copy and return + if (bs_quote.has_quote_first()) { + // we encountered quotes first. Move dst to point to quotes and exit + return dst + bs_quote.quote_index(); + } + if (bs_quote.has_backslash()) { + /* find out where the backspace is */ + auto bs_dist = bs_quote.backslash_index(); + uint8_t escape_char = src[bs_dist + 1]; + /* we encountered backslash first. Handle backslash */ + if (escape_char == 'u') { + /* move src/dst up to the start; they will be further adjusted + within the unicode codepoint handling code. */ + src += bs_dist; + dst += bs_dist; + if (!handle_unicode_codepoint(&src, &dst)) { + return nullptr; + } + } else { + /* simple 1:1 conversion. Will eat bs_dist+2 characters in input and + * write bs_dist+1 characters to output + * note this may reach beyond the part of the buffer we've actually + * seen. I think this is ok */ + uint8_t escape_result = escape_map[escape_char]; + if (escape_result == 0u) { + return nullptr; /* bogus escape value is an error */ + } + dst[bs_dist] = escape_result; + src += bs_dist + 2; + dst += bs_dist + 1; + } + } else { + /* they are the same. Since they can't co-occur, it means we + * encountered neither. */ + src += backslash_and_quote::BYTES_PROCESSED; + dst += backslash_and_quote::BYTES_PROCESSED; + } + } + /* can't be reached */ + return nullptr; +} + +simdjson_unused simdjson_warn_unused simdjson_really_inline error_code parse_string_to_buffer(const uint8_t *src, uint8_t *¤t_string_buf_loc, std::string_view &s) { + if (*(src++) != '"') { return STRING_ERROR; } + auto end = stringparsing::parse_string(src, current_string_buf_loc); + if (!end) { return STRING_ERROR; } + s = std::string_view((const char *)current_string_buf_loc, end-current_string_buf_loc); + current_string_buf_loc = end; + return SUCCESS; +} + +} // namespace stringparsing +} // unnamed namespace +} // namespace westmere +} // namespace simdjson +/* end file include/simdjson/generic/stringparsing.h */ + +#endif // SIMDJSON_WESTMERE_STRINGPARSING_H +/* end file include/simdjson/westmere/stringparsing.h */ +/* begin file include/simdjson/westmere/numberparsing.h */ +#ifndef SIMDJSON_WESTMERE_NUMBERPARSING_H +#define SIMDJSON_WESTMERE_NUMBERPARSING_H + +namespace simdjson { +namespace westmere { +namespace { + +static simdjson_really_inline uint32_t parse_eight_digits_unrolled(const uint8_t *chars) { + // this actually computes *16* values so we are being wasteful. + const __m128i ascii0 = _mm_set1_epi8('0'); + const __m128i mul_1_10 = + _mm_setr_epi8(10, 1, 10, 1, 10, 1, 10, 1, 10, 1, 10, 1, 10, 1, 10, 1); + const __m128i mul_1_100 = _mm_setr_epi16(100, 1, 100, 1, 100, 1, 100, 1); + const __m128i mul_1_10000 = + _mm_setr_epi16(10000, 1, 10000, 1, 10000, 1, 10000, 1); + const __m128i input = _mm_sub_epi8( + _mm_loadu_si128(reinterpret_cast(chars)), ascii0); + const __m128i t1 = _mm_maddubs_epi16(input, mul_1_10); + const __m128i t2 = _mm_madd_epi16(t1, mul_1_100); + const __m128i t3 = _mm_packus_epi32(t2, t2); + const __m128i t4 = _mm_madd_epi16(t3, mul_1_10000); + return _mm_cvtsi128_si32( + t4); // only captures the sum of the first 8 digits, drop the rest +} + +} // unnamed namespace +} // namespace westmere +} // namespace simdjson + +#define SWAR_NUMBER_PARSING + +/* begin file include/simdjson/generic/numberparsing.h */ +#include + +namespace simdjson { +namespace westmere { +namespace { +/// @private +namespace numberparsing { + + + +#ifdef JSON_TEST_NUMBERS +#define INVALID_NUMBER(SRC) (found_invalid_number((SRC)), NUMBER_ERROR) +#define WRITE_INTEGER(VALUE, SRC, WRITER) (found_integer((VALUE), (SRC)), (WRITER).append_s64((VALUE))) +#define WRITE_UNSIGNED(VALUE, SRC, WRITER) (found_unsigned_integer((VALUE), (SRC)), (WRITER).append_u64((VALUE))) +#define WRITE_DOUBLE(VALUE, SRC, WRITER) (found_float((VALUE), (SRC)), (WRITER).append_double((VALUE))) +#else +#define INVALID_NUMBER(SRC) (NUMBER_ERROR) +#define WRITE_INTEGER(VALUE, SRC, WRITER) (WRITER).append_s64((VALUE)) +#define WRITE_UNSIGNED(VALUE, SRC, WRITER) (WRITER).append_u64((VALUE)) +#define WRITE_DOUBLE(VALUE, SRC, WRITER) (WRITER).append_double((VALUE)) +#endif + +namespace { +// Convert a mantissa, an exponent and a sign bit into an ieee64 double. +// The real_exponent needs to be in [0, 2046] (technically real_exponent = 2047 would be acceptable). +// The mantissa should be in [0,1<<53). The bit at index (1ULL << 52) while be zeroed. +simdjson_really_inline double to_double(uint64_t mantissa, uint64_t real_exponent, bool negative) { + double d; + mantissa &= ~(1ULL << 52); + mantissa |= real_exponent << 52; + mantissa |= (((uint64_t)negative) << 63); + std::memcpy(&d, &mantissa, sizeof(d)); + return d; +} +} +// Attempts to compute i * 10^(power) exactly; and if "negative" is +// true, negate the result. +// This function will only work in some cases, when it does not work, success is +// set to false. This should work *most of the time* (like 99% of the time). +// We assume that power is in the [smallest_power, +// largest_power] interval: the caller is responsible for this check. +simdjson_really_inline bool compute_float_64(int64_t power, uint64_t i, bool negative, double &d) { + // we start with a fast path + // It was described in + // Clinger WD. How to read floating point numbers accurately. + // ACM SIGPLAN Notices. 1990 +#ifndef FLT_EVAL_METHOD +#error "FLT_EVAL_METHOD should be defined, please include cfloat." +#endif +#if (FLT_EVAL_METHOD != 1) && (FLT_EVAL_METHOD != 0) + // We cannot be certain that x/y is rounded to nearest. + if (0 <= power && power <= 22 && i <= 9007199254740991) { +#else + if (-22 <= power && power <= 22 && i <= 9007199254740991) { +#endif + // convert the integer into a double. This is lossless since + // 0 <= i <= 2^53 - 1. + d = double(i); + // + // The general idea is as follows. + // If 0 <= s < 2^53 and if 10^0 <= p <= 10^22 then + // 1) Both s and p can be represented exactly as 64-bit floating-point + // values + // (binary64). + // 2) Because s and p can be represented exactly as floating-point values, + // then s * p + // and s / p will produce correctly rounded values. + // + if (power < 0) { + d = d / simdjson::internal::power_of_ten[-power]; + } else { + d = d * simdjson::internal::power_of_ten[power]; + } + if (negative) { + d = -d; + } + return true; + } + // When 22 < power && power < 22 + 16, we could + // hope for another, secondary fast path. It was + // described by David M. Gay in "Correctly rounded + // binary-decimal and decimal-binary conversions." (1990) + // If you need to compute i * 10^(22 + x) for x < 16, + // first compute i * 10^x, if you know that result is exact + // (e.g., when i * 10^x < 2^53), + // then you can still proceed and do (i * 10^x) * 10^22. + // Is this worth your time? + // You need 22 < power *and* power < 22 + 16 *and* (i * 10^(x-22) < 2^53) + // for this second fast path to work. + // If you you have 22 < power *and* power < 22 + 16, and then you + // optimistically compute "i * 10^(x-22)", there is still a chance that you + // have wasted your time if i * 10^(x-22) >= 2^53. It makes the use cases of + // this optimization maybe less common than we would like. Source: + // http://www.exploringbinary.com/fast-path-decimal-to-floating-point-conversion/ + // also used in RapidJSON: https://rapidjson.org/strtod_8h_source.html + + // The fast path has now failed, so we are failing back on the slower path. + + // In the slow path, we need to adjust i so that it is > 1<<63 which is always + // possible, except if i == 0, so we handle i == 0 separately. + if(i == 0) { + d = 0.0; + return true; + } + + + // The exponent is 1024 + 63 + power + // + floor(log(5**power)/log(2)). + // The 1024 comes from the ieee64 standard. + // The 63 comes from the fact that we use a 64-bit word. + // + // Computing floor(log(5**power)/log(2)) could be + // slow. Instead we use a fast function. + // + // For power in (-400,350), we have that + // (((152170 + 65536) * power ) >> 16); + // is equal to + // floor(log(5**power)/log(2)) + power when power >= 0 + // and it is equal to + // ceil(log(5**-power)/log(2)) + power when power < 0 + // + // The 65536 is (1<<16) and corresponds to + // (65536 * power) >> 16 ---> power + // + // ((152170 * power ) >> 16) is equal to + // floor(log(5**power)/log(2)) + // + // Note that this is not magic: 152170/(1<<16) is + // approximatively equal to log(5)/log(2). + // The 1<<16 value is a power of two; we could use a + // larger power of 2 if we wanted to. + // + int64_t exponent = (((152170 + 65536) * power) >> 16) + 1024 + 63; + + + // We want the most significant bit of i to be 1. Shift if needed. + int lz = leading_zeroes(i); + i <<= lz; + + + // We are going to need to do some 64-bit arithmetic to get a precise product. + // We use a table lookup approach. + // It is safe because + // power >= smallest_power + // and power <= largest_power + // We recover the mantissa of the power, it has a leading 1. It is always + // rounded down. + // + // We want the most significant 64 bits of the product. We know + // this will be non-zero because the most significant bit of i is + // 1. + const uint32_t index = 2 * uint32_t(power - simdjson::internal::smallest_power); + // Optimization: It may be that materializing the index as a variable might confuse some compilers and prevent effective complex-addressing loads. (Done for code clarity.) + // + // The full_multiplication function computes the 128-bit product of two 64-bit words + // with a returned value of type value128 with a "low component" corresponding to the + // 64-bit least significant bits of the product and with a "high component" corresponding + // to the 64-bit most significant bits of the product. + simdjson::internal::value128 firstproduct = jsoncharutils::full_multiplication(i, simdjson::internal::power_of_five_128[index]); + // Both i and power_of_five_128[index] have their most significant bit set to 1 which + // implies that the either the most or the second most significant bit of the product + // is 1. We pack values in this manner for efficiency reasons: it maximizes the use + // we make of the product. It also makes it easy to reason aboutthe product: there + // 0 or 1 leading zero in the product. + + // Unless the least significant 9 bits of the high (64-bit) part of the full + // product are all 1s, then we know that the most significant 55 bits are + // exact and no further work is needed. Having 55 bits is necessary because + // we need 53 bits for the mantissa but we have to have one rounding bit and + // we can waste a bit if the most significant bit of the product is zero. + if((firstproduct.high & 0x1FF) == 0x1FF) { + // We want to compute i * 5^q, but only care about the top 55 bits at most. + // Consider the scenario where q>=0. Then 5^q may not fit in 64-bits. Doing + // the full computation is wasteful. So we do what is called a "truncated + // multiplication". + // We take the most significant 64-bits, and we put them in + // power_of_five_128[index]. Usually, that's good enough to approximate i * 5^q + // to the desired approximation using one multiplication. Sometimes it does not suffice. + // Then we store the next most significant 64 bits in power_of_five_128[index + 1], and + // then we get a better approximation to i * 5^q. In very rare cases, even that + // will not suffice, though it is seemingly very hard to find such a scenario. + // + // That's for when q>=0. The logic for q<0 is somewhat similar but it is somewhat + // more complicated. + // + // There is an extra layer of complexity in that we need more than 55 bits of + // accuracy in the round-to-even scenario. + // + // The full_multiplication function computes the 128-bit product of two 64-bit words + // with a returned value of type value128 with a "low component" corresponding to the + // 64-bit least significant bits of the product and with a "high component" corresponding + // to the 64-bit most significant bits of the product. + simdjson::internal::value128 secondproduct = jsoncharutils::full_multiplication(i, simdjson::internal::power_of_five_128[index + 1]); + firstproduct.low += secondproduct.high; + if(secondproduct.high > firstproduct.low) { firstproduct.high++; } + // At this point, we might need to add at most one to firstproduct, but this + // can only change the value of firstproduct.high if firstproduct.low is maximal. + if(simdjson_unlikely(firstproduct.low == 0xFFFFFFFFFFFFFFFF)) { + // This is very unlikely, but if so, we need to do much more work! + return false; + } + } + uint64_t lower = firstproduct.low; + uint64_t upper = firstproduct.high; + // The final mantissa should be 53 bits with a leading 1. + // We shift it so that it occupies 54 bits with a leading 1. + /////// + uint64_t upperbit = upper >> 63; + uint64_t mantissa = upper >> (upperbit + 9); + lz += int(1 ^ upperbit); + + // Here we have mantissa < (1<<54). + int64_t real_exponent = exponent - lz; + if (simdjson_unlikely(real_exponent <= 0)) { // we have a subnormal? + // Here have that real_exponent <= 0 so -real_exponent >= 0 + if(-real_exponent + 1 >= 64) { // if we have more than 64 bits below the minimum exponent, you have a zero for sure. + d = 0.0; + return true; + } + // next line is safe because -real_exponent + 1 < 0 + mantissa >>= -real_exponent + 1; + // Thankfully, we can't have both "round-to-even" and subnormals because + // "round-to-even" only occurs for powers close to 0. + mantissa += (mantissa & 1); // round up + mantissa >>= 1; + // There is a weird scenario where we don't have a subnormal but just. + // Suppose we start with 2.2250738585072013e-308, we end up + // with 0x3fffffffffffff x 2^-1023-53 which is technically subnormal + // whereas 0x40000000000000 x 2^-1023-53 is normal. Now, we need to round + // up 0x3fffffffffffff x 2^-1023-53 and once we do, we are no longer + // subnormal, but we can only know this after rounding. + // So we only declare a subnormal if we are smaller than the threshold. + real_exponent = (mantissa < (uint64_t(1) << 52)) ? 0 : 1; + d = to_double(mantissa, real_exponent, negative); + return true; + } + // We have to round to even. The "to even" part + // is only a problem when we are right in between two floats + // which we guard against. + // If we have lots of trailing zeros, we may fall right between two + // floating-point values. + // + // The round-to-even cases take the form of a number 2m+1 which is in (2^53,2^54] + // times a power of two. That is, it is right between a number with binary significand + // m and another number with binary significand m+1; and it must be the case + // that it cannot be represented by a float itself. + // + // We must have that w * 10 ^q == (2m+1) * 2^p for some power of two 2^p. + // Recall that 10^q = 5^q * 2^q. + // When q >= 0, we must have that (2m+1) is divible by 5^q, so 5^q <= 2^54. We have that + // 5^23 <= 2^54 and it is the last power of five to qualify, so q <= 23. + // When q<0, we have w >= (2m+1) x 5^{-q}. We must have that w<2^{64} so + // (2m+1) x 5^{-q} < 2^{64}. We have that 2m+1>2^{53}. Hence, we must have + // 2^{53} x 5^{-q} < 2^{64}. + // Hence we have 5^{-q} < 2^{11}$ or q>= -4. + // + // We require lower <= 1 and not lower == 0 because we could not prove that + // that lower == 0 is implied; but we could prove that lower <= 1 is a necessary and sufficient test. + if (simdjson_unlikely((lower <= 1) && (power >= -4) && (power <= 23) && ((mantissa & 3) == 1))) { + if((mantissa << (upperbit + 64 - 53 - 2)) == upper) { + mantissa &= ~1; // flip it so that we do not round up + } + } + + mantissa += mantissa & 1; + mantissa >>= 1; + + // Here we have mantissa < (1<<53), unless there was an overflow + if (mantissa >= (1ULL << 53)) { + ////////// + // This will happen when parsing values such as 7.2057594037927933e+16 + //////// + mantissa = (1ULL << 52); + real_exponent++; + } + mantissa &= ~(1ULL << 52); + // we have to check that real_exponent is in range, otherwise we bail out + if (simdjson_unlikely(real_exponent > 2046)) { + // We have an infinte value!!! We could actually throw an error here if we could. + return false; + } + d = to_double(mantissa, real_exponent, negative); + return true; +} + +// We call a fallback floating-point parser that might be slow. Note +// it will accept JSON numbers, but the JSON spec. is more restrictive so +// before you call parse_float_fallback, you need to have validated the input +// string with the JSON grammar. +// It will return an error (false) if the parsed number is infinite. +// The string parsing itself always succeeds. We know that there is at least +// one digit. +static bool parse_float_fallback(const uint8_t *ptr, double *outDouble) { + *outDouble = simdjson::internal::from_chars((const char *)ptr); + // We do not accept infinite values. + + // Detecting finite values in a portable manner is ridiculously hard, ideally + // we would want to do: + // return !std::isfinite(*outDouble); + // but that mysteriously fails under legacy/old libc++ libraries, see + // https://github.com/simdjson/simdjson/issues/1286 + // + // Therefore, fall back to this solution (the extra parens are there + // to handle that max may be a macro on windows). + return !(*outDouble > (std::numeric_limits::max)() || *outDouble < std::numeric_limits::lowest()); +} + +// check quickly whether the next 8 chars are made of digits +// at a glance, it looks better than Mula's +// http://0x80.pl/articles/swar-digits-validate.html +simdjson_really_inline bool is_made_of_eight_digits_fast(const uint8_t *chars) { + uint64_t val; + // this can read up to 7 bytes beyond the buffer size, but we require + // SIMDJSON_PADDING of padding + static_assert(7 <= SIMDJSON_PADDING, "SIMDJSON_PADDING must be bigger than 7"); + std::memcpy(&val, chars, 8); + // a branchy method might be faster: + // return (( val & 0xF0F0F0F0F0F0F0F0 ) == 0x3030303030303030) + // && (( (val + 0x0606060606060606) & 0xF0F0F0F0F0F0F0F0 ) == + // 0x3030303030303030); + return (((val & 0xF0F0F0F0F0F0F0F0) | + (((val + 0x0606060606060606) & 0xF0F0F0F0F0F0F0F0) >> 4)) == + 0x3333333333333333); +} + +template +error_code slow_float_parsing(simdjson_unused const uint8_t * src, W writer) { + double d; + if (parse_float_fallback(src, &d)) { + writer.append_double(d); + return SUCCESS; + } + return INVALID_NUMBER(src); +} + +template +NO_SANITIZE_UNDEFINED // We deliberately allow overflow here and check later +simdjson_really_inline bool parse_digit(const uint8_t c, I &i) { + const uint8_t digit = static_cast(c - '0'); + if (digit > 9) { + return false; + } + // PERF NOTE: multiplication by 10 is cheaper than arbitrary integer multiplication + i = 10 * i + digit; // might overflow, we will handle the overflow later + return true; +} + +simdjson_really_inline error_code parse_decimal(simdjson_unused const uint8_t *const src, const uint8_t *&p, uint64_t &i, int64_t &exponent) { + // we continue with the fiction that we have an integer. If the + // floating point number is representable as x * 10^z for some integer + // z that fits in 53 bits, then we will be able to convert back the + // the integer into a float in a lossless manner. + const uint8_t *const first_after_period = p; + +#ifdef SWAR_NUMBER_PARSING + // this helps if we have lots of decimals! + // this turns out to be frequent enough. + if (is_made_of_eight_digits_fast(p)) { + i = i * 100000000 + parse_eight_digits_unrolled(p); + p += 8; + } +#endif + // Unrolling the first digit makes a small difference on some implementations (e.g. westmere) + if (parse_digit(*p, i)) { ++p; } + while (parse_digit(*p, i)) { p++; } + exponent = first_after_period - p; + // Decimal without digits (123.) is illegal + if (exponent == 0) { + return INVALID_NUMBER(src); + } + return SUCCESS; +} + +simdjson_really_inline error_code parse_exponent(simdjson_unused const uint8_t *const src, const uint8_t *&p, int64_t &exponent) { + // Exp Sign: -123.456e[-]78 + bool neg_exp = ('-' == *p); + if (neg_exp || '+' == *p) { p++; } // Skip + as well + + // Exponent: -123.456e-[78] + auto start_exp = p; + int64_t exp_number = 0; + while (parse_digit(*p, exp_number)) { ++p; } + // It is possible for parse_digit to overflow. + // In particular, it could overflow to INT64_MIN, and we cannot do - INT64_MIN. + // Thus we *must* check for possible overflow before we negate exp_number. + + // Performance notes: it may seem like combining the two "simdjson_unlikely checks" below into + // a single simdjson_unlikely path would be faster. The reasoning is sound, but the compiler may + // not oblige and may, in fact, generate two distinct paths in any case. It might be + // possible to do uint64_t(p - start_exp - 1) >= 18 but it could end up trading off + // instructions for a simdjson_likely branch, an unconclusive gain. + + // If there were no digits, it's an error. + if (simdjson_unlikely(p == start_exp)) { + return INVALID_NUMBER(src); + } + // We have a valid positive exponent in exp_number at this point, except that + // it may have overflowed. + + // If there were more than 18 digits, we may have overflowed the integer. We have to do + // something!!!! + if (simdjson_unlikely(p > start_exp+18)) { + // Skip leading zeroes: 1e000000000000000000001 is technically valid and doesn't overflow + while (*start_exp == '0') { start_exp++; } + // 19 digits could overflow int64_t and is kind of absurd anyway. We don't + // support exponents smaller than -999,999,999,999,999,999 and bigger + // than 999,999,999,999,999,999. + // We can truncate. + // Note that 999999999999999999 is assuredly too large. The maximal ieee64 value before + // infinity is ~1.8e308. The smallest subnormal is ~5e-324. So, actually, we could + // truncate at 324. + // Note that there is no reason to fail per se at this point in time. + // E.g., 0e999999999999999999999 is a fine number. + if (p > start_exp+18) { exp_number = 999999999999999999; } + } + // At this point, we know that exp_number is a sane, positive, signed integer. + // It is <= 999,999,999,999,999,999. As long as 'exponent' is in + // [-8223372036854775808, 8223372036854775808], we won't overflow. Because 'exponent' + // is bounded in magnitude by the size of the JSON input, we are fine in this universe. + // To sum it up: the next line should never overflow. + exponent += (neg_exp ? -exp_number : exp_number); + return SUCCESS; +} + +simdjson_really_inline int significant_digits(const uint8_t * start_digits, int digit_count) { + // It is possible that the integer had an overflow. + // We have to handle the case where we have 0.0000somenumber. + const uint8_t *start = start_digits; + while ((*start == '0') || (*start == '.')) { + start++; + } + // we over-decrement by one when there is a '.' + return digit_count - int(start - start_digits); +} + +template +simdjson_really_inline error_code write_float(const uint8_t *const src, bool negative, uint64_t i, const uint8_t * start_digits, int digit_count, int64_t exponent, W &writer) { + // If we frequently had to deal with long strings of digits, + // we could extend our code by using a 128-bit integer instead + // of a 64-bit integer. However, this is uncommon in practice. + // + // 9999999999999999999 < 2**64 so we can accomodate 19 digits. + // If we have a decimal separator, then digit_count - 1 is the number of digits, but we + // may not have a decimal separator! + if (simdjson_unlikely(digit_count > 19 && significant_digits(start_digits, digit_count) > 19)) { + // Ok, chances are good that we had an overflow! + // this is almost never going to get called!!! + // we start anew, going slowly!!! + // This will happen in the following examples: + // 10000000000000000000000000000000000000000000e+308 + // 3.1415926535897932384626433832795028841971693993751 + // + // NOTE: This makes a *copy* of the writer and passes it to slow_float_parsing. This happens + // because slow_float_parsing is a non-inlined function. If we passed our writer reference to + // it, it would force it to be stored in memory, preventing the compiler from picking it apart + // and putting into registers. i.e. if we pass it as reference, it gets slow. + // This is what forces the skip_double, as well. + error_code error = slow_float_parsing(src, writer); + writer.skip_double(); + return error; + } + // NOTE: it's weird that the simdjson_unlikely() only wraps half the if, but it seems to get slower any other + // way we've tried: https://github.com/simdjson/simdjson/pull/990#discussion_r448497331 + // To future reader: we'd love if someone found a better way, or at least could explain this result! + if (simdjson_unlikely(exponent < simdjson::internal::smallest_power) || (exponent > simdjson::internal::largest_power)) { + // + // Important: smallest_power is such that it leads to a zero value. + // Observe that 18446744073709551615e-343 == 0, i.e. (2**64 - 1) e -343 is zero + // so something x 10^-343 goes to zero, but not so with something x 10^-342. + static_assert(simdjson::internal::smallest_power <= -342, "smallest_power is not small enough"); + // + if((exponent < simdjson::internal::smallest_power) || (i == 0)) { + WRITE_DOUBLE(0, src, writer); + return SUCCESS; + } else { // (exponent > largest_power) and (i != 0) + // We have, for sure, an infinite value and simdjson refuses to parse infinite values. + return INVALID_NUMBER(src); + } + } + double d; + if (!compute_float_64(exponent, i, negative, d)) { + // we are almost never going to get here. + if (!parse_float_fallback(src, &d)) { return INVALID_NUMBER(src); } + } + WRITE_DOUBLE(d, src, writer); + return SUCCESS; +} + +// for performance analysis, it is sometimes useful to skip parsing +#ifdef SIMDJSON_SKIPNUMBERPARSING + +template +simdjson_really_inline error_code parse_number(const uint8_t *const, W &writer) { + writer.append_s64(0); // always write zero + return SUCCESS; // always succeeds +} + +simdjson_unused simdjson_really_inline simdjson_result parse_unsigned(const uint8_t * const src) noexcept { return 0; } +simdjson_unused simdjson_really_inline simdjson_result parse_integer(const uint8_t * const src) noexcept { return 0; } +simdjson_unused simdjson_really_inline simdjson_result parse_double(const uint8_t * const src) noexcept { return 0; } + +#else + +// parse the number at src +// define JSON_TEST_NUMBERS for unit testing +// +// It is assumed that the number is followed by a structural ({,},],[) character +// or a white space character. If that is not the case (e.g., when the JSON +// document is made of a single number), then it is necessary to copy the +// content and append a space before calling this function. +// +// Our objective is accurate parsing (ULP of 0) at high speed. +template +simdjson_really_inline error_code parse_number(const uint8_t *const src, W &writer) { + + // + // Check for minus sign + // + bool negative = (*src == '-'); + const uint8_t *p = src + negative; + + // + // Parse the integer part. + // + // PERF NOTE: we don't use is_made_of_eight_digits_fast because large integers like 123456789 are rare + const uint8_t *const start_digits = p; + uint64_t i = 0; + while (parse_digit(*p, i)) { p++; } + + // If there were no digits, or if the integer starts with 0 and has more than one digit, it's an error. + int digit_count = int(p - start_digits); + if (digit_count == 0 || ('0' == *start_digits && digit_count > 1)) { return INVALID_NUMBER(src); } + + // + // Handle floats if there is a . or e (or both) + // + int64_t exponent = 0; + bool is_float = false; + if ('.' == *p) { + is_float = true; + ++p; + SIMDJSON_TRY( parse_decimal(src, p, i, exponent) ); + digit_count = int(p - start_digits); // used later to guard against overflows + } + if (('e' == *p) || ('E' == *p)) { + is_float = true; + ++p; + SIMDJSON_TRY( parse_exponent(src, p, exponent) ); + } + if (is_float) { + const bool clean_end = jsoncharutils::is_structural_or_whitespace(*p); + SIMDJSON_TRY( write_float(src, negative, i, start_digits, digit_count, exponent, writer) ); + if (!clean_end) { return INVALID_NUMBER(src); } + return SUCCESS; + } + + // The longest negative 64-bit number is 19 digits. + // The longest positive 64-bit number is 20 digits. + // We do it this way so we don't trigger this branch unless we must. + int longest_digit_count = negative ? 19 : 20; + if (digit_count > longest_digit_count) { return INVALID_NUMBER(src); } + if (digit_count == longest_digit_count) { + if (negative) { + // Anything negative above INT64_MAX+1 is invalid + if (i > uint64_t(INT64_MAX)+1) { return INVALID_NUMBER(src); } + WRITE_INTEGER(~i+1, src, writer); + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return INVALID_NUMBER(src); } + return SUCCESS; + // Positive overflow check: + // - A 20 digit number starting with 2-9 is overflow, because 18,446,744,073,709,551,615 is the + // biggest uint64_t. + // - A 20 digit number starting with 1 is overflow if it is less than INT64_MAX. + // If we got here, it's a 20 digit number starting with the digit "1". + // - If a 20 digit number starting with 1 overflowed (i*10+digit), the result will be smaller + // than 1,553,255,926,290,448,384. + // - That is smaller than the smallest possible 20-digit number the user could write: + // 10,000,000,000,000,000,000. + // - Therefore, if the number is positive and lower than that, it's overflow. + // - The value we are looking at is less than or equal to 9,223,372,036,854,775,808 (INT64_MAX). + // + } else if (src[0] != uint8_t('1') || i <= uint64_t(INT64_MAX)) { return INVALID_NUMBER(src); } + } + + // Write unsigned if it doesn't fit in a signed integer. + if (i > uint64_t(INT64_MAX)) { + WRITE_UNSIGNED(i, src, writer); + } else { + WRITE_INTEGER(negative ? (~i+1) : i, src, writer); + } + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return INVALID_NUMBER(src); } + return SUCCESS; +} + +// SAX functions +namespace { +// Parse any number from 0 to 18,446,744,073,709,551,615 +simdjson_unused simdjson_really_inline simdjson_result parse_unsigned(const uint8_t * const src) noexcept { + const uint8_t *p = src; + + // + // Parse the integer part. + // + // PERF NOTE: we don't use is_made_of_eight_digits_fast because large integers like 123456789 are rare + const uint8_t *const start_digits = p; + uint64_t i = 0; + while (parse_digit(*p, i)) { p++; } + + // If there were no digits, or if the integer starts with 0 and has more than one digit, it's an error. + int digit_count = int(p - start_digits); + if (digit_count == 0 || ('0' == *start_digits && digit_count > 1)) { return NUMBER_ERROR; } + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return NUMBER_ERROR; } + + // The longest positive 64-bit number is 20 digits. + // We do it this way so we don't trigger this branch unless we must. + if (digit_count > 20) { return NUMBER_ERROR; } + if (digit_count == 20) { + // Positive overflow check: + // - A 20 digit number starting with 2-9 is overflow, because 18,446,744,073,709,551,615 is the + // biggest uint64_t. + // - A 20 digit number starting with 1 is overflow if it is less than INT64_MAX. + // If we got here, it's a 20 digit number starting with the digit "1". + // - If a 20 digit number starting with 1 overflowed (i*10+digit), the result will be smaller + // than 1,553,255,926,290,448,384. + // - That is smaller than the smallest possible 20-digit number the user could write: + // 10,000,000,000,000,000,000. + // - Therefore, if the number is positive and lower than that, it's overflow. + // - The value we are looking at is less than or equal to 9,223,372,036,854,775,808 (INT64_MAX). + // + if (src[0] != uint8_t('1') || i <= uint64_t(INT64_MAX)) { return NUMBER_ERROR; } + } + + return i; +} + +// Parse any number from -9,223,372,036,854,775,808 to 9,223,372,036,854,775,807 +simdjson_unused simdjson_really_inline simdjson_result parse_integer(const uint8_t *src) noexcept { + // + // Check for minus sign + // + bool negative = (*src == '-'); + const uint8_t *p = src + negative; + + // + // Parse the integer part. + // + // PERF NOTE: we don't use is_made_of_eight_digits_fast because large integers like 123456789 are rare + const uint8_t *const start_digits = p; + uint64_t i = 0; + while (parse_digit(*p, i)) { p++; } + + // If there were no digits, or if the integer starts with 0 and has more than one digit, it's an error. + int digit_count = int(p - start_digits); + if (digit_count == 0 || ('0' == *start_digits && digit_count > 1)) { return NUMBER_ERROR; } + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return NUMBER_ERROR; } + + // The longest negative 64-bit number is 19 digits. + // The longest positive 64-bit number is 20 digits. + // We do it this way so we don't trigger this branch unless we must. + int longest_digit_count = negative ? 19 : 20; + if (digit_count > longest_digit_count) { return NUMBER_ERROR; } + if (digit_count == longest_digit_count) { + if(negative) { + // Anything negative above INT64_MAX+1 is invalid + if (i > uint64_t(INT64_MAX)+1) { return NUMBER_ERROR; } + return ~i+1; + + // Positive overflow check: + // - A 20 digit number starting with 2-9 is overflow, because 18,446,744,073,709,551,615 is the + // biggest uint64_t. + // - A 20 digit number starting with 1 is overflow if it is less than INT64_MAX. + // If we got here, it's a 20 digit number starting with the digit "1". + // - If a 20 digit number starting with 1 overflowed (i*10+digit), the result will be smaller + // than 1,553,255,926,290,448,384. + // - That is smaller than the smallest possible 20-digit number the user could write: + // 10,000,000,000,000,000,000. + // - Therefore, if the number is positive and lower than that, it's overflow. + // - The value we are looking at is less than or equal to 9,223,372,036,854,775,808 (INT64_MAX). + // + } else if (src[0] != uint8_t('1') || i <= uint64_t(INT64_MAX)) { return NUMBER_ERROR; } + } + + return negative ? (~i+1) : i; +} + +simdjson_unused simdjson_really_inline simdjson_result parse_double(const uint8_t * src) noexcept { + // + // Check for minus sign + // + bool negative = (*src == '-'); + src += negative; + + // + // Parse the integer part. + // + uint64_t i = 0; + const uint8_t *p = src; + p += parse_digit(*p, i); + bool leading_zero = (i == 0); + while (parse_digit(*p, i)) { p++; } + // no integer digits, or 0123 (zero must be solo) + if ( p == src || (leading_zero && p != src+1)) { return NUMBER_ERROR; } + + // + // Parse the decimal part. + // + int64_t exponent = 0; + bool overflow; + if (simdjson_likely(*p == '.')) { + p++; + const uint8_t *start_decimal_digits = p; + if (!parse_digit(*p, i)) { return NUMBER_ERROR; } // no decimal digits + p++; + while (parse_digit(*p, i)) { p++; } + exponent = -(p - start_decimal_digits); + + // Overflow check. More than 19 digits (minus the decimal) may be overflow. + overflow = p-src-1 > 19; + if (simdjson_unlikely(overflow && leading_zero)) { + // Skip leading 0.00000 and see if it still overflows + const uint8_t *start_digits = src + 2; + while (*start_digits == '0') { start_digits++; } + overflow = start_digits-src > 19; + } + } else { + overflow = p-src > 19; + } + + // + // Parse the exponent + // + if (*p == 'e' || *p == 'E') { + p++; + bool exp_neg = *p == '-'; + p += exp_neg || *p == '+'; + + uint64_t exp = 0; + const uint8_t *start_exp_digits = p; + while (parse_digit(*p, exp)) { p++; } + // no exp digits, or 20+ exp digits + if (p-start_exp_digits == 0 || p-start_exp_digits > 19) { return NUMBER_ERROR; } + + exponent += exp_neg ? 0-exp : exp; + } + + if (jsoncharutils::is_not_structural_or_whitespace(*p)) { return NUMBER_ERROR; } + + overflow = overflow || exponent < simdjson::internal::smallest_power || exponent > simdjson::internal::largest_power; + + // + // Assemble (or slow-parse) the float + // + double d; + if (simdjson_likely(!overflow)) { + if (compute_float_64(exponent, i, negative, d)) { return d; } + } + if (!parse_float_fallback(src-negative, &d)) { + return NUMBER_ERROR; + } + return d; +} +} //namespace {} +#endif // SIMDJSON_SKIPNUMBERPARSING + +} // namespace numberparsing +} // unnamed namespace +} // namespace westmere +} // namespace simdjson +/* end file include/simdjson/generic/numberparsing.h */ + +#endif // SIMDJSON_WESTMERE_NUMBERPARSING_H +/* end file include/simdjson/westmere/numberparsing.h */ +/* begin file include/simdjson/generic/implementation_simdjson_result_base.h */ +namespace simdjson { +namespace westmere { + +// This is a near copy of include/error.h's implementation_simdjson_result_base, except it doesn't use std::pair +// so we can avoid inlining errors +// TODO reconcile these! +/** + * The result of a simdjson operation that could fail. + * + * Gives the option of reading error codes, or throwing an exception by casting to the desired result. + * + * This is a base class for implementations that want to add functions to the result type for + * chaining. + * + * Override like: + * + * struct simdjson_result : public internal::implementation_simdjson_result_base { + * simdjson_result() noexcept : internal::implementation_simdjson_result_base() {} + * simdjson_result(error_code error) noexcept : internal::implementation_simdjson_result_base(error) {} + * simdjson_result(T &&value) noexcept : internal::implementation_simdjson_result_base(std::forward(value)) {} + * simdjson_result(T &&value, error_code error) noexcept : internal::implementation_simdjson_result_base(value, error) {} + * // Your extra methods here + * } + * + * Then any method returning simdjson_result will be chainable with your methods. + */ +template +struct implementation_simdjson_result_base { + + /** + * Create a new empty result with error = UNINITIALIZED. + */ + simdjson_really_inline implementation_simdjson_result_base() noexcept = default; + + /** + * Create a new error result. + */ + simdjson_really_inline implementation_simdjson_result_base(error_code error) noexcept; + + /** + * Create a new successful result. + */ + simdjson_really_inline implementation_simdjson_result_base(T &&value) noexcept; + + /** + * Create a new result with both things (use if you don't want to branch when creating the result). + */ + simdjson_really_inline implementation_simdjson_result_base(T &&value, error_code error) noexcept; + + /** + * Move the value and the error to the provided variables. + * + * @param value The variable to assign the value to. May not be set if there is an error. + * @param error The variable to assign the error to. Set to SUCCESS if there is no error. + */ + simdjson_really_inline void tie(T &value, error_code &error) && noexcept; + + /** + * Move the value to the provided variable. + * + * @param value The variable to assign the value to. May not be set if there is an error. + */ + simdjson_really_inline error_code get(T &value) && noexcept; + + /** + * The error. + */ + simdjson_really_inline error_code error() const noexcept; + +#if SIMDJSON_EXCEPTIONS + + /** + * Get the result value. + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T& value() & noexcept(false); + + /** + * Take the result value (move it). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T&& value() && noexcept(false); + + /** + * Take the result value (move it). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T&& take_value() && noexcept(false); + + /** + * Cast to the value (will throw on error). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline operator T&&() && noexcept(false); + +#endif // SIMDJSON_EXCEPTIONS + + T first{}; + error_code second{UNINITIALIZED}; +}; // struct implementation_simdjson_result_base + +} // namespace westmere +} // namespace simdjson +/* end file include/simdjson/generic/implementation_simdjson_result_base.h */ +/* begin file include/simdjson/generic/ondemand.h */ +namespace simdjson { +namespace westmere { +/** + * A fast, simple, DOM-like interface that parses JSON as you use it. + * + * Designed for maximum speed and a lower memory profile. + */ +namespace ondemand { + +/** Represents the depth of a JSON value (number of nested arrays/objects). */ +using depth_t = int32_t; + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +/* begin file include/simdjson/generic/ondemand/token_position.h */ +namespace simdjson { +namespace westmere { +namespace ondemand { + +/** @private Position in the JSON buffer indexes */ +using token_position = const uint32_t *; + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/token_position.h */ +/* begin file include/simdjson/generic/ondemand/logger.h */ +namespace simdjson { +namespace westmere { +namespace ondemand { + +class json_iterator; +class value_iterator; + +namespace logger { + +#if SIMDJSON_VERBOSE_LOGGING + static constexpr const bool LOG_ENABLED = true; +#else + static constexpr const bool LOG_ENABLED = false; +#endif + +static simdjson_really_inline void log_headers() noexcept; +static simdjson_really_inline void log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept; +static simdjson_really_inline void log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept; +static simdjson_really_inline void log_event(const json_iterator &iter, const char *type, std::string_view detail="", int delta=0, int depth_delta=0) noexcept; +static simdjson_really_inline void log_value(const json_iterator &iter, const char *type, std::string_view detail="", int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_value(const json_iterator &iter, token_position index, depth_t depth, const char *type, std::string_view detail="") noexcept; +static simdjson_really_inline void log_start_value(const json_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_end_value(const json_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_error(const json_iterator &iter, const char *error, const char *detail="", int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_error(const json_iterator &iter, token_position index, depth_t depth, const char *error, const char *detail="") noexcept; + +static simdjson_really_inline void log_event(const value_iterator &iter, const char *type, std::string_view detail="", int delta=0, int depth_delta=0) noexcept; +static simdjson_really_inline void log_value(const value_iterator &iter, const char *type, std::string_view detail="", int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_start_value(const value_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_end_value(const value_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_error(const value_iterator &iter, const char *error, const char *detail="", int delta=-1, int depth_delta=0) noexcept; + +} // namespace logger +} // namespace ondemand +} // namespace westmere +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/logger.h */ +/* begin file include/simdjson/generic/ondemand/raw_json_string.h */ + +namespace simdjson { +namespace westmere { +namespace ondemand { + +class object; +class parser; +class json_iterator; + +/** + * A string escaped per JSON rules, terminated with quote ("). They are used to represent + * unescaped keys inside JSON documents. + * + * (In other words, a pointer to the beginning of a string, just after the start quote, inside a + * JSON file.) + * + * This class is deliberately simplistic and has little functionality. You can + * compare two raw_json_string instances, or compare a raw_json_string with a string_view, but + * that is pretty much all you can do. + * + * They originate typically from field instance which in turn represent key-value pairs from + * object instances. From a field instance, you get the raw_json_string instance by calling key(). + * You can, if you want a more usable string_view instance, call the unescaped_key() method + * on the field instance. + */ +class raw_json_string { +public: + /** + * Create a new invalid raw_json_string. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline raw_json_string() noexcept = default; + + /** + * Create a new invalid raw_json_string pointed at the given location in the JSON. + * + * The given location must be just *after* the beginning quote (") in the JSON file. + * + * It *must* be terminated by a ", and be a valid JSON string. + */ + simdjson_really_inline raw_json_string(const uint8_t * _buf) noexcept; + /** + * Get the raw pointer to the beginning of the string in the JSON (just after the "). + * + * It is possible for this function to return a null pointer if the instance + * has outlived its existence. + */ + simdjson_really_inline const char * raw() const noexcept; + +private: + /** + * This will set the inner pointer to zero, effectively making + * this instance unusable. + */ + simdjson_really_inline void consume() noexcept { buf = nullptr; } + + /** + * Checks whether the inner pointer is non-null and thus usable. + */ + simdjson_really_inline simdjson_warn_unused bool alive() const noexcept { return buf != nullptr; } + + /** + * Unescape this JSON string, replacing \\ with \, \n with newline, etc. + * + * ## IMPORTANT: string_view lifetime + * + * The string_view is only valid as long as the bytes in dst. + * + * @param dst A pointer to a buffer at least large enough to write this string as well as a \0. + * dst will be updated to the next unused location (just after the \0 written out at + * the end of this string). + * @return A string_view pointing at the unescaped string in dst + * @error STRING_ERROR if escapes are incorrect. + */ + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(uint8_t *&dst) const noexcept; + /** + * Unescape this JSON string, replacing \\ with \, \n with newline, etc. + * + * ## IMPORTANT: string_view lifetime + * + * The string_view is only valid until the next parse() call on the parser. + * + * @param iter A json_iterator, which contains a buffer where the string will be written. + */ + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(json_iterator &iter) const noexcept; + + const uint8_t * buf{}; + friend class object; + friend class field; + friend struct simdjson_result; +}; + +simdjson_unused simdjson_really_inline bool operator==(const raw_json_string &a, std::string_view b) noexcept; +simdjson_unused simdjson_really_inline bool operator==(std::string_view a, const raw_json_string &b) noexcept; +simdjson_unused simdjson_really_inline bool operator!=(const raw_json_string &a, std::string_view b) noexcept; +simdjson_unused simdjson_really_inline bool operator!=(std::string_view a, const raw_json_string &b) noexcept; + +simdjson_unused simdjson_really_inline std::ostream &operator<<(std::ostream &, const raw_json_string &) noexcept; + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public westmere::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(westmere::ondemand::raw_json_string &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + simdjson_really_inline ~simdjson_result() noexcept = default; ///< @private + + simdjson_really_inline simdjson_result raw() const noexcept; + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(uint8_t *&dst) const noexcept; + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(westmere::ondemand::json_iterator &iter) const noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/raw_json_string.h */ +/* begin file include/simdjson/generic/ondemand/token_iterator.h */ +namespace simdjson { +namespace westmere { +namespace ondemand { + +/** + * Iterates through JSON tokens (`{` `}` `[` `]` `,` `:` `""` `123` `true` `false` `null`) + * detected by stage 1. + * + * @private This is not intended for external use. + */ +class token_iterator { +public: + /** + * Create a new invalid token_iterator. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline token_iterator() noexcept = default; + simdjson_really_inline token_iterator(token_iterator &&other) noexcept = default; + simdjson_really_inline token_iterator &operator=(token_iterator &&other) noexcept = default; + simdjson_really_inline token_iterator(const token_iterator &other) noexcept = default; + simdjson_really_inline token_iterator &operator=(const token_iterator &other) noexcept = default; + + /** + * Advance to the next token (returning the current one). + * + * Does not check or update depth/expect_value. Caller is responsible for that. + */ + simdjson_really_inline const uint8_t *advance() noexcept; + + /** + * Get the JSON text for a given token (relative). + * + * This is not null-terminated; it is a view into the JSON. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = current token, + * 1 = next token, -1 = prev token. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(int32_t delta=0) const noexcept; + /** + * Get the maximum length of the JSON text for a given token. + * + * The length will include any whitespace at the end of the token. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = current token, + * 1 = next token, -1 = prev token. + */ + simdjson_really_inline uint32_t peek_length(int32_t delta=0) const noexcept; + + /** + * Get the JSON text for a given token. + * + * This is not null-terminated; it is a view into the JSON. + * + * @param position The position of the token. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(token_position position) const noexcept; + /** + * Get the maximum length of the JSON text for a given token. + * + * The length will include any whitespace at the end of the token. + * + * @param position The position of the token. + */ + simdjson_really_inline uint32_t peek_length(token_position position) const noexcept; + + /** + * Save the current index to be restored later. + */ + simdjson_really_inline token_position position() const noexcept; + /** + * Reset to a previously saved index. + */ + simdjson_really_inline void set_position(token_position target_checkpoint) noexcept; + + // NOTE: we don't support a full C++ iterator interface, because we expect people to make + // different calls to advance the iterator based on *their own* state. + + simdjson_really_inline bool operator==(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator!=(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator>(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator>=(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator<(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator<=(const token_iterator &other) const noexcept; + +protected: + simdjson_really_inline token_iterator(const uint8_t *buf, token_position index) noexcept; + + /** + * Get the index of the JSON text for a given token (relative). + * + * This is not null-terminated; it is a view into the JSON. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = current token, + * 1 = next token, -1 = prev token. + */ + simdjson_really_inline uint32_t peek_index(int32_t delta=0) const noexcept; + /** + * Get the index of the JSON text for a given token. + * + * This is not null-terminated; it is a view into the JSON. + * + * @param position The position of the token. + * + */ + simdjson_really_inline uint32_t peek_index(token_position position) const noexcept; + + const uint8_t *buf{}; + token_position index{}; + + friend class json_iterator; + friend class value_iterator; + friend class object; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept; +}; + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public westmere::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(westmere::ondemand::token_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + simdjson_really_inline ~simdjson_result() noexcept = default; ///< @private +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/token_iterator.h */ +/* begin file include/simdjson/generic/ondemand/json_iterator.h */ +namespace simdjson { +namespace westmere { +namespace ondemand { + +class document; +class object; +class array; +class value; +class raw_json_string; +class parser; + +/** + * Iterates through JSON tokens, keeping track of depth and string buffer. + * + * @private This is not intended for external use. + */ +class json_iterator { +protected: + token_iterator token{}; + ondemand::parser *parser{}; + /** + * Next free location in the string buffer. + * + * Used by raw_json_string::unescape() to have a place to unescape strings to. + */ + uint8_t *_string_buf_loc{}; + /** + * JSON error, if there is one. + * + * INCORRECT_TYPE and NO_SUCH_FIELD are *not* stored here, ever. + * + * PERF NOTE: we *hope* this will be elided into control flow, as it is only used (a) in the first + * iteration of the loop, or (b) for the final iteration after a missing comma is found in ++. If + * this is not elided, we should make sure it's at least not using up a register. Failing that, + * we should store it in document so there's only one of them. + */ + error_code error{SUCCESS}; + /** + * Depth of the current token in the JSON. + * + * - 0 = finished with document + * - 1 = document root value (could be [ or {, not yet known) + * - 2 = , or } inside root array/object + * - 3 = key or value inside root array/object. + */ + depth_t _depth{}; + +public: + simdjson_really_inline json_iterator() noexcept = default; + simdjson_really_inline json_iterator(json_iterator &&other) noexcept; + simdjson_really_inline json_iterator &operator=(json_iterator &&other) noexcept; + simdjson_really_inline json_iterator(const json_iterator &other) noexcept = delete; + simdjson_really_inline json_iterator &operator=(const json_iterator &other) noexcept = delete; + + /** + * Skips a JSON value, whether it is a scalar, array or object. + */ + simdjson_warn_unused simdjson_really_inline error_code skip_child(depth_t parent_depth) noexcept; + + /** + * Tell whether the iterator is still at the start + */ + simdjson_really_inline bool at_root() const noexcept; + + /** + * Get the root value iterator + */ + simdjson_really_inline token_position root_checkpoint() const noexcept; + + /** + * Assert if the iterator is not at the start + */ + simdjson_really_inline void assert_at_root() const noexcept; + + /** + * Tell whether the iterator is at the EOF mark + */ + simdjson_really_inline bool at_eof() const noexcept; + + /** + * Tell whether the iterator is live (has not been moved). + */ + simdjson_really_inline bool is_alive() const noexcept; + + /** + * Abandon this iterator, setting depth to 0 (as if the document is finished). + */ + simdjson_really_inline void abandon() noexcept; + + /** + * Advance the current token. + */ + simdjson_really_inline const uint8_t *advance() noexcept; + + /** + * Get the JSON text for a given token (relative). + * + * This is not null-terminated; it is a view into the JSON. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = next token, -1 = prev token. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(int32_t delta=0) const noexcept; + /** + * Get the maximum length of the JSON text for the current token (or relative). + * + * The length will include any whitespace at the end of the token. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = next token, -1 = prev token. + */ + simdjson_really_inline uint32_t peek_length(int32_t delta=0) const noexcept; + /** + * Get the JSON text for a given token. + * + * This is not null-terminated; it is a view into the JSON. + * + * @param index The position of the token to retrieve. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(token_position position) const noexcept; + /** + * Get the maximum length of the JSON text for the current token (or relative). + * + * The length will include any whitespace at the end of the token. + * + * @param index The position of the token to retrieve. + */ + simdjson_really_inline uint32_t peek_length(token_position position) const noexcept; + + /** + * Ascend one level. + * + * Validates that the depth - 1 == parent_depth. + * + * @param parent_depth the expected parent depth. + */ + simdjson_really_inline void ascend_to(depth_t parent_depth) noexcept; + + /** + * Descend one level. + * + * Validates that the new depth == child_depth. + * + * @param child_depth the expected child depth. + */ + simdjson_really_inline void descend_to(depth_t parent_depth) noexcept; + + /** + * Get current depth. + */ + simdjson_really_inline depth_t depth() const noexcept; + + /** + * Get current (writeable) location in the string buffer. + */ + simdjson_really_inline uint8_t *&string_buf_loc() noexcept; + + /** + * Report an error, preventing further iteration. + * + * @param error The error to report. Must not be SUCCESS, UNINITIALIZED, INCORRECT_TYPE, or NO_SUCH_FIELD. + * @param message An error message to report with the error. + */ + simdjson_really_inline error_code report_error(error_code error, const char *message) noexcept; + + /** + * Log error, but don't stop iteration. + * @param error The error to report. Must be INCORRECT_TYPE, or NO_SUCH_FIELD. + * @param message An error message to report with the error. + */ + simdjson_really_inline error_code optional_error(error_code error, const char *message) noexcept; + + template simdjson_warn_unused simdjson_really_inline bool copy_to_buffer(const uint8_t *json, uint32_t max_len, uint8_t (&tmpbuf)[N]) noexcept; + template simdjson_warn_unused simdjson_really_inline bool peek_to_buffer(uint8_t (&tmpbuf)[N]) noexcept; + template simdjson_warn_unused simdjson_really_inline bool advance_to_buffer(uint8_t (&tmpbuf)[N]) noexcept; + + simdjson_really_inline token_position position() const noexcept; + simdjson_really_inline void set_position(token_position target_checkpoint) noexcept; + +protected: + simdjson_really_inline json_iterator(const uint8_t *buf, ondemand::parser *parser) noexcept; + + friend class document; + friend class object; + friend class array; + friend class value; + friend class raw_json_string; + friend class parser; + friend class value_iterator; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept; +}; // json_iterator + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public westmere::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(westmere::ondemand::json_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + + simdjson_really_inline simdjson_result() noexcept = default; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/json_iterator.h */ +/* begin file include/simdjson/generic/ondemand/value_iterator.h */ +namespace simdjson { +namespace westmere { +namespace ondemand { + +class document; +class object; +class array; +class value; +class raw_json_string; +class parser; + +/** + * Iterates through a single JSON value at a particular depth. + * + * Does not keep track of the type of value: provides methods for objects, arrays and scalars and expects + * the caller to call the right ones. + * + * @private This is not intended for external use. + */ +class value_iterator { +protected: + /** The underlying JSON iterator */ + json_iterator *_json_iter{}; + /** The depth of this value */ + depth_t _depth{}; + /** + * The starting token index for this value + * + * PERF NOTE: this is a safety check; we expect this to be elided in release builds. + */ + token_position _start_position{}; + +public: + simdjson_really_inline value_iterator() noexcept = default; + + /** + * Denote that we're starting a document. + */ + simdjson_really_inline void start_document() noexcept; + + /** + * Skips a non-iterated or partially-iterated JSON value, whether it is a scalar, array or object. + * + * Optimized for scalars. + */ + simdjson_warn_unused simdjson_really_inline error_code skip_child() noexcept; + + /** + * Tell whether the iterator is at the EOF mark + */ + simdjson_really_inline bool at_eof() const noexcept; + + /** + * Tell whether the iterator is at the start of the value + */ + simdjson_really_inline bool at_start() const noexcept; + + /** + * Tell whether the value is open--if the value has not been used, or the array/object is still open. + */ + simdjson_really_inline bool is_open() const noexcept; + + /** + * Tell whether the value is at an object's first field (just after the {). + */ + simdjson_really_inline bool at_first_field() const noexcept; + + /** + * Abandon all iteration. + */ + simdjson_really_inline void abandon() noexcept; + + /** + * Get the child value as a value_iterator. + */ + simdjson_really_inline value_iterator child_value() const noexcept; + + /** + * Get the depth of this value. + */ + simdjson_really_inline depth_t depth() const noexcept; + + /** + * @addtogroup object Object iteration + * + * Methods to iterate and find object fields. These methods generally *assume* the value is + * actually an object; the caller is responsible for keeping track of that fact. + * + * @{ + */ + + /** + * Start an object iteration. + * + * @returns Whether the object had any fields (returns false for empty). + * @error INCORRECT_TYPE if there is no opening { + */ + simdjson_warn_unused simdjson_really_inline simdjson_result start_object() noexcept; + /** + * Check for an opening { and start an object iteration. + * + * @returns Whether the object had any fields (returns false for empty). + * @error INCORRECT_TYPE if there is no opening { + */ + simdjson_warn_unused simdjson_really_inline simdjson_result try_start_object() noexcept; + + /** + * Start an object iteration after the user has already checked and moved past the {. + * + * Does not move the iterator. + * + * @returns Whether the object had any fields (returns false for empty). + */ + simdjson_warn_unused simdjson_really_inline bool started_object() noexcept; + + /** + * Moves to the next field in an object. + * + * Looks for , and }. If } is found, the object is finished and the iterator advances past it. + * Otherwise, it advances to the next value. + * + * @return whether there is another field in the object. + * @error TAPE_ERROR If there is a comma missing between fields. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result has_next_field() noexcept; + + /** + * Get the current field's key. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result field_key() noexcept; + + /** + * Pass the : in the field and move to its value. + */ + simdjson_warn_unused simdjson_really_inline error_code field_value() noexcept; + + /** + * Find the next field with the given key. + * + * Assumes you have called next_field() or otherwise matched the previous value. + * + * This means the iterator must be sitting at the next key: + * + * ``` + * { "a": 1, "b": 2 } + * ^ + * ``` + * + * Key is *raw JSON,* meaning it will be matched against the verbatim JSON without attempting to + * unescape it. This works well for typical ASCII and UTF-8 keys (almost all of them), but may + * fail to match some keys with escapes (\u, \n, etc.). + */ + simdjson_warn_unused simdjson_really_inline error_code find_field(const std::string_view key) noexcept; + + /** + * Find the next field with the given key, *without* unescaping. This assumes object order: it + * will not find the field if it was already passed when looking for some *other* field. + * + * Assumes you have called next_field() or otherwise matched the previous value. + * + * This means the iterator must be sitting at the next key: + * + * ``` + * { "a": 1, "b": 2 } + * ^ + * ``` + * + * Key is *raw JSON,* meaning it will be matched against the verbatim JSON without attempting to + * unescape it. This works well for typical ASCII and UTF-8 keys (almost all of them), but may + * fail to match some keys with escapes (\u, \n, etc.). + */ + simdjson_warn_unused simdjson_really_inline simdjson_result find_field_raw(const std::string_view key) noexcept; + + /** + * Find the field with the given key without regard to order, and *without* unescaping. + * + * This is an unordered object lookup: if the field is not found initially, it will cycle around and scan from the beginning. + * + * Assumes you have called next_field() or otherwise matched the previous value. + * + * This means the iterator must be sitting at the next key: + * + * ``` + * { "a": 1, "b": 2 } + * ^ + * ``` + * + * Key is *raw JSON,* meaning it will be matched against the verbatim JSON without attempting to + * unescape it. This works well for typical ASCII and UTF-8 keys (almost all of them), but may + * fail to match some keys with escapes (\u, \n, etc.). + */ + simdjson_warn_unused simdjson_really_inline simdjson_result find_field_unordered_raw(const std::string_view key) noexcept; + + /** @} */ + + /** + * @addtogroup array Array iteration + * Methods to iterate over array elements. These methods generally *assume* the value is actually + * an object; the caller is responsible for keeping track of that fact. + * @{ + */ + + /** + * Check for an opening [ and start an array iteration. + * + * @param json A pointer to the potential [. + * @returns Whether the array had any elements (returns false for empty). + * @error INCORRECT_TYPE If there is no [. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result start_array() noexcept; + /** + * Check for an opening [ and start an array iteration. + * + * @returns Whether the array had any elements (returns false for empty). + * @error INCORRECT_TYPE If there is no [. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result try_start_array() noexcept; + + /** + * Start an array iteration after the user has already checked and moved past the [. + * + * Does not move the iterator. + * + * @returns Whether the array had any elements (returns false for empty). + */ + simdjson_warn_unused simdjson_really_inline bool started_array() noexcept; + + /** + * Moves to the next element in an array. + * + * Looks for , and ]. If ] is found, the array is finished and the iterator advances past it. + * Otherwise, it advances to the next value. + * + * @return Whether there is another element in the array. + * @error TAPE_ERROR If there is a comma missing between elements. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result has_next_element() noexcept; + + /** + * Get a child value iterator. + */ + simdjson_warn_unused simdjson_really_inline value_iterator child() const noexcept; + + /** @} */ + + /** + * @defgroup scalar Scalar values + * @addtogroup scalar + * @{ + */ + + simdjson_warn_unused simdjson_really_inline simdjson_result get_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_uint64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_int64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_double() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_bool() noexcept; + simdjson_really_inline bool is_null() noexcept; + + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_raw_json_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_uint64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_int64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_double() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_bool() noexcept; + simdjson_really_inline bool is_root_null() noexcept; + + simdjson_really_inline error_code error() const noexcept; + simdjson_really_inline uint8_t *&string_buf_loc() noexcept; + simdjson_really_inline const json_iterator &json_iter() const noexcept; + simdjson_really_inline json_iterator &json_iter() noexcept; + + /** @} */ + +protected: + simdjson_really_inline value_iterator(json_iterator *json_iter, depth_t depth, token_position start_index) noexcept; + + simdjson_really_inline bool parse_null(const uint8_t *json) const noexcept; + simdjson_really_inline simdjson_result parse_bool(const uint8_t *json) const noexcept; + + simdjson_really_inline const uint8_t *peek_scalar() const noexcept; + simdjson_really_inline uint32_t peek_scalar_length() const noexcept; + simdjson_really_inline const uint8_t *advance_scalar(const char *type) const noexcept; + simdjson_really_inline const uint8_t *advance_root_scalar(const char *type) const noexcept; + simdjson_really_inline const uint8_t *advance_non_root_scalar(const char *type) const noexcept; + + simdjson_really_inline error_code incorrect_type_error(const char *message) const noexcept; + + simdjson_really_inline bool is_at_start() const noexcept; + simdjson_really_inline void assert_at_start() const noexcept; + simdjson_really_inline void assert_at_root() const noexcept; + simdjson_really_inline void assert_at_child() const noexcept; + simdjson_really_inline void assert_at_next() const noexcept; + simdjson_really_inline void assert_at_non_root_start() const noexcept; + + friend class document; + friend class object; + friend class array; + friend class value; +}; // value_iterator + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public westmere::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(westmere::ondemand::value_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value_iterator.h */ +/* begin file include/simdjson/generic/ondemand/array_iterator.h */ + +namespace simdjson { +namespace westmere { +namespace ondemand { + +class array; +class value; +class document; + +/** + * A forward-only JSON array. + * + * This is an input_iterator, meaning: + * - It is forward-only + * - * must be called exactly once per element. + * - ++ must be called exactly once in between each * (*, ++, *, ++, * ...) + */ +class array_iterator { +public: + /** Create a new, invalid array iterator. */ + simdjson_really_inline array_iterator() noexcept = default; + + // + // Iterator interface + // + + /** + * Get the current element. + * + * Part of the std::iterator interface. + */ + simdjson_really_inline simdjson_result operator*() noexcept; // MUST ONLY BE CALLED ONCE PER ITERATION. + /** + * Check if we are at the end of the JSON. + * + * Part of the std::iterator interface. + * + * @return true if there are no more elements in the JSON array. + */ + simdjson_really_inline bool operator==(const array_iterator &) const noexcept; + /** + * Check if there are more elements in the JSON array. + * + * Part of the std::iterator interface. + * + * @return true if there are more elements in the JSON array. + */ + simdjson_really_inline bool operator!=(const array_iterator &) const noexcept; + /** + * Move to the next element. + * + * Part of the std::iterator interface. + */ + simdjson_really_inline array_iterator &operator++() noexcept; + +private: + value_iterator iter{}; + + simdjson_really_inline array_iterator(const value_iterator &iter) noexcept; + + friend class array; + friend class value; + friend struct simdjson_result; +}; + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public westmere::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(westmere::ondemand::array_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + // + // Iterator interface + // + + simdjson_really_inline simdjson_result operator*() noexcept; // MUST ONLY BE CALLED ONCE PER ITERATION. + simdjson_really_inline bool operator==(const simdjson_result &) const noexcept; + simdjson_really_inline bool operator!=(const simdjson_result &) const noexcept; + simdjson_really_inline simdjson_result &operator++() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array_iterator.h */ +/* begin file include/simdjson/generic/ondemand/object_iterator.h */ + +namespace simdjson { +namespace westmere { +namespace ondemand { + +class field; + +class object_iterator { +public: + /** + * Create a new invalid object_iterator. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline object_iterator() noexcept = default; + + // + // Iterator interface + // + + // Reads key and value, yielding them to the user. + // MUST ONLY BE CALLED ONCE PER ITERATION. + simdjson_really_inline simdjson_result operator*() noexcept; + // Assumes it's being compared with the end. true if depth < iter->depth. + simdjson_really_inline bool operator==(const object_iterator &) const noexcept; + // Assumes it's being compared with the end. true if depth >= iter->depth. + simdjson_really_inline bool operator!=(const object_iterator &) const noexcept; + // Checks for ']' and ',' + simdjson_really_inline object_iterator &operator++() noexcept; + +private: + /** + * The underlying JSON iterator. + * + * PERF NOTE: expected to be elided in favor of the parent document: this is set when the object + * is first used, and never changes afterwards. + */ + value_iterator iter{}; + + simdjson_really_inline object_iterator(const value_iterator &iter) noexcept; + friend struct simdjson_result; + friend class object; +}; + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public westmere::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(westmere::ondemand::object_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + // + // Iterator interface + // + + // Reads key and value, yielding them to the user. + simdjson_really_inline simdjson_result operator*() noexcept; // MUST ONLY BE CALLED ONCE PER ITERATION. + // Assumes it's being compared with the end. true if depth < iter->depth. + simdjson_really_inline bool operator==(const simdjson_result &) const noexcept; + // Assumes it's being compared with the end. true if depth >= iter->depth. + simdjson_really_inline bool operator!=(const simdjson_result &) const noexcept; + // Checks for ']' and ',' + simdjson_really_inline simdjson_result &operator++() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object_iterator.h */ +/* begin file include/simdjson/generic/ondemand/array.h */ + +namespace simdjson { +namespace westmere { +namespace ondemand { + +class value; +class document; + +/** + * A forward-only JSON array. + */ +class array { +public: + /** + * Create a new invalid array. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline array() noexcept = default; + + /** + * Begin array iteration. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline array_iterator begin() noexcept; + /** + * Sentinel representing the end of the array. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline array_iterator end() noexcept; + +protected: + /** + * Begin array iteration. + * + * @param iter The iterator. Must be where the initial [ is expected. Will be *moved* into the + * resulting array. + * @error INCORRECT_TYPE if the iterator is not at [. + */ + static simdjson_really_inline simdjson_result start(value_iterator &iter) noexcept; + /** + * Begin array iteration. + * + * @param iter The iterator. Must be where the initial [ is expected. Will be *moved* into the + * resulting array. + * @error INCORRECT_TYPE if the iterator is not at [. + */ + static simdjson_really_inline simdjson_result try_start(value_iterator &iter) noexcept; + /** + * Begin array iteration. + * + * This version of the method should be called after the initial [ has been verified, and is + * intended for use by switch statements that check the type of a value. + * + * @param iter The iterator. Must be after the initial [. Will be *moved* into the resulting array. + */ + static simdjson_really_inline array started(value_iterator &iter) noexcept; + + /** + * Create an array at the given Internal array creation. Call array::start() or array::started() instead of this. + * + * @param iter The iterator. Must either be at the start of the first element with iter.is_alive() + * == true, or past the [] with is_alive() == false if the array is empty. Will be *moved* + * into the resulting array. + */ + simdjson_really_inline array(const value_iterator &iter) noexcept; + + /** + * Iterator marking current position. + * + * iter.is_alive() == false indicates iteration is complete. + */ + value_iterator iter{}; + + friend class value; + friend struct simdjson_result; + friend struct simdjson_result; + friend class array_iterator; +}; + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public westmere::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(westmere::ondemand::array &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result begin() noexcept; + simdjson_really_inline simdjson_result end() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array.h */ +/* begin file include/simdjson/generic/ondemand/document.h */ + +namespace simdjson { +namespace westmere { +namespace ondemand { + +class parser; +class array; +class object; +class value; +class raw_json_string; +class array_iterator; + +/** + * A JSON document iteration. + * + * Used by tokens to get text, and string buffer location. + * + * You must keep the document around during iteration. + */ +class document { +public: + /** + * Create a new invalid document. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline document() noexcept = default; + simdjson_really_inline document(const document &other) noexcept = delete; + simdjson_really_inline document(document &&other) noexcept = default; + simdjson_really_inline document &operator=(const document &other) noexcept = delete; + simdjson_really_inline document &operator=(document &&other) noexcept = default; + + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @returns INCORRECT_TYPE If the JSON value is not an array. + */ + simdjson_really_inline simdjson_result get_array() & noexcept; + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @returns INCORRECT_TYPE If the JSON value is not an object. + */ + simdjson_really_inline simdjson_result get_object() & noexcept; + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline simdjson_result get_uint64() noexcept; + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline simdjson_result get_int64() noexcept; + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @returns INCORRECT_TYPE If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline simdjson_result get_double() noexcept; + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_string() noexcept; + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @returns INCORRECT_TYPE if the JSON value is not true or false. + */ + simdjson_really_inline simdjson_result get_bool() noexcept; + /** + * Checks if this JSON value is null. + * + * @returns Whether the value is null. + */ + simdjson_really_inline bool is_null() noexcept; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @returns A value of the given type, parsed from the JSON. + * @returns INCORRECT_TYPE If the JSON value is not the given type. + */ + template simdjson_really_inline simdjson_result get() & noexcept; + /** @overload template simdjson_result get() & noexcept */ + template simdjson_really_inline simdjson_result get() && noexcept; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @param out This is set to a value of the given type, parsed from the JSON. If there is an error, this may not be initialized. + * @returns INCORRECT_TYPE If the JSON value is not an object. + * @returns SUCCESS If the parse succeeded and the out parameter was set to the value. + */ + template simdjson_really_inline error_code get(T &out) & noexcept; + /** @overload template error_code get(T &out) & noexcept */ + template simdjson_really_inline error_code get(T &out) && noexcept; + +#if SIMDJSON_EXCEPTIONS + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an array. + */ + simdjson_really_inline operator array() & noexcept(false); + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an object. + */ + simdjson_really_inline operator object() & noexcept(false); + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline operator uint64_t() noexcept(false); + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline operator int64_t() noexcept(false); + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline operator double() noexcept(false); + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator std::string_view() noexcept(false); + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator raw_json_string() noexcept(false); + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not true or false. + */ + simdjson_really_inline operator bool() noexcept(false); +#endif + + /** + * Begin array iteration. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline simdjson_result begin() & noexcept; + /** + * Sentinel representing the end of the array. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline simdjson_result end() & noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + +protected: + simdjson_really_inline document(ondemand::json_iterator &&iter) noexcept; + simdjson_really_inline const uint8_t *text(uint32_t idx) const noexcept; + + simdjson_really_inline value_iterator resume_value_iterator() noexcept; + simdjson_really_inline value_iterator get_root_value_iterator() noexcept; + simdjson_really_inline value resume_value() noexcept; + simdjson_really_inline value get_root_value() noexcept; + static simdjson_really_inline document start(ondemand::json_iterator &&iter) noexcept; + + // + // Fields + // + json_iterator iter{}; ///< Current position in the document + static constexpr depth_t DOCUMENT_DEPTH = 0; ///< document depth is always 0 + + friend struct simdjson_result; + friend class array_iterator; + friend class value; + friend class ondemand::parser; + friend class object; + friend class array; + friend class field; + friend class token; +}; + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public westmere::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(westmere::ondemand::document &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result get_array() & noexcept; + simdjson_really_inline simdjson_result get_object() & noexcept; + simdjson_really_inline simdjson_result get_uint64() noexcept; + simdjson_really_inline simdjson_result get_int64() noexcept; + simdjson_really_inline simdjson_result get_double() noexcept; + simdjson_really_inline simdjson_result get_string() noexcept; + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + simdjson_really_inline simdjson_result get_bool() noexcept; + simdjson_really_inline bool is_null() noexcept; + + template simdjson_really_inline simdjson_result get() & noexcept; + template simdjson_really_inline simdjson_result get() && noexcept; + + template simdjson_really_inline error_code get(T &out) & noexcept; + template simdjson_really_inline error_code get(T &out) && noexcept; + +#if SIMDJSON_EXCEPTIONS + simdjson_really_inline operator westmere::ondemand::array() & noexcept(false); + simdjson_really_inline operator westmere::ondemand::object() & noexcept(false); + simdjson_really_inline operator uint64_t() noexcept(false); + simdjson_really_inline operator int64_t() noexcept(false); + simdjson_really_inline operator double() noexcept(false); + simdjson_really_inline operator std::string_view() noexcept(false); + simdjson_really_inline operator westmere::ondemand::raw_json_string() noexcept(false); + simdjson_really_inline operator bool() noexcept(false); +#endif + + simdjson_really_inline simdjson_result begin() & noexcept; + simdjson_really_inline simdjson_result end() & noexcept; + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/document.h */ +/* begin file include/simdjson/generic/ondemand/value.h */ + +namespace simdjson { +namespace westmere { +namespace ondemand { + +class array; +class document; +class field; +class object; +class raw_json_string; + +/** + * An ephemeral JSON value returned during iteration. + */ +class value { +public: + /** + * Create a new invalid value. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline value() noexcept = default; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @returns A value of the given type, parsed from the JSON. + * @returns INCORRECT_TYPE If the JSON value is not the given type. + */ + template simdjson_really_inline simdjson_result get() & noexcept; + /** @overload template simdjson_result get() & noexcept */ + template simdjson_really_inline simdjson_result get() && noexcept; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @param out This is set to a value of the given type, parsed from the JSON. If there is an error, this may not be initialized. + * @returns INCORRECT_TYPE If the JSON value is not an object. + * @returns SUCCESS If the parse succeeded and the out parameter was set to the value. + */ + template simdjson_really_inline error_code get(T &out) & noexcept; + /** @overload template error_code get(T &out) & noexcept */ + template simdjson_really_inline error_code get(T &out) && noexcept; + + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @returns INCORRECT_TYPE If the JSON value is not an array. + */ + simdjson_really_inline simdjson_result get_array() && noexcept; + /** @overload simdjson_really_inline operator get_array() && noexcept(false); */ + simdjson_really_inline simdjson_result get_array() & noexcept; + + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @returns INCORRECT_TYPE If the JSON value is not an object. + */ + simdjson_really_inline simdjson_result get_object() && noexcept; + /** @overload simdjson_really_inline operator object() && noexcept(false); */ + simdjson_really_inline simdjson_result get_object() & noexcept; + + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline simdjson_result get_uint64() noexcept; + + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline simdjson_result get_int64() noexcept; + + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @returns INCORRECT_TYPE If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline simdjson_result get_double() noexcept; + + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_string() noexcept; + + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @returns INCORRECT_TYPE if the JSON value is not true or false. + */ + simdjson_really_inline simdjson_result get_bool() noexcept; + + /** + * Checks if this JSON value is null. + * + * @returns Whether the value is null. + */ + simdjson_really_inline bool is_null() noexcept; + +#if SIMDJSON_EXCEPTIONS + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an array. + */ + simdjson_really_inline operator array() && noexcept(false); + /** @overload simdjson_really_inline operator array() && noexcept(false); */ + simdjson_really_inline operator array() & noexcept(false); + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an object. + */ + simdjson_really_inline operator object() && noexcept(false); + /** @overload simdjson_really_inline operator object() && noexcept(false); */ + simdjson_really_inline operator object() & noexcept(false); + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline operator uint64_t() noexcept(false); + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline operator int64_t() noexcept(false); + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline operator double() noexcept(false); + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator std::string_view() noexcept(false); + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator raw_json_string() noexcept(false); + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not true or false. + */ + simdjson_really_inline operator bool() noexcept(false); +#endif + + /** + * Begin array iteration. + * + * Part of the std::iterable interface. + * + * @returns INCORRECT_TYPE If the JSON value is not an array. + */ + simdjson_really_inline simdjson_result begin() & noexcept; + /** + * Sentinel representing the end of the array. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline simdjson_result end() & noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) && noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) && noexcept; + +protected: + /** + * Create a value. + */ + simdjson_really_inline value(const value_iterator &iter) noexcept; + + /** + * Skip this value, allowing iteration to continue. + */ + simdjson_really_inline void skip() noexcept; + + /** + * Start a value at the current position. + * + * (It should already be started; this is just a self-documentation method.) + */ + static simdjson_really_inline value start(const value_iterator &iter) noexcept; + + /** + * Resume a value. + */ + static simdjson_really_inline value resume(const value_iterator &iter) noexcept; + + /** + * Get the object, starting or resuming it as necessary + */ + simdjson_really_inline simdjson_result start_or_resume_object() & noexcept; + /** @overload simdjson_really_inline simdjson_result start_or_resume_object() & noexcept; */ + simdjson_really_inline simdjson_result start_or_resume_object() && noexcept; + + // simdjson_really_inline void log_value(const char *type) const noexcept; + // simdjson_really_inline void log_error(const char *message) const noexcept; + + value_iterator iter{}; + + friend class document; + friend class array_iterator; + friend class field; + friend class object; + friend struct simdjson_result; + friend struct simdjson_result; + friend struct simdjson_result; +}; + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public westmere::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(westmere::ondemand::value &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result get_array() && noexcept; + simdjson_really_inline simdjson_result get_array() & noexcept; + + simdjson_really_inline simdjson_result get_object() && noexcept; + simdjson_really_inline simdjson_result get_object() & noexcept; + + simdjson_really_inline simdjson_result get_uint64() noexcept; + simdjson_really_inline simdjson_result get_int64() noexcept; + simdjson_really_inline simdjson_result get_double() noexcept; + simdjson_really_inline simdjson_result get_string() noexcept; + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + simdjson_really_inline simdjson_result get_bool() noexcept; + simdjson_really_inline bool is_null() noexcept; + + template simdjson_really_inline simdjson_result get() & noexcept; + template simdjson_really_inline simdjson_result get() && noexcept; + + template simdjson_really_inline error_code get(T &out) & noexcept; + template simdjson_really_inline error_code get(T &out) && noexcept; + +#if SIMDJSON_EXCEPTIONS + simdjson_really_inline operator westmere::ondemand::array() && noexcept(false); + simdjson_really_inline operator westmere::ondemand::array() & noexcept(false); + simdjson_really_inline operator westmere::ondemand::object() && noexcept(false); + simdjson_really_inline operator westmere::ondemand::object() & noexcept(false); + simdjson_really_inline operator uint64_t() noexcept(false); + simdjson_really_inline operator int64_t() noexcept(false); + simdjson_really_inline operator double() noexcept(false); + simdjson_really_inline operator std::string_view() noexcept(false); + simdjson_really_inline operator westmere::ondemand::raw_json_string() noexcept(false); + simdjson_really_inline operator bool() noexcept(false); +#endif + + simdjson_really_inline simdjson_result begin() & noexcept; + simdjson_really_inline simdjson_result end() & noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) && noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) && noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value.h */ +/* begin file include/simdjson/generic/ondemand/field.h */ + +namespace simdjson { +namespace westmere { +namespace ondemand { + +/** + * A JSON field (key/value pair) in an object. + * + * Returned from object iteration. + * + * Extends from std::pair so you can use C++ algorithms that rely on pairs. + */ +class field : public std::pair { +public: + /** + * Create a new invalid field. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline field() noexcept; + + /** + * Get the key as a string_view (for higher speed, consider raw_key). + * We deliberately use a more cumbersome name (unescaped_key) to force users + * to think twice about using it. + * + * This consumes the key: once you have called unescaped_key(), you cannot + * call it again nor can you call key(). + */ + simdjson_really_inline simdjson_warn_unused simdjson_result unescaped_key() noexcept; + /** + * Get the key as a raw_json_string: this is fast and allows straight comparisons. + * We want this to be the default for most users. + */ + simdjson_really_inline raw_json_string key() const noexcept; + /** + * Get the field value. + */ + simdjson_really_inline ondemand::value &value() & noexcept; + /** + * @overload ondemand::value &ondemand::value() & noexcept + */ + simdjson_really_inline ondemand::value value() && noexcept; + +protected: + simdjson_really_inline field(raw_json_string key, ondemand::value &&value) noexcept; + static simdjson_really_inline simdjson_result start(value_iterator &parent_iter) noexcept; + static simdjson_really_inline simdjson_result start(const value_iterator &parent_iter, raw_json_string key) noexcept; + friend struct simdjson_result; + friend class object_iterator; +}; + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public westmere::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(westmere::ondemand::field &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result unescaped_key() noexcept; + simdjson_really_inline simdjson_result key() noexcept; + simdjson_really_inline simdjson_result value() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/field.h */ +/* begin file include/simdjson/generic/ondemand/object.h */ + +namespace simdjson { +namespace westmere { +namespace ondemand { + +/** + * A forward-only JSON object field iterator. + */ +class object { +public: + /** + * Create a new invalid object. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline object() noexcept = default; + + simdjson_really_inline object_iterator begin() noexcept; + simdjson_really_inline object_iterator end() noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; + +protected: + static simdjson_really_inline simdjson_result start(value_iterator &iter) noexcept; + static simdjson_really_inline simdjson_result try_start(value_iterator &iter) noexcept; + static simdjson_really_inline object started(value_iterator &iter) noexcept; + static simdjson_really_inline object resume(const value_iterator &iter) noexcept; + simdjson_really_inline object(const value_iterator &iter) noexcept; + + simdjson_warn_unused simdjson_really_inline error_code find_field_raw(const std::string_view key) noexcept; + + value_iterator iter{}; + + friend class value; + friend class document; + friend struct simdjson_result; +}; + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public westmere::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(westmere::ondemand::object &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result begin() noexcept; + simdjson_really_inline simdjson_result end() noexcept; + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object.h */ +/* begin file include/simdjson/generic/ondemand/parser.h */ + +namespace simdjson { +namespace westmere { +namespace ondemand { + +class array; +class object; +class value; +class raw_json_string; + +/** + * A JSON fragment iterator. + * + * This holds the actual iterator as well as the buffer for writing strings. + */ +class parser { +public: + /** + * Create a JSON parser. + * + * The new parser will have zero capacity. + */ + inline parser() noexcept = default; + + inline parser(parser &&other) noexcept = default; + simdjson_really_inline parser(const parser &other) = delete; + simdjson_really_inline parser &operator=(const parser &other) = delete; + + /** Deallocate the JSON parser. */ + inline ~parser() noexcept = default; + + /** + * Start iterating an on-demand JSON document. + * + * ondemand::parser parser; + * document doc = parser.iterate(json); + * + * ### IMPORTANT: Buffer Lifetime + * + * Because parsing is done while you iterate, you *must* keep the JSON buffer around at least as + * long as the document iteration. + * + * ### IMPORTANT: Document Lifetime + * + * Only one iteration at a time can happen per parser, and the parser *must* be kept alive during + * iteration to ensure intermediate buffers can be accessed. Any document must be destroyed before + * you call parse() again or destroy the parser. + * + * ### REQUIRED: Buffer Padding + * + * The buffer must have at least SIMDJSON_PADDING extra allocated bytes. It does not matter what + * those bytes are initialized to, as long as they are allocated. + * + * @param json The JSON to parse. + * + * @return The document, or an error: + * - MEMALLOC if realloc_if_needed the parser does not have enough capacity, and memory + * allocation fails. + * - EMPTY if the document is all whitespace. + * - UTF8_ERROR if the document is not valid UTF-8. + * - UNESCAPED_CHARS if a string contains control characters that must be escaped + * - UNCLOSED_STRING if there is an unclosed string in the document. + */ + simdjson_warn_unused simdjson_result iterate(const padded_string &json) & noexcept; + simdjson_warn_unused simdjson_result iterate(const simdjson_result &json) & noexcept; + simdjson_warn_unused simdjson_result iterate(padded_string &&json) & noexcept = delete; + simdjson_warn_unused simdjson_result iterate(const std::string_view &json) & noexcept = delete; + simdjson_warn_unused simdjson_result iterate(const std::string &json) & noexcept = delete; + /** + * @private + * + * Start iterating an on-demand JSON document. + * + * ondemand::parser parser; + * json_iterator doc = parser.iterate(json); + * + * ### IMPORTANT: Buffer Lifetime + * + * Because parsing is done while you iterate, you *must* keep the JSON buffer around at least as + * long as the document iteration. + * + * ### IMPORTANT: Document Lifetime + * + * Only one iteration at a time can happen per parser, and the parser *must* be kept alive during + * iteration to ensure intermediate buffers can be accessed. Any document must be destroyed before + * you call parse() again or destroy the parser. + * + * ### REQUIRED: Buffer Padding + * + * The buffer must have at least SIMDJSON_PADDING extra allocated bytes. It does not matter what + * those bytes are initialized to, as long as they are allocated. + * + * @param json The JSON to parse. + * + * @return The iterator, or an error: + * - MEMALLOC if realloc_if_needed the parser does not have enough capacity, and memory + * allocation fails. + * - EMPTY if the document is all whitespace. + * - UTF8_ERROR if the document is not valid UTF-8. + * - UNESCAPED_CHARS if a string contains control characters that must be escaped + * - UNCLOSED_STRING if there is an unclosed string in the document. + */ + simdjson_warn_unused simdjson_result iterate_raw(const padded_string &json) & noexcept; + +private: + /** @private [for benchmarking access] The implementation to use */ + std::unique_ptr dom_parser{}; + size_t _capacity{0}; + size_t _max_depth{0}; + std::unique_ptr string_buf{}; + + /** + * Ensure this parser has enough memory to process JSON documents up to `capacity` bytes in length + * and `max_depth` depth. + * + * @param capacity The new capacity. + * @param max_depth The new max_depth. Defaults to DEFAULT_MAX_DEPTH. + * @return The error, if there is one. + */ + simdjson_warn_unused error_code allocate(size_t capacity, size_t max_depth=DEFAULT_MAX_DEPTH) noexcept; + + friend class json_iterator; +}; + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public westmere::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(westmere::ondemand::parser &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/parser.h */ +/* end file include/simdjson/generic/ondemand.h */ + +// Inline definitions +/* begin file include/simdjson/generic/implementation_simdjson_result_base-inl.h */ +namespace simdjson { +namespace westmere { + +// +// internal::implementation_simdjson_result_base inline implementation +// + +template +simdjson_really_inline void implementation_simdjson_result_base::tie(T &value, error_code &error) && noexcept { + // on the clang compiler that comes with current macOS (Apple clang version 11.0.0), + // tie(width, error) = size["w"].get(); + // fails with "error: no viable overloaded '='"" + error = this->second; + if (!error) { + value = std::forward>(*this).first; + } +} + +template +simdjson_warn_unused simdjson_really_inline error_code implementation_simdjson_result_base::get(T &value) && noexcept { + error_code error; + std::forward>(*this).tie(value, error); + return error; +} + +template +simdjson_really_inline error_code implementation_simdjson_result_base::error() const noexcept { + return this->second; +} + +#if SIMDJSON_EXCEPTIONS + +template +simdjson_really_inline T& implementation_simdjson_result_base::value() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return this->first; +} + +template +simdjson_really_inline T&& implementation_simdjson_result_base::value() && noexcept(false) { + return std::forward>(*this).take_value(); +} + +template +simdjson_really_inline T&& implementation_simdjson_result_base::take_value() && noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return std::forward(this->first); +} + +template +simdjson_really_inline implementation_simdjson_result_base::operator T&&() && noexcept(false) { + return std::forward>(*this).take_value(); +} + +#endif // SIMDJSON_EXCEPTIONS + +template +simdjson_really_inline implementation_simdjson_result_base::implementation_simdjson_result_base(T &&value, error_code error) noexcept + : first{std::forward(value)}, second{error} {} +template +simdjson_really_inline implementation_simdjson_result_base::implementation_simdjson_result_base(error_code error) noexcept + : implementation_simdjson_result_base(T{}, error) {} +template +simdjson_really_inline implementation_simdjson_result_base::implementation_simdjson_result_base(T &&value) noexcept + : implementation_simdjson_result_base(std::forward(value), SUCCESS) {} + +} // namespace westmere +} // namespace simdjson +/* end file include/simdjson/generic/implementation_simdjson_result_base-inl.h */ +/* begin file include/simdjson/generic/ondemand-inl.h */ +/* begin file include/simdjson/generic/ondemand/logger-inl.h */ +namespace simdjson { +namespace westmere { +namespace ondemand { +namespace logger { + +static constexpr const char * DASHES = "----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------"; +static constexpr const int LOG_EVENT_LEN = 20; +static constexpr const int LOG_BUFFER_LEN = 30; +static constexpr const int LOG_SMALL_BUFFER_LEN = 10; +static int log_depth = 0; // Not threadsafe. Log only. + +// Helper to turn unprintable or newline characters into spaces +static simdjson_really_inline char printable_char(char c) { + if (c >= 0x20) { + return c; + } else { + return ' '; + } +} + +simdjson_really_inline void log_event(const json_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_line(iter, "", type, detail, delta, depth_delta); +} +simdjson_really_inline void log_value(const json_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_line(iter, "", type, detail, delta, depth_delta); +} +simdjson_really_inline void log_value(const json_iterator &iter, token_position index, depth_t depth, const char *type, std::string_view detail) noexcept { + log_line(iter, index, depth, "", type, detail); +} +simdjson_really_inline void log_start_value(const json_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_line(iter, "+", type, "", delta, depth_delta); + log_depth++; +} +simdjson_really_inline void log_end_value(const json_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_depth--; + log_line(iter, "-", type, "", delta, depth_delta); +} +simdjson_really_inline void log_error(const json_iterator &iter, const char *error, const char *detail, int delta, int depth_delta) noexcept { + log_line(iter, "ERROR: ", error, detail, delta, depth_delta); +} +simdjson_really_inline void log_error(const json_iterator &iter, token_position index, depth_t depth, const char *error, const char *detail) noexcept { + log_line(iter, index, depth, "ERROR: ", error, detail); +} + +simdjson_really_inline void log_event(const value_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_event(iter.json_iter(), type, detail, delta, depth_delta); +} +simdjson_really_inline void log_value(const value_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_value(iter.json_iter(), type, detail, delta, depth_delta); +} +simdjson_really_inline void log_start_value(const value_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_start_value(iter.json_iter(), type, delta, depth_delta); +} +simdjson_really_inline void log_end_value(const value_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_end_value(iter.json_iter(), type, delta, depth_delta); +} +simdjson_really_inline void log_error(const value_iterator &iter, const char *error, const char *detail, int delta, int depth_delta) noexcept { + log_error(iter.json_iter(), error, detail, delta, depth_delta); +} + +simdjson_really_inline void log_headers() noexcept { + log_depth = 0; + if (LOG_ENABLED) { + printf("\n"); + printf("| %-*s ", LOG_EVENT_LEN, "Event"); + printf("| %-*s ", LOG_BUFFER_LEN, "Buffer"); + printf("| %-*s ", LOG_SMALL_BUFFER_LEN, "Next"); + // printf("| %-*s ", 5, "Next#"); + printf("| %-*s ", 5, "Depth"); + printf("| Detail "); + printf("|\n"); + + printf("|%.*s", LOG_EVENT_LEN+2, DASHES); + printf("|%.*s", LOG_BUFFER_LEN+2, DASHES); + printf("|%.*s", LOG_SMALL_BUFFER_LEN+2, DASHES); + // printf("|%.*s", 5+2, DASHES); + printf("|%.*s", 5+2, DASHES); + printf("|--------"); + printf("|\n"); + fflush(stdout); + } +} + +simdjson_really_inline void log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept { + log_line(iter, iter.token.index+delta, depth_t(iter.depth()+depth_delta), title_prefix, title, detail); +} +simdjson_really_inline void log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept { + if (LOG_ENABLED) { + const int indent = depth*2; + const auto buf = iter.token.buf; + printf("| %*s%s%-*s ", + indent, "", + title_prefix, + LOG_EVENT_LEN - indent - int(strlen(title_prefix)), title + ); + { + // Print the current structural. + printf("| "); + auto current_structural = &buf[*index]; + for (int i=0;i raw_json_string::unescape(uint8_t *&dst) const noexcept { + uint8_t *end = stringparsing::parse_string(buf, dst); + if (!end) { return STRING_ERROR; } + std::string_view result((const char *)dst, end-dst); + dst = end; + return result; +} + +simdjson_really_inline simdjson_warn_unused simdjson_result raw_json_string::unescape(json_iterator &iter) const noexcept { + return unescape(iter.string_buf_loc()); +} + +simdjson_unused simdjson_really_inline bool operator==(const raw_json_string &a, std::string_view b) noexcept { + return !memcmp(a.raw(), b.data(), b.size()); +} + +simdjson_unused simdjson_really_inline bool operator==(std::string_view a, const raw_json_string &b) noexcept { + return b == a; +} + +simdjson_unused simdjson_really_inline bool operator!=(const raw_json_string &a, std::string_view b) noexcept { + return !(a == b); +} + +simdjson_unused simdjson_really_inline bool operator!=(std::string_view a, const raw_json_string &b) noexcept { + return !(a == b); +} + +simdjson_unused simdjson_really_inline std::ostream &operator<<(std::ostream &out, const raw_json_string &str) noexcept { + bool in_escape = false; + const char *s = str.raw(); + while (true) { + switch (*s) { + case '\\': in_escape = !in_escape; break; + case '"': if (in_escape) { in_escape = false; } else { return out; } break; + default: if (in_escape) { in_escape = false; } + } + out << *s; + s++; + } +} + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(westmere::ondemand::raw_json_string &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +simdjson_really_inline simdjson_result simdjson_result::raw() const noexcept { + if (error()) { return error(); } + return first.raw(); +} +simdjson_really_inline simdjson_warn_unused simdjson_result simdjson_result::unescape(uint8_t *&dst) const noexcept { + if (error()) { return error(); } + return first.unescape(dst); +} +simdjson_really_inline simdjson_warn_unused simdjson_result simdjson_result::unescape(westmere::ondemand::json_iterator &iter) const noexcept { + if (error()) { return error(); } + return first.unescape(iter); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/raw_json_string-inl.h */ +/* begin file include/simdjson/generic/ondemand/token_iterator-inl.h */ +namespace simdjson { +namespace westmere { +namespace ondemand { + +simdjson_really_inline token_iterator::token_iterator(const uint8_t *_buf, token_position _index) noexcept + : buf{_buf}, index{_index} +{ +} + +simdjson_really_inline const uint8_t *token_iterator::advance() noexcept { + return &buf[*(index++)]; +} + +simdjson_really_inline const uint8_t *token_iterator::peek(token_position position) const noexcept { + return &buf[*position]; +} +simdjson_really_inline uint32_t token_iterator::peek_index(token_position position) const noexcept { + return *position; +} +simdjson_really_inline uint32_t token_iterator::peek_length(token_position position) const noexcept { + return *(position+1) - *position; +} + +simdjson_really_inline const uint8_t *token_iterator::peek(int32_t delta) const noexcept { + return &buf[*(index+delta)]; +} +simdjson_really_inline uint32_t token_iterator::peek_index(int32_t delta) const noexcept { + return *(index+delta); +} +simdjson_really_inline uint32_t token_iterator::peek_length(int32_t delta) const noexcept { + return *(index+delta+1) - *(index+delta); +} + +simdjson_really_inline token_position token_iterator::position() const noexcept { + return index; +} +simdjson_really_inline void token_iterator::set_position(token_position target_checkpoint) noexcept { + index = target_checkpoint; +} + +simdjson_really_inline bool token_iterator::operator==(const token_iterator &other) const noexcept { + return index == other.index; +} +simdjson_really_inline bool token_iterator::operator!=(const token_iterator &other) const noexcept { + return index != other.index; +} +simdjson_really_inline bool token_iterator::operator>(const token_iterator &other) const noexcept { + return index > other.index; +} +simdjson_really_inline bool token_iterator::operator>=(const token_iterator &other) const noexcept { + return index >= other.index; +} +simdjson_really_inline bool token_iterator::operator<(const token_iterator &other) const noexcept { + return index < other.index; +} +simdjson_really_inline bool token_iterator::operator<=(const token_iterator &other) const noexcept { + return index <= other.index; +} + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(westmere::ondemand::token_iterator &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/token_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/json_iterator-inl.h */ +namespace simdjson { +namespace westmere { +namespace ondemand { + +simdjson_really_inline json_iterator::json_iterator(json_iterator &&other) noexcept + : token(std::forward(other.token)), + parser{other.parser}, + _string_buf_loc{other._string_buf_loc}, + _depth{other._depth} +{ + other.parser = nullptr; +} +simdjson_really_inline json_iterator &json_iterator::operator=(json_iterator &&other) noexcept { + token = other.token; + parser = other.parser; + _string_buf_loc = other._string_buf_loc; + _depth = other._depth; + other.parser = nullptr; + return *this; +} + +simdjson_really_inline json_iterator::json_iterator(const uint8_t *buf, ondemand::parser *_parser) noexcept + : token(buf, _parser->dom_parser->structural_indexes.get()), + parser{_parser}, + _string_buf_loc{parser->string_buf.get()}, + _depth{1} +{ + // Release the string buf so it can be reused by the next document + logger::log_headers(); +} + +// GCC 7 warns when the first line of this function is inlined away into oblivion due to the caller +// relating depth and parent_depth, which is a desired effect. The warning does not show up if the +// skip_child() function is not marked inline). +SIMDJSON_PUSH_DISABLE_WARNINGS +SIMDJSON_DISABLE_STRICT_OVERFLOW_WARNING +simdjson_warn_unused simdjson_really_inline error_code json_iterator::skip_child(depth_t parent_depth) noexcept { + if (depth() <= parent_depth) { return SUCCESS; } + + switch (*advance()) { + // TODO consider whether matching braces is a requirement: if non-matching braces indicates + // *missing* braces, then future lookups are not in the object/arrays they think they are, + // violating the rule "validate enough structure that the user can be confident they are + // looking at the right values." + // PERF TODO we can eliminate the switch here with a lookup of how much to add to depth + + // For the first open array/object in a value, we've already incremented depth, so keep it the same + // We never stop at colon, but if we did, it wouldn't affect depth + case '[': case '{': case ':': + logger::log_start_value(*this, "skip"); + break; + // If there is a comma, we have just finished a value in an array/object, and need to get back in + case ',': + logger::log_value(*this, "skip"); + break; + // ] or } means we just finished a value and need to jump out of the array/object + case ']': case '}': + logger::log_end_value(*this, "skip"); + _depth--; + if (depth() <= parent_depth) { return SUCCESS; } + break; + // Anything else must be a scalar value + default: + // For the first scalar, we will have incremented depth already, so we decrement it here. + logger::log_value(*this, "skip"); + _depth--; + if (depth() <= parent_depth) { return SUCCESS; } + break; + } + + // Now that we've considered the first value, we only increment/decrement for arrays/objects + auto end = &parser->dom_parser->structural_indexes[parser->dom_parser->n_structural_indexes]; + while (token.index <= end) { + switch (*advance()) { + case '[': case '{': + logger::log_start_value(*this, "skip"); + _depth++; + break; + // TODO consider whether matching braces is a requirement: if non-matching braces indicates + // *missing* braces, then future lookups are not in the object/arrays they think they are, + // violating the rule "validate enough structure that the user can be confident they are + // looking at the right values." + // PERF TODO we can eliminate the switch here with a lookup of how much to add to depth + case ']': case '}': + logger::log_end_value(*this, "skip"); + _depth--; + if (depth() <= parent_depth) { return SUCCESS; } + break; + default: + logger::log_value(*this, "skip", ""); + break; + } + } + + return report_error(TAPE_ERROR, "not enough close braces"); +} + +SIMDJSON_POP_DISABLE_WARNINGS + +simdjson_really_inline bool json_iterator::at_root() const noexcept { + return token.position() == root_checkpoint(); +} + +simdjson_really_inline token_position json_iterator::root_checkpoint() const noexcept { + return parser->dom_parser->structural_indexes.get(); +} + +simdjson_really_inline void json_iterator::assert_at_root() const noexcept { + SIMDJSON_ASSUME( _depth == 1 ); + // Visual Studio Clang treats unique_ptr.get() as "side effecting." +#ifndef SIMDJSON_CLANG_VISUAL_STUDIO + SIMDJSON_ASSUME( token.index == parser->dom_parser->structural_indexes.get() ); +#endif +} + +simdjson_really_inline bool json_iterator::at_eof() const noexcept { + return token.index == &parser->dom_parser->structural_indexes[parser->dom_parser->n_structural_indexes]; +} + +simdjson_really_inline bool json_iterator::is_alive() const noexcept { + return parser; +} + +simdjson_really_inline void json_iterator::abandon() noexcept { + parser = nullptr; + _depth = 0; +} + +simdjson_really_inline const uint8_t *json_iterator::advance() noexcept { + return token.advance(); +} + +simdjson_really_inline const uint8_t *json_iterator::peek(int32_t delta) const noexcept { + return token.peek(delta); +} + +simdjson_really_inline uint32_t json_iterator::peek_length(int32_t delta) const noexcept { + return token.peek_length(delta); +} + +simdjson_really_inline const uint8_t *json_iterator::peek(token_position position) const noexcept { + return token.peek(position); +} + +simdjson_really_inline uint32_t json_iterator::peek_length(token_position position) const noexcept { + return token.peek_length(position); +} + +simdjson_really_inline void json_iterator::ascend_to(depth_t parent_depth) noexcept { + SIMDJSON_ASSUME(parent_depth >= 0 && parent_depth < INT32_MAX - 1); + SIMDJSON_ASSUME(_depth == parent_depth + 1); + _depth = parent_depth; +} + +simdjson_really_inline void json_iterator::descend_to(depth_t child_depth) noexcept { + SIMDJSON_ASSUME(child_depth >= 1 && child_depth < INT32_MAX); + SIMDJSON_ASSUME(_depth == child_depth - 1); + _depth = child_depth; +} + +simdjson_really_inline depth_t json_iterator::depth() const noexcept { + return _depth; +} + +simdjson_really_inline uint8_t *&json_iterator::string_buf_loc() noexcept { + return _string_buf_loc; +} + +simdjson_really_inline error_code json_iterator::report_error(error_code _error, const char *message) noexcept { + SIMDJSON_ASSUME(_error != SUCCESS && _error != UNINITIALIZED && _error != INCORRECT_TYPE && _error != NO_SUCH_FIELD); + logger::log_error(*this, message); + error = _error; + return error; +} + +simdjson_really_inline token_position json_iterator::position() const noexcept { + return token.position(); +} +simdjson_really_inline void json_iterator::set_position(token_position target_checkpoint) noexcept { + token.set_position(target_checkpoint); +} + + +simdjson_really_inline error_code json_iterator::optional_error(error_code _error, const char *message) noexcept { + SIMDJSON_ASSUME(_error == INCORRECT_TYPE || _error == NO_SUCH_FIELD); + logger::log_error(*this, message); + return _error; +} + +template +simdjson_warn_unused simdjson_really_inline bool json_iterator::copy_to_buffer(const uint8_t *json, uint32_t max_len, uint8_t (&tmpbuf)[N]) noexcept { + // Truncate whitespace to fit the buffer. + if (max_len > N-1) { + if (jsoncharutils::is_not_structural_or_whitespace(json[N-1])) { return false; } + max_len = N-1; + } + + // Copy to the buffer. + std::memcpy(tmpbuf, json, max_len); + tmpbuf[max_len] = ' '; + return true; +} + +template +simdjson_warn_unused simdjson_really_inline bool json_iterator::peek_to_buffer(uint8_t (&tmpbuf)[N]) noexcept { + auto max_len = token.peek_length(); + auto json = token.peek(); + return copy_to_buffer(json, max_len, tmpbuf); +} + +template +simdjson_warn_unused simdjson_really_inline bool json_iterator::advance_to_buffer(uint8_t (&tmpbuf)[N]) noexcept { + auto max_len = peek_length(); + auto json = advance(); + return copy_to_buffer(json, max_len, tmpbuf); +} + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(westmere::ondemand::json_iterator &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/json_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/value_iterator-inl.h */ +namespace simdjson { +namespace westmere { +namespace ondemand { + +simdjson_really_inline value_iterator::value_iterator(json_iterator *json_iter, depth_t depth, token_position start_index) noexcept + : _json_iter{json_iter}, + _depth{depth}, + _start_position{start_index} +{ +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::start_object() noexcept { + assert_at_start(); + + if (*_json_iter->advance() != '{') { logger::log_error(*_json_iter, "Not an object"); return INCORRECT_TYPE; } + return started_object(); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::try_start_object() noexcept { + assert_at_start(); + + if (*_json_iter->peek() != '{') { logger::log_error(*_json_iter, "Not an object"); return INCORRECT_TYPE; } + _json_iter->advance(); + return started_object(); +} + +simdjson_warn_unused simdjson_really_inline bool value_iterator::started_object() noexcept { + if (*_json_iter->peek() == '}') { + logger::log_value(*_json_iter, "empty object"); + _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return false; + } + _json_iter->descend_to(depth()+1); + logger::log_start_value(*_json_iter, "object"); + return true; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::has_next_field() noexcept { + assert_at_next(); + + switch (*_json_iter->advance()) { + case '}': + logger::log_end_value(*_json_iter, "object"); + _json_iter->ascend_to(depth()-1); + return false; + case ',': + _json_iter->descend_to(depth()+1); + return true; + default: + return _json_iter->report_error(TAPE_ERROR, "Missing comma between object fields"); + } +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::find_field_raw(const std::string_view key) noexcept { + error_code error; + bool has_value; + + // + // Initially, the object can be in one of a few different places: + // + // 1. The start of the object, at the first field: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2, index 1) + // ``` + // + // 2. When a previous search did not yield a value or the object is empty: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 0) + // { } + // ^ (depth 0, index 2) + // ``` + // + if (!is_open()) { return false; } + if (at_first_field()) { + has_value = true; + + // 3. When a previous search found a field or an iterator yielded a value: + // + // ``` + // // When a field was not fully consumed (or not even touched at all) + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2) + // // When a field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // // When the last field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // ``` + // + } else { + if ((error = skip_child() )) { abandon(); return error; } + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + while (has_value) { + // Get the key and colon, stopping at the value. + raw_json_string actual_key; + if ((error = field_key().get(actual_key) )) { abandon(); return error; }; + if ((error = field_value() )) { abandon(); return error; } + + // If it matches, stop and return + if (actual_key == key) { + logger::log_event(*this, "match", key, -2); + return true; + } + + // No match: skip the value and see if , or } is next + logger::log_event(*this, "no match", key, -2); + SIMDJSON_TRY( skip_child() ); // Skip the value entirely + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + + // If the loop ended, we're out of fields to look at. + return false; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::find_field_unordered_raw(const std::string_view key) noexcept { + error_code error; + bool has_value; + + // + // Initially, the object can be in one of a few different places: + // + // 1. The start of the object, at the first field: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2, index 1) + // ``` + // + if (at_first_field()) { + // If we're at the beginning of the object, we definitely have a field + has_value = true; + + // 2. When a previous search did not yield a value or the object is empty: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 0) + // { } + // ^ (depth 0, index 2) + // ``` + // + } else if (!is_open()) { + has_value = false; + + // 3. When a previous search found a field or an iterator yielded a value: + // + // ``` + // // When a field was not fully consumed (or not even touched at all) + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2) + // // When a field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // // When the last field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // ``` + // + } else { + // Finish the previous value and see if , or } is next + if ((error = skip_child() )) { abandon(); return error; } + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + + // After initial processing, we will be in one of two states: + // + // ``` + // // At the beginning of a field + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // // At the end of the object + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 0) + // ``` + // + + // First, we scan from that point to the end. + // If we don't find a match, we loop back around, and scan from the beginning to that point. + token_position search_start = _json_iter->position(); + + // Next, we find a match starting from the current position. + while (has_value) { + SIMDJSON_ASSUME( _json_iter->_depth == _depth + 1 ); // We must be at the start of a field + + // Get the key and colon, stopping at the value. + raw_json_string actual_key; + if ((error = field_key().get(actual_key) )) { abandon(); return error; }; + if ((error = field_value() )) { abandon(); return error; } + + // If it matches, stop and return + if (actual_key == key) { + logger::log_event(*this, "match", key, -2); + return true; + } + + // No match: skip the value and see if , or } is next + logger::log_event(*this, "no match", key, -2); + SIMDJSON_TRY( skip_child() ); + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + + // If we reach the end without finding a match, search the rest of the fields starting at the + // beginning of the object. + // (We have already run through the object before, so we've already validated its structure. We + // don't check errors in this bit.) + _json_iter->set_position(_start_position + 1); + _json_iter->descend_to(_depth); + + has_value = started_object(); + while (_json_iter->position() < search_start) { + SIMDJSON_ASSUME(has_value); // we should reach search_start before ever reaching the end of the object + SIMDJSON_ASSUME( _json_iter->_depth == _depth + 1 ); // We must be at the start of a field + + // Get the key and colon, stopping at the value. + raw_json_string actual_key; + error = field_key().get(actual_key); SIMDJSON_ASSUME(!error); + error = field_value(); SIMDJSON_ASSUME(!error); + + // If it matches, stop and return + if (actual_key == key) { + logger::log_event(*this, "match", key, -2); + return true; + } + + // No match: skip the value and see if , or } is next + logger::log_event(*this, "no match", key, -2); + SIMDJSON_TRY( skip_child() ); + error = has_next_field().get(has_value); SIMDJSON_ASSUME(!error); + } + + // If the loop ended, we're out of fields to look at. + return false; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::field_key() noexcept { + assert_at_child(); + + const uint8_t *key = _json_iter->advance(); + if (*(key++) != '"') { return _json_iter->report_error(TAPE_ERROR, "Object key is not a string"); } + return raw_json_string(key); +} + +simdjson_warn_unused simdjson_really_inline error_code value_iterator::field_value() noexcept { + assert_at_child(); + + if (*_json_iter->advance() != ':') { return _json_iter->report_error(TAPE_ERROR, "Missing colon in object field"); } + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::start_array() noexcept { + assert_at_start(); + + if (*_json_iter->advance() != '[') { logger::log_error(*_json_iter, "Not an array"); return INCORRECT_TYPE; } + return started_array(); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::try_start_array() noexcept { + assert_at_start(); + + if (*_json_iter->peek() != '[') { logger::log_error(*_json_iter, "Not an array"); return INCORRECT_TYPE; } + _json_iter->advance(); + return started_array(); +} + +simdjson_warn_unused simdjson_really_inline bool value_iterator::started_array() noexcept { + if (*_json_iter->peek() == ']') { + logger::log_value(*_json_iter, "empty array"); + _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return false; + } + logger::log_start_value(*_json_iter, "array"); + _json_iter->descend_to(depth()+1); + return true; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::has_next_element() noexcept { + assert_at_next(); + + switch (*_json_iter->advance()) { + case ']': + logger::log_end_value(*_json_iter, "array"); + _json_iter->ascend_to(depth()-1); + return false; + case ',': + _json_iter->descend_to(depth()+1); + return true; + default: + return _json_iter->report_error(TAPE_ERROR, "Missing comma between array elements"); + } +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::parse_bool(const uint8_t *json) const noexcept { + auto not_true = atomparsing::str4ncmp(json, "true"); + auto not_false = atomparsing::str4ncmp(json, "fals") | (json[4] ^ 'e'); + bool error = (not_true && not_false) || jsoncharutils::is_not_structural_or_whitespace(json[not_true ? 5 : 4]); + if (error) { return incorrect_type_error("Not a boolean"); } + return simdjson_result(!not_true); +} +simdjson_really_inline bool value_iterator::parse_null(const uint8_t *json) const noexcept { + return !atomparsing::str4ncmp(json, "null") && jsoncharutils::is_structural_or_whitespace(json[4]); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_string() noexcept { + return get_raw_json_string().unescape(_json_iter->string_buf_loc()); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_raw_json_string() noexcept { + auto json = advance_scalar("string"); + if (*json != '"') { return incorrect_type_error("Not a string"); } + return raw_json_string(json+1); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_uint64() noexcept { + return numberparsing::parse_unsigned(advance_non_root_scalar("uint64")); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_int64() noexcept { + return numberparsing::parse_integer(advance_non_root_scalar("int64")); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_double() noexcept { + return numberparsing::parse_double(advance_non_root_scalar("double")); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_bool() noexcept { + return parse_bool(advance_non_root_scalar("bool")); +} +simdjson_really_inline bool value_iterator::is_null() noexcept { + return parse_null(advance_non_root_scalar("null")); +} + +constexpr const uint32_t MAX_INT_LENGTH = 1024; + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_string() noexcept { + return get_string(); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_raw_json_string() noexcept { + return get_raw_json_string(); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_uint64() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("uint64"); + uint8_t tmpbuf[20+1]; // <20 digits> is the longest possible unsigned integer + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { logger::log_error(*_json_iter, _start_position, depth(), "Root number more than 20 characters"); return NUMBER_ERROR; } + return numberparsing::parse_unsigned(tmpbuf); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_int64() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("int64"); + uint8_t tmpbuf[20+1]; // -<19 digits> is the longest possible integer + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { logger::log_error(*_json_iter, _start_position, depth(), "Root number more than 20 characters"); return NUMBER_ERROR; } + return numberparsing::parse_integer(tmpbuf); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_double() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("double"); + // Per https://www.exploringbinary.com/maximum-number-of-decimal-digits-in-binary-floating-point-numbers/, 1074 is the maximum number of significant fractional digits. Add 8 more digits for the biggest number: -0.e-308. + uint8_t tmpbuf[1074+8+1]; + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { logger::log_error(*_json_iter, _start_position, depth(), "Root number more than 1082 characters"); return NUMBER_ERROR; } + return numberparsing::parse_double(tmpbuf); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_bool() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("bool"); + uint8_t tmpbuf[5+1]; + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { return incorrect_type_error("Not a boolean"); } + return parse_bool(tmpbuf); +} +simdjson_really_inline bool value_iterator::is_root_null() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("null"); + return max_len >= 4 && !atomparsing::str4ncmp(json, "null") && + (max_len == 4 || jsoncharutils::is_structural_or_whitespace(json[5])); +} + +simdjson_warn_unused simdjson_really_inline error_code value_iterator::skip_child() noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth >= _depth ); + + return _json_iter->skip_child(depth()); +} + +simdjson_really_inline value_iterator value_iterator::child() const noexcept { + assert_at_child(); + return { _json_iter, depth()+1, _json_iter->token.position() }; +} + +simdjson_really_inline bool value_iterator::is_open() const noexcept { + return _json_iter->depth() >= depth(); +} + +simdjson_really_inline bool value_iterator::at_eof() const noexcept { + return _json_iter->at_eof(); +} + +simdjson_really_inline bool value_iterator::at_start() const noexcept { + return _json_iter->token.index == _start_position; +} + +simdjson_really_inline bool value_iterator::at_first_field() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + return _json_iter->token.index == _start_position + 1; +} + +simdjson_really_inline void value_iterator::abandon() noexcept { + _json_iter->abandon(); +} + + +simdjson_warn_unused simdjson_really_inline depth_t value_iterator::depth() const noexcept { + return _depth; +} +simdjson_warn_unused simdjson_really_inline error_code value_iterator::error() const noexcept { + return _json_iter->error; +} +simdjson_warn_unused simdjson_really_inline uint8_t *&value_iterator::string_buf_loc() noexcept { + return _json_iter->string_buf_loc(); +} +simdjson_warn_unused simdjson_really_inline const json_iterator &value_iterator::json_iter() const noexcept { + return *_json_iter; +} +simdjson_warn_unused simdjson_really_inline json_iterator &value_iterator::json_iter() noexcept { + return *_json_iter; +} + +simdjson_really_inline const uint8_t *value_iterator::peek_scalar() const noexcept { + return _json_iter->peek(_start_position); +} +simdjson_really_inline uint32_t value_iterator::peek_scalar_length() const noexcept { + return _json_iter->peek_length(_start_position); +} + +simdjson_really_inline const uint8_t *value_iterator::advance_scalar(const char *type) const noexcept { + logger::log_value(*_json_iter, _start_position, depth(), type); + // If we're not at the position anymore, we don't want to advance the cursor. + if (!is_at_start()) { return peek_scalar(); } + + // Get the JSON and advance the cursor, decreasing depth to signify that we have retrieved the value. + assert_at_start(); + auto result = _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return result; +} +simdjson_really_inline const uint8_t *value_iterator::advance_root_scalar(const char *type) const noexcept { + logger::log_value(*_json_iter, _start_position, depth(), type); + if (!is_at_start()) { return peek_scalar(); } + + assert_at_root(); + auto result = _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return result; +} +simdjson_really_inline const uint8_t *value_iterator::advance_non_root_scalar(const char *type) const noexcept { + logger::log_value(*_json_iter, _start_position, depth(), type); + if (!is_at_start()) { return peek_scalar(); } + + assert_at_non_root_start(); + auto result = _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return result; +} + +simdjson_really_inline error_code value_iterator::incorrect_type_error(const char *message) const noexcept { + logger::log_error(*_json_iter, _start_position, depth(), message); + return INCORRECT_TYPE; +} + +simdjson_really_inline bool value_iterator::is_at_start() const noexcept { + return _json_iter->token.index == _start_position; +} + +simdjson_really_inline void value_iterator::assert_at_start() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index == _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth == _depth ); + SIMDJSON_ASSUME( _depth > 0 ); +} + +simdjson_really_inline void value_iterator::assert_at_next() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth == _depth ); + SIMDJSON_ASSUME( _depth > 0 ); +} + +simdjson_really_inline void value_iterator::assert_at_child() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth == _depth + 1 ); + SIMDJSON_ASSUME( _depth > 0 ); +} + +simdjson_really_inline void value_iterator::assert_at_root() const noexcept { + assert_at_start(); + SIMDJSON_ASSUME( _depth == 1 ); +} + +simdjson_really_inline void value_iterator::assert_at_non_root_start() const noexcept { + assert_at_start(); + SIMDJSON_ASSUME( _depth > 1 ); +} + + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(westmere::ondemand::value_iterator &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/array_iterator-inl.h */ +namespace simdjson { +namespace westmere { +namespace ondemand { + +simdjson_really_inline array_iterator::array_iterator(const value_iterator &_iter) noexcept + : iter{_iter} +{} + +simdjson_really_inline simdjson_result array_iterator::operator*() noexcept { + if (iter.error()) { iter.abandon(); return iter.error(); } + return value(iter.child()); +} +simdjson_really_inline bool array_iterator::operator==(const array_iterator &other) const noexcept { + return !(*this != other); +} +simdjson_really_inline bool array_iterator::operator!=(const array_iterator &) const noexcept { + return iter.is_open(); +} +simdjson_really_inline array_iterator &array_iterator::operator++() noexcept { + error_code error; + // PERF NOTE this is a safety rail ... users should exit loops as soon as they receive an error, so we'll never get here. + // However, it does not seem to make a perf difference, so we add it out of an abundance of caution. + if ((error = iter.error()) ) { return *this; } + if ((error = iter.skip_child() )) { return *this; } + if ((error = iter.has_next_element().error() )) { return *this; } + return *this; +} + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + westmere::ondemand::array_iterator &&value +) noexcept + : westmere::implementation_simdjson_result_base(std::forward(value)) +{ +} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : westmere::implementation_simdjson_result_base({}, error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::operator*() noexcept { + if (this->error()) { this->second = SUCCESS; return this->error(); } + return *this->first; +} +simdjson_really_inline bool simdjson_result::operator==(const simdjson_result &other) const noexcept { + if (this->error()) { return true; } + return this->first == other.first; +} +simdjson_really_inline bool simdjson_result::operator!=(const simdjson_result &other) const noexcept { + if (this->error()) { return false; } + return this->first != other.first; +} +simdjson_really_inline simdjson_result &simdjson_result::operator++() noexcept { + if (this->error()) { return *this; } + ++(this->first); + return *this; +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/object_iterator-inl.h */ +namespace simdjson { +namespace westmere { +namespace ondemand { + +// +// object_iterator +// + +simdjson_really_inline object_iterator::object_iterator(const value_iterator &_iter) noexcept + : iter{_iter} +{} + +simdjson_really_inline simdjson_result object_iterator::operator*() noexcept { + error_code error = iter.error(); + if (error) { iter.abandon(); return error; } + auto result = field::start(iter); + // TODO this is a safety rail ... users should exit loops as soon as they receive an error. + // Nonetheless, let's see if performance is OK with this if statement--the compiler may give it to us for free. + if (result.error()) { iter.abandon(); } + return result; +} +simdjson_really_inline bool object_iterator::operator==(const object_iterator &other) const noexcept { + return !(*this != other); +} +simdjson_really_inline bool object_iterator::operator!=(const object_iterator &) const noexcept { + return iter.is_open(); +} +simdjson_really_inline object_iterator &object_iterator::operator++() noexcept { + // TODO this is a safety rail ... users should exit loops as soon as they receive an error. + // Nonetheless, let's see if performance is OK with this if statement--the compiler may give it to us for free. + if (!iter.is_open()) { return *this; } // Iterator will be released if there is an error + + simdjson_unused error_code error; + if ((error = iter.skip_child() )) { return *this; } + + simdjson_unused bool has_value; + if ((error = iter.has_next_field().get(has_value) )) { return *this; }; + return *this; +} + +// +// ### Live States +// +// While iterating or looking up values, depth >= iter.depth. at_start may vary. Error is +// always SUCCESS: +// +// - Start: This is the state when the object is first found and the iterator is just past the {. +// In this state, at_start == true. +// - Next: After we hand a scalar value to the user, or an array/object which they then fully +// iterate over, the iterator is at the , or } before the next value. In this state, +// depth == iter.depth, at_start == false, and error == SUCCESS. +// - Unfinished Business: When we hand an array/object to the user which they do not fully +// iterate over, we need to finish that iteration by skipping child values until we reach the +// Next state. In this state, depth > iter.depth, at_start == false, and error == SUCCESS. +// +// ## Error States +// +// In error states, we will yield exactly one more value before stopping. iter.depth == depth +// and at_start is always false. We decrement after yielding the error, moving to the Finished +// state. +// +// - Chained Error: When the object iterator is part of an error chain--for example, in +// `for (auto tweet : doc["tweets"])`, where the tweet field may be missing or not be an +// object--we yield that error in the loop, exactly once. In this state, error != SUCCESS and +// iter.depth == depth, and at_start == false. We decrement depth when we yield the error. +// - Missing Comma Error: When the iterator ++ method discovers there is no comma between fields, +// we flag that as an error and treat it exactly the same as a Chained Error. In this state, +// error == TAPE_ERROR, iter.depth == depth, and at_start == false. +// +// Errors that occur while reading a field to give to the user (such as when the key is not a +// string or the field is missing a colon) are yielded immediately. Depth is then decremented, +// moving to the Finished state without transitioning through an Error state at all. +// +// ## Terminal State +// +// The terminal state has iter.depth < depth. at_start is always false. +// +// - Finished: When we have reached a }, we are finished. We signal this by decrementing depth. +// In this state, iter.depth < depth, at_start == false, and error == SUCCESS. +// + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + westmere::ondemand::object_iterator &&value +) noexcept + : implementation_simdjson_result_base(std::forward(value)) +{ +} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base({}, error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::operator*() noexcept { + if (error()) { second = SUCCESS; return error(); } + return *first; +} +// Assumes it's being compared with the end. true if depth < iter->depth. +simdjson_really_inline bool simdjson_result::operator==(const simdjson_result &other) const noexcept { + if (error()) { return true; } + return first == other.first; +} +// Assumes it's being compared with the end. true if depth >= iter->depth. +simdjson_really_inline bool simdjson_result::operator!=(const simdjson_result &other) const noexcept { + if (error()) { return false; } + return first != other.first; +} +// Checks for ']' and ',' +simdjson_really_inline simdjson_result &simdjson_result::operator++() noexcept { + if (error()) { return *this; } + ++first; + return *this; +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/array-inl.h */ +namespace simdjson { +namespace westmere { +namespace ondemand { + +// +// ### Live States +// +// While iterating or looking up values, depth >= iter->depth. at_start may vary. Error is +// always SUCCESS: +// +// - Start: This is the state when the array is first found and the iterator is just past the `{`. +// In this state, at_start == true. +// - Next: After we hand a scalar value to the user, or an array/object which they then fully +// iterate over, the iterator is at the `,` before the next value (or `]`). In this state, +// depth == iter->depth, at_start == false, and error == SUCCESS. +// - Unfinished Business: When we hand an array/object to the user which they do not fully +// iterate over, we need to finish that iteration by skipping child values until we reach the +// Next state. In this state, depth > iter->depth, at_start == false, and error == SUCCESS. +// +// ## Error States +// +// In error states, we will yield exactly one more value before stopping. iter->depth == depth +// and at_start is always false. We decrement after yielding the error, moving to the Finished +// state. +// +// - Chained Error: When the array iterator is part of an error chain--for example, in +// `for (auto tweet : doc["tweets"])`, where the tweet element may be missing or not be an +// array--we yield that error in the loop, exactly once. In this state, error != SUCCESS and +// iter->depth == depth, and at_start == false. We decrement depth when we yield the error. +// - Missing Comma Error: When the iterator ++ method discovers there is no comma between elements, +// we flag that as an error and treat it exactly the same as a Chained Error. In this state, +// error == TAPE_ERROR, iter->depth == depth, and at_start == false. +// +// ## Terminal State +// +// The terminal state has iter->depth < depth. at_start is always false. +// +// - Finished: When we have reached a `]` or have reported an error, we are finished. We signal this +// by decrementing depth. In this state, iter->depth < depth, at_start == false, and +// error == SUCCESS. +// + +simdjson_really_inline array::array(const value_iterator &_iter) noexcept + : iter{_iter} +{ +} + +simdjson_really_inline simdjson_result array::start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.start_array().get(has_value) ); + return array(iter); +} +simdjson_really_inline simdjson_result array::try_start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.try_start_array().get(has_value) ); + return array(iter); +} +simdjson_really_inline array array::started(value_iterator &iter) noexcept { + simdjson_unused bool has_value = iter.started_array(); + return array(iter); +} + +simdjson_really_inline array_iterator array::begin() noexcept { + return iter; +} +simdjson_really_inline array_iterator array::end() noexcept { + return {}; +} + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + westmere::ondemand::array &&value +) noexcept + : implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept + : implementation_simdjson_result_base(error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::begin() noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() noexcept { + if (error()) { return error(); } + return first.end(); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array-inl.h */ +/* begin file include/simdjson/generic/ondemand/document-inl.h */ +namespace simdjson { +namespace westmere { +namespace ondemand { + +simdjson_really_inline document::document(ondemand::json_iterator &&_iter) noexcept + : iter{std::forward(_iter)} +{ + logger::log_start_value(iter, "document"); +} + +simdjson_really_inline document document::start(json_iterator &&iter) noexcept { + return document(std::forward(iter)); +} + +simdjson_really_inline value_iterator document::resume_value_iterator() noexcept { + return value_iterator(&iter, 1, iter.root_checkpoint()); +} +simdjson_really_inline value_iterator document::get_root_value_iterator() noexcept { + return resume_value_iterator(); +} +simdjson_really_inline value document::resume_value() noexcept { + return resume_value_iterator(); +} +simdjson_really_inline value document::get_root_value() noexcept { + return get_root_value_iterator(); +} + +simdjson_really_inline simdjson_result document::get_array() & noexcept { + return get_root_value().get_array(); +} +simdjson_really_inline simdjson_result document::get_object() & noexcept { + return get_root_value().get_object(); +} +simdjson_really_inline simdjson_result document::get_uint64() noexcept { + return get_root_value_iterator().get_root_uint64(); +} +simdjson_really_inline simdjson_result document::get_int64() noexcept { + return get_root_value_iterator().get_root_int64(); +} +simdjson_really_inline simdjson_result document::get_double() noexcept { + return get_root_value_iterator().get_root_double(); +} +simdjson_really_inline simdjson_result document::get_string() noexcept { + return get_root_value_iterator().get_root_string(); +} +simdjson_really_inline simdjson_result document::get_raw_json_string() noexcept { + return get_root_value_iterator().get_root_raw_json_string(); +} +simdjson_really_inline simdjson_result document::get_bool() noexcept { + return get_root_value_iterator().get_root_bool(); +} +simdjson_really_inline bool document::is_null() noexcept { + return get_root_value_iterator().is_root_null(); +} + +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_array(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_object(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_string(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_double(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_uint64(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_int64(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_bool(); } + +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return get_string(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_double(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_uint64(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_int64(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_bool(); } + +template simdjson_really_inline error_code document::get(T &out) & noexcept { + return get().get(out); +} +template simdjson_really_inline error_code document::get(T &out) && noexcept { + return std::forward(*this).get().get(out); +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline document::operator array() & noexcept(false) { return get_array(); } +simdjson_really_inline document::operator object() & noexcept(false) { return get_object(); } +simdjson_really_inline document::operator uint64_t() noexcept(false) { return get_uint64(); } +simdjson_really_inline document::operator int64_t() noexcept(false) { return get_int64(); } +simdjson_really_inline document::operator double() noexcept(false) { return get_double(); } +simdjson_really_inline document::operator std::string_view() noexcept(false) { return get_string(); } +simdjson_really_inline document::operator raw_json_string() noexcept(false) { return get_raw_json_string(); } +simdjson_really_inline document::operator bool() noexcept(false) { return get_bool(); } +#endif + +simdjson_really_inline simdjson_result document::begin() & noexcept { + return get_array().begin(); +} +simdjson_really_inline simdjson_result document::end() & noexcept { + return {}; +} + +simdjson_really_inline simdjson_result document::find_field(std::string_view key) & noexcept { + return resume_value().find_field(key); +} +simdjson_really_inline simdjson_result document::find_field(const char *key) & noexcept { + return resume_value().find_field(key); +} +simdjson_really_inline simdjson_result document::find_field_unordered(std::string_view key) & noexcept { + return resume_value().find_field_unordered(key); +} +simdjson_really_inline simdjson_result document::find_field_unordered(const char *key) & noexcept { + return resume_value().find_field_unordered(key); +} +simdjson_really_inline simdjson_result document::operator[](std::string_view key) & noexcept { + return resume_value()[key]; +} +simdjson_really_inline simdjson_result document::operator[](const char *key) & noexcept { + return resume_value()[key]; +} + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + westmere::ondemand::document &&value +) noexcept : + implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept : + implementation_simdjson_result_base( + error + ) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::begin() & noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() & noexcept { + return {}; +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](const char *key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::get_array() & noexcept { + if (error()) { return error(); } + return first.get_array(); +} +simdjson_really_inline simdjson_result simdjson_result::get_object() & noexcept { + if (error()) { return error(); } + return first.get_object(); +} +simdjson_really_inline simdjson_result simdjson_result::get_uint64() noexcept { + if (error()) { return error(); } + return first.get_uint64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_int64() noexcept { + if (error()) { return error(); } + return first.get_int64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_double() noexcept { + if (error()) { return error(); } + return first.get_double(); +} +simdjson_really_inline simdjson_result simdjson_result::get_string() noexcept { + if (error()) { return error(); } + return first.get_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_raw_json_string() noexcept { + if (error()) { return error(); } + return first.get_raw_json_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_bool() noexcept { + if (error()) { return error(); } + return first.get_bool(); +} +simdjson_really_inline bool simdjson_result::is_null() noexcept { + if (error()) { return error(); } + return first.is_null(); +} + +template +simdjson_really_inline simdjson_result simdjson_result::get() & noexcept { + if (error()) { return error(); } + return first.get(); +} +template +simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first).get(); +} +template +simdjson_really_inline error_code simdjson_result::get(T &out) & noexcept { + if (error()) { return error(); } + return first.get(out); +} +template +simdjson_really_inline error_code simdjson_result::get(T &out) && noexcept { + if (error()) { return error(); } + return std::forward(first).get(out); +} + +template<> simdjson_really_inline simdjson_result simdjson_result::get() & noexcept = delete; +template<> simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first); +} +template<> simdjson_really_inline error_code simdjson_result::get(westmere::ondemand::document &out) & noexcept = delete; +template<> simdjson_really_inline error_code simdjson_result::get(westmere::ondemand::document &out) && noexcept { + if (error()) { return error(); } + out = std::forward(first); + return SUCCESS; +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline simdjson_result::operator westmere::ondemand::array() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator westmere::ondemand::object() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator uint64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator int64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator double() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator std::string_view() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator westmere::ondemand::raw_json_string() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator bool() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +#endif + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/document-inl.h */ +/* begin file include/simdjson/generic/ondemand/value-inl.h */ +namespace simdjson { +namespace westmere { +namespace ondemand { + +simdjson_really_inline value::value(const value_iterator &_iter) noexcept + : iter{_iter} +{ +} +simdjson_really_inline value value::start(const value_iterator &iter) noexcept { + return iter; +} +simdjson_really_inline value value::resume(const value_iterator &iter) noexcept { + return iter; +} + +simdjson_really_inline simdjson_result value::get_array() && noexcept { + return array::start(iter); +} +simdjson_really_inline simdjson_result value::get_array() & noexcept { + return array::try_start(iter); +} +simdjson_really_inline simdjson_result value::get_object() && noexcept { + return object::start(iter); +} +simdjson_really_inline simdjson_result value::get_object() & noexcept { + return object::try_start(iter); +} +simdjson_really_inline simdjson_result value::start_or_resume_object() & noexcept { + if (iter.at_start()) { + return get_object(); + } else { + return object::resume(iter); + } +} +simdjson_really_inline simdjson_result value::start_or_resume_object() && noexcept { + if (iter.at_start()) { + return get_object(); + } else { + return object::resume(iter); + } +} + +simdjson_really_inline simdjson_result value::get_raw_json_string() noexcept { + return iter.get_raw_json_string(); +} +simdjson_really_inline simdjson_result value::get_string() noexcept { + return iter.get_string(); +} +simdjson_really_inline simdjson_result value::get_double() noexcept { + return iter.get_double(); +} +simdjson_really_inline simdjson_result value::get_uint64() noexcept { + return iter.get_uint64(); +} +simdjson_really_inline simdjson_result value::get_int64() noexcept { + return iter.get_int64(); +} +simdjson_really_inline simdjson_result value::get_bool() noexcept { + return iter.get_bool(); +} +simdjson_really_inline bool value::is_null() noexcept { + return iter.is_null(); +} + +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_array(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_object(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_string(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_double(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_uint64(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_int64(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_bool(); } + +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_array(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_object(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_string(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_double(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_uint64(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_int64(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_bool(); } + +template simdjson_really_inline error_code value::get(T &out) & noexcept { + return get().get(out); +} +template simdjson_really_inline error_code value::get(T &out) && noexcept { + return std::forward(*this).get().get(out); +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline value::operator array() && noexcept(false) { + return std::forward(*this).get_array(); +} +simdjson_really_inline value::operator array() & noexcept(false) { + return std::forward(*this).get_array(); +} +simdjson_really_inline value::operator object() && noexcept(false) { + return std::forward(*this).get_object(); +} +simdjson_really_inline value::operator object() & noexcept(false) { + return std::forward(*this).get_object(); +} +simdjson_really_inline value::operator uint64_t() noexcept(false) { + return get_uint64(); +} +simdjson_really_inline value::operator int64_t() noexcept(false) { + return get_int64(); +} +simdjson_really_inline value::operator double() noexcept(false) { + return get_double(); +} +simdjson_really_inline value::operator std::string_view() noexcept(false) { + return get_string(); +} +simdjson_really_inline value::operator raw_json_string() noexcept(false) { + return get_raw_json_string(); +} +simdjson_really_inline value::operator bool() noexcept(false) { + return get_bool(); +} +#endif + +simdjson_really_inline simdjson_result value::begin() & noexcept { + return get_array().begin(); +} +simdjson_really_inline simdjson_result value::end() & noexcept { + return {}; +} + +simdjson_really_inline simdjson_result value::find_field(std::string_view key) & noexcept { + return start_or_resume_object().find_field(key); +} +simdjson_really_inline simdjson_result value::find_field(std::string_view key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field(key); +} +simdjson_really_inline simdjson_result value::find_field(const char *key) & noexcept { + return start_or_resume_object().find_field(key); +} +simdjson_really_inline simdjson_result value::find_field(const char *key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field(key); +} + +simdjson_really_inline simdjson_result value::find_field_unordered(std::string_view key) & noexcept { + return start_or_resume_object().find_field_unordered(key); +} +simdjson_really_inline simdjson_result value::find_field_unordered(std::string_view key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field_unordered(key); +} +simdjson_really_inline simdjson_result value::find_field_unordered(const char *key) & noexcept { + return start_or_resume_object().find_field_unordered(key); +} +simdjson_really_inline simdjson_result value::find_field_unordered(const char *key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field_unordered(key); +} + +simdjson_really_inline simdjson_result value::operator[](std::string_view key) & noexcept { + return start_or_resume_object()[key]; +} +simdjson_really_inline simdjson_result value::operator[](std::string_view key) && noexcept { + return std::forward(*this).start_or_resume_object()[key]; +} +simdjson_really_inline simdjson_result value::operator[](const char *key) & noexcept { + return start_or_resume_object()[key]; +} +simdjson_really_inline simdjson_result value::operator[](const char *key) && noexcept { + return std::forward(*this).start_or_resume_object()[key]; +} + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + westmere::ondemand::value &&value +) noexcept : + implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept : + implementation_simdjson_result_base(error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::begin() & noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() & noexcept { + if (error()) { return error(); } + return {}; +} + +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(const char *key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field(key); +} + +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(const char *key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field_unordered(key); +} + +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first)[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](const char *key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](const char *key) && noexcept { + if (error()) { return error(); } + return std::forward(first)[key]; +} + +simdjson_really_inline simdjson_result simdjson_result::get_array() & noexcept { + if (error()) { return error(); } + return first.get_array(); +} +simdjson_really_inline simdjson_result simdjson_result::get_array() && noexcept { + if (error()) { return error(); } + return std::forward(first).get_array(); +} +simdjson_really_inline simdjson_result simdjson_result::get_object() & noexcept { + if (error()) { return error(); } + return first.get_object(); +} +simdjson_really_inline simdjson_result simdjson_result::get_object() && noexcept { + if (error()) { return error(); } + return std::forward(first).get_object(); +} +simdjson_really_inline simdjson_result simdjson_result::get_uint64() noexcept { + if (error()) { return error(); } + return first.get_uint64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_int64() noexcept { + if (error()) { return error(); } + return first.get_int64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_double() noexcept { + if (error()) { return error(); } + return first.get_double(); +} +simdjson_really_inline simdjson_result simdjson_result::get_string() noexcept { + if (error()) { return error(); } + return first.get_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_raw_json_string() noexcept { + if (error()) { return error(); } + return first.get_raw_json_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_bool() noexcept { + if (error()) { return error(); } + return first.get_bool(); +} +simdjson_really_inline bool simdjson_result::is_null() noexcept { + if (error()) { return false; } + return first.is_null(); +} + +template simdjson_really_inline simdjson_result simdjson_result::get() & noexcept { + if (error()) { return error(); } + return first.get(); +} +template simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first).get(); +} +template simdjson_really_inline error_code simdjson_result::get(T &out) & noexcept { + if (error()) { return error(); } + return first.get(out); +} +template simdjson_really_inline error_code simdjson_result::get(T &out) && noexcept { + if (error()) { return error(); } + return std::forward(first).get(out); +} + +template<> simdjson_really_inline simdjson_result simdjson_result::get() & noexcept { + if (error()) { return error(); } + return std::move(first); +} +template<> simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first); +} +template<> simdjson_really_inline error_code simdjson_result::get(westmere::ondemand::value &out) & noexcept { + if (error()) { return error(); } + out = first; + return SUCCESS; +} +template<> simdjson_really_inline error_code simdjson_result::get(westmere::ondemand::value &out) && noexcept { + if (error()) { return error(); } + out = std::forward(first); + return SUCCESS; +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline simdjson_result::operator westmere::ondemand::array() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator westmere::ondemand::array() && noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return std::forward(first); +} +simdjson_really_inline simdjson_result::operator westmere::ondemand::object() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator westmere::ondemand::object() && noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return std::forward(first); +} +simdjson_really_inline simdjson_result::operator uint64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator int64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator double() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator std::string_view() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator westmere::ondemand::raw_json_string() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator bool() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +#endif + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value-inl.h */ +/* begin file include/simdjson/generic/ondemand/field-inl.h */ +namespace simdjson { +namespace westmere { +namespace ondemand { + +// clang 6 doesn't think the default constructor can be noexcept, so we make it explicit +simdjson_really_inline field::field() noexcept : std::pair() {} + +simdjson_really_inline field::field(raw_json_string key, ondemand::value &&value) noexcept + : std::pair(key, std::forward(value)) +{ +} + +simdjson_really_inline simdjson_result field::start(value_iterator &parent_iter) noexcept { + raw_json_string key; + SIMDJSON_TRY( parent_iter.field_key().get(key) ); + SIMDJSON_TRY( parent_iter.field_value() ); + return field::start(parent_iter, key); +} + +simdjson_really_inline simdjson_result field::start(const value_iterator &parent_iter, raw_json_string key) noexcept { + return field(key, parent_iter.child()); +} + +simdjson_really_inline simdjson_warn_unused simdjson_result field::unescaped_key() noexcept { + SIMDJSON_ASSUME(first.buf != nullptr); // We would like to call .alive() by Visual Studio won't let us. + simdjson_result answer = first.unescape(second.iter.string_buf_loc()); + first.consume(); + return answer; +} + +simdjson_really_inline raw_json_string field::key() const noexcept { + SIMDJSON_ASSUME(first.buf != nullptr); // We would like to call .alive() by Visual Studio won't let us. + return first; +} + +simdjson_really_inline value &field::value() & noexcept { + return second; +} + +simdjson_really_inline value field::value() && noexcept { + return std::forward(*this).second; +} + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + westmere::ondemand::field &&value +) noexcept : + implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept : + implementation_simdjson_result_base(error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::key() noexcept { + if (error()) { return error(); } + return first.key(); +} +simdjson_really_inline simdjson_result simdjson_result::unescaped_key() noexcept { + if (error()) { return error(); } + return first.unescaped_key(); +} +simdjson_really_inline simdjson_result simdjson_result::value() noexcept { + if (error()) { return error(); } + return std::move(first.value()); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/field-inl.h */ +/* begin file include/simdjson/generic/ondemand/object-inl.h */ +namespace simdjson { +namespace westmere { +namespace ondemand { + +simdjson_really_inline simdjson_result object::find_field_unordered(const std::string_view key) & noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_unordered_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} +simdjson_really_inline simdjson_result object::find_field_unordered(const std::string_view key) && noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_unordered_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} +simdjson_really_inline simdjson_result object::operator[](const std::string_view key) & noexcept { + return find_field_unordered(key); +} +simdjson_really_inline simdjson_result object::operator[](const std::string_view key) && noexcept { + return std::forward(*this).find_field_unordered(key); +} +simdjson_really_inline simdjson_result object::find_field(const std::string_view key) & noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} +simdjson_really_inline simdjson_result object::find_field(const std::string_view key) && noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} + +simdjson_really_inline simdjson_result object::start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.start_object().get(has_value) ); + return object(iter); +} +simdjson_really_inline simdjson_result object::try_start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.try_start_object().get(has_value) ); + return object(iter); +} +simdjson_really_inline object object::started(value_iterator &iter) noexcept { + simdjson_unused bool has_value = iter.started_object(); + return iter; +} +simdjson_really_inline object object::resume(const value_iterator &iter) noexcept { + return iter; +} + +simdjson_really_inline object::object(const value_iterator &_iter) noexcept + : iter{_iter} +{ +} + +simdjson_really_inline object_iterator object::begin() noexcept { + // Expanded version of SIMDJSON_ASSUME( iter.at_field_start() || !iter.is_open() ) + SIMDJSON_ASSUME( (iter._json_iter->token.index == iter._start_position + 1) || (iter._json_iter->_depth < iter._depth) ); + return iter; +} +simdjson_really_inline object_iterator object::end() noexcept { + return {}; +} + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(westmere::ondemand::object &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +simdjson_really_inline simdjson_result simdjson_result::begin() noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() noexcept { + if (error()) { return error(); } + return first.end(); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first)[key]; +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field(key); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object-inl.h */ +/* begin file include/simdjson/generic/ondemand/parser-inl.h */ +namespace simdjson { +namespace westmere { +namespace ondemand { + +simdjson_warn_unused simdjson_really_inline error_code parser::allocate(size_t new_capacity, size_t new_max_depth) noexcept { + if (string_buf && new_capacity == _capacity && new_max_depth == _max_depth) { return SUCCESS; } + + // string_capacity copied from document::allocate + _capacity = 0; + _max_depth = 0; + size_t string_capacity = SIMDJSON_ROUNDUP_N(5 * new_capacity / 3 + SIMDJSON_PADDING, 64); + string_buf.reset(new (std::nothrow) uint8_t[string_capacity]); + if (dom_parser) { + SIMDJSON_TRY( dom_parser->set_capacity(new_capacity) ); + SIMDJSON_TRY( dom_parser->set_max_depth(new_max_depth) ); + } else { + SIMDJSON_TRY( simdjson::active_implementation->create_dom_parser_implementation(new_capacity, new_max_depth, dom_parser) ); + } + _capacity = new_capacity; + _max_depth = new_max_depth; + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result parser::iterate(const padded_string &buf) & noexcept { + // Allocate if needed + if (_capacity < buf.size() || !string_buf) { + SIMDJSON_TRY( allocate(buf.size(), _max_depth) ); + } + + // Run stage 1. + SIMDJSON_TRY( dom_parser->stage1((const uint8_t *)buf.data(), buf.size(), false) ); + return document::start({ (const uint8_t *)buf.data(), this }); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result parser::iterate(const simdjson_result &result) & noexcept { + // We don't presently have a way to temporarily get a const T& from a simdjson_result without throwing an exception + SIMDJSON_TRY( result.error() ); + const padded_string &buf = result.value_unsafe(); + return iterate(buf); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result parser::iterate_raw(const padded_string &buf) & noexcept { + // Allocate if needed + if (_capacity < buf.size()) { + SIMDJSON_TRY( allocate(buf.size(), _max_depth) ); + } + + // Run stage 1. + SIMDJSON_TRY( dom_parser->stage1((const uint8_t *)buf.data(), buf.size(), false) ); + return json_iterator((const uint8_t *)buf.data(), this); +} + +} // namespace ondemand +} // namespace westmere +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(westmere::ondemand::parser &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/parser-inl.h */ +/* end file include/simdjson/generic/ondemand-inl.h */ + +/* begin file include/simdjson/westmere/end.h */ +SIMDJSON_UNTARGET_REGION +#undef westmere +/* end file include/simdjson/westmere/end.h */ + +#endif // SIMDJSON_IMPLEMENTATION_WESTMERE +#endif // SIMDJSON_WESTMERE_COMMON_H +/* end file include/simdjson/westmere.h */ +/* begin file include/simdjson/ppc64.h */ +#ifndef SIMDJSON_PPC64_H +#define SIMDJSON_PPC64_H + +#ifdef SIMDJSON_FALLBACK_H +#error "ppc64.h must be included before fallback.h" +#endif + + +#ifndef SIMDJSON_IMPLEMENTATION_PPC64 +#define SIMDJSON_IMPLEMENTATION_PPC64 (SIMDJSON_IS_PPC64) +#endif +#define SIMDJSON_CAN_ALWAYS_RUN_PPC64 SIMDJSON_IMPLEMENTATION_PPC64 && SIMDJSON_IS_PPC64 + + + +#if SIMDJSON_IMPLEMENTATION_PPC64 + +namespace simdjson { +/** + * Implementation for ALTIVEC (PPC64). + */ +namespace ppc64 { +} // namespace ppc64 +} // namespace simdjson + +/* begin file include/simdjson/ppc64/implementation.h */ +#ifndef SIMDJSON_PPC64_IMPLEMENTATION_H +#define SIMDJSON_PPC64_IMPLEMENTATION_H + + +namespace simdjson { +namespace ppc64 { + +namespace { +using namespace simdjson; +using namespace simdjson::dom; +} // namespace + +class implementation final : public simdjson::implementation { +public: + simdjson_really_inline implementation() + : simdjson::implementation("ppc64", "PPC64 ALTIVEC", + internal::instruction_set::ALTIVEC) {} + simdjson_warn_unused error_code create_dom_parser_implementation( + size_t capacity, size_t max_length, + std::unique_ptr &dst) + const noexcept final; + simdjson_warn_unused error_code minify(const uint8_t *buf, size_t len, + uint8_t *dst, + size_t &dst_len) const noexcept final; + simdjson_warn_unused bool validate_utf8(const char *buf, + size_t len) const noexcept final; +}; + +} // namespace ppc64 +} // namespace simdjson + +#endif // SIMDJSON_PPC64_IMPLEMENTATION_H +/* end file include/simdjson/ppc64/implementation.h */ + +/* begin file include/simdjson/ppc64/begin.h */ +// redefining SIMDJSON_IMPLEMENTATION to "ppc64" +// #define SIMDJSON_IMPLEMENTATION ppc64 +/* end file include/simdjson/ppc64/begin.h */ + +// Declarations +/* begin file include/simdjson/generic/dom_parser_implementation.h */ + +namespace simdjson { +namespace ppc64 { + +// expectation: sizeof(open_container) = 64/8. +struct open_container { + uint32_t tape_index; // where, on the tape, does the scope ([,{) begins + uint32_t count; // how many elements in the scope +}; // struct open_container + +static_assert(sizeof(open_container) == 64/8, "Open container must be 64 bits"); + +class dom_parser_implementation final : public internal::dom_parser_implementation { +public: + /** Tape location of each open { or [ */ + std::unique_ptr open_containers{}; + /** Whether each open container is a [ or { */ + std::unique_ptr is_array{}; + /** Buffer passed to stage 1 */ + const uint8_t *buf{}; + /** Length passed to stage 1 */ + size_t len{0}; + /** Document passed to stage 2 */ + dom::document *doc{}; + + inline dom_parser_implementation() noexcept; + inline dom_parser_implementation(dom_parser_implementation &&other) noexcept; + inline dom_parser_implementation &operator=(dom_parser_implementation &&other) noexcept; + dom_parser_implementation(const dom_parser_implementation &) = delete; + dom_parser_implementation &operator=(const dom_parser_implementation &) = delete; + + simdjson_warn_unused error_code parse(const uint8_t *buf, size_t len, dom::document &doc) noexcept final; + simdjson_warn_unused error_code stage1(const uint8_t *buf, size_t len, bool partial) noexcept final; + simdjson_warn_unused error_code check_for_unclosed_array() noexcept; + simdjson_warn_unused error_code stage2(dom::document &doc) noexcept final; + simdjson_warn_unused error_code stage2_next(dom::document &doc) noexcept final; + inline simdjson_warn_unused error_code set_capacity(size_t capacity) noexcept final; + inline simdjson_warn_unused error_code set_max_depth(size_t max_depth) noexcept final; +private: + simdjson_really_inline simdjson_warn_unused error_code set_capacity_stage1(size_t capacity); + +}; + +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { +namespace ppc64 { + +inline dom_parser_implementation::dom_parser_implementation() noexcept = default; +inline dom_parser_implementation::dom_parser_implementation(dom_parser_implementation &&other) noexcept = default; +inline dom_parser_implementation &dom_parser_implementation::operator=(dom_parser_implementation &&other) noexcept = default; + +// Leaving these here so they can be inlined if so desired +inline simdjson_warn_unused error_code dom_parser_implementation::set_capacity(size_t capacity) noexcept { + // Stage 1 index output + size_t max_structures = SIMDJSON_ROUNDUP_N(capacity, 64) + 2 + 7; + structural_indexes.reset( new (std::nothrow) uint32_t[max_structures] ); + if (!structural_indexes) { _capacity = 0; return MEMALLOC; } + structural_indexes[0] = 0; + n_structural_indexes = 0; + + _capacity = capacity; + return SUCCESS; +} + +inline simdjson_warn_unused error_code dom_parser_implementation::set_max_depth(size_t max_depth) noexcept { + // Stage 2 stacks + open_containers.reset(new (std::nothrow) open_container[max_depth]); + is_array.reset(new (std::nothrow) bool[max_depth]); + if (!is_array || !open_containers) { _max_depth = 0; return MEMALLOC; } + + _max_depth = max_depth; + return SUCCESS; +} + +} // namespace ppc64 +} // namespace simdjson +/* end file include/simdjson/generic/dom_parser_implementation.h */ +/* begin file include/simdjson/ppc64/intrinsics.h */ +#ifndef SIMDJSON_PPC64_INTRINSICS_H +#define SIMDJSON_PPC64_INTRINSICS_H + + +// This should be the correct header whether +// you use visual studio or other compilers. +#include + +// These are defined by altivec.h in GCC toolchain, it is safe to undef them. +#ifdef bool +#undef bool +#endif + +#ifdef vector +#undef vector +#endif + +#endif // SIMDJSON_PPC64_INTRINSICS_H +/* end file include/simdjson/ppc64/intrinsics.h */ +/* begin file include/simdjson/ppc64/bitmanipulation.h */ +#ifndef SIMDJSON_PPC64_BITMANIPULATION_H +#define SIMDJSON_PPC64_BITMANIPULATION_H + +namespace simdjson { +namespace ppc64 { +namespace { + +// We sometimes call trailing_zero on inputs that are zero, +// but the algorithms do not end up using the returned value. +// Sadly, sanitizers are not smart enough to figure it out. +NO_SANITIZE_UNDEFINED +simdjson_really_inline int trailing_zeroes(uint64_t input_num) { +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO + unsigned long ret; + // Search the mask data from least significant bit (LSB) + // to the most significant bit (MSB) for a set bit (1). + _BitScanForward64(&ret, input_num); + return (int)ret; +#else // SIMDJSON_REGULAR_VISUAL_STUDIO + return __builtin_ctzll(input_num); +#endif // SIMDJSON_REGULAR_VISUAL_STUDIO +} + +/* result might be undefined when input_num is zero */ +simdjson_really_inline uint64_t clear_lowest_bit(uint64_t input_num) { + return input_num & (input_num - 1); +} + +/* result might be undefined when input_num is zero */ +simdjson_really_inline int leading_zeroes(uint64_t input_num) { +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO + unsigned long leading_zero = 0; + // Search the mask data from most significant bit (MSB) + // to least significant bit (LSB) for a set bit (1). + if (_BitScanReverse64(&leading_zero, input_num)) + return (int)(63 - leading_zero); + else + return 64; +#else + return __builtin_clzll(input_num); +#endif // SIMDJSON_REGULAR_VISUAL_STUDIO +} + +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO +simdjson_really_inline int count_ones(uint64_t input_num) { + // note: we do not support legacy 32-bit Windows + return __popcnt64(input_num); // Visual Studio wants two underscores +} +#else +simdjson_really_inline int count_ones(uint64_t input_num) { + return __builtin_popcountll(input_num); +} +#endif + +simdjson_really_inline bool add_overflow(uint64_t value1, uint64_t value2, + uint64_t *result) { +#ifdef SIMDJSON_REGULAR_VISUAL_STUDIO + *result = value1 + value2; + return *result < value1; +#else + return __builtin_uaddll_overflow(value1, value2, + (unsigned long long *)result); +#endif +} + +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson + +#endif // SIMDJSON_PPC64_BITMANIPULATION_H +/* end file include/simdjson/ppc64/bitmanipulation.h */ +/* begin file include/simdjson/ppc64/bitmask.h */ +#ifndef SIMDJSON_PPC64_BITMASK_H +#define SIMDJSON_PPC64_BITMASK_H + +namespace simdjson { +namespace ppc64 { +namespace { + +// +// Perform a "cumulative bitwise xor," flipping bits each time a 1 is +// encountered. +// +// For example, prefix_xor(00100100) == 00011100 +// +simdjson_really_inline uint64_t prefix_xor(uint64_t bitmask) { + // You can use the version below, however gcc sometimes miscompiles + // vec_pmsum_be, it happens somewhere around between 8 and 9th version. + // The performance boost was not noticeable, falling back to a usual + // implementation. + // __vector unsigned long long all_ones = {~0ull, ~0ull}; + // __vector unsigned long long mask = {bitmask, 0}; + // // Clang and GCC return different values for pmsum for ull so cast it to one. + // // Generally it is not specified by ALTIVEC ISA what is returned by + // // vec_pmsum_be. + // #if defined(__LITTLE_ENDIAN__) + // return (uint64_t)(((__vector unsigned long long)vec_pmsum_be(all_ones, mask))[0]); + // #else + // return (uint64_t)(((__vector unsigned long long)vec_pmsum_be(all_ones, mask))[1]); + // #endif + bitmask ^= bitmask << 1; + bitmask ^= bitmask << 2; + bitmask ^= bitmask << 4; + bitmask ^= bitmask << 8; + bitmask ^= bitmask << 16; + bitmask ^= bitmask << 32; + return bitmask; +} + +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson + +#endif +/* end file include/simdjson/ppc64/bitmask.h */ +/* begin file include/simdjson/ppc64/simd.h */ +#ifndef SIMDJSON_PPC64_SIMD_H +#define SIMDJSON_PPC64_SIMD_H + +#include + +namespace simdjson { +namespace ppc64 { +namespace { +namespace simd { + +using __m128i = __vector unsigned char; + +template struct base { + __m128i value; + + // Zero constructor + simdjson_really_inline base() : value{__m128i()} {} + + // Conversion from SIMD register + simdjson_really_inline base(const __m128i _value) : value(_value) {} + + // Conversion to SIMD register + simdjson_really_inline operator const __m128i &() const { + return this->value; + } + simdjson_really_inline operator __m128i &() { return this->value; } + + // Bit operations + simdjson_really_inline Child operator|(const Child other) const { + return vec_or(this->value, (__m128i)other); + } + simdjson_really_inline Child operator&(const Child other) const { + return vec_and(this->value, (__m128i)other); + } + simdjson_really_inline Child operator^(const Child other) const { + return vec_xor(this->value, (__m128i)other); + } + simdjson_really_inline Child bit_andnot(const Child other) const { + return vec_andc(this->value, (__m128i)other); + } + simdjson_really_inline Child &operator|=(const Child other) { + auto this_cast = (Child *)this; + *this_cast = *this_cast | other; + return *this_cast; + } + simdjson_really_inline Child &operator&=(const Child other) { + auto this_cast = (Child *)this; + *this_cast = *this_cast & other; + return *this_cast; + } + simdjson_really_inline Child &operator^=(const Child other) { + auto this_cast = (Child *)this; + *this_cast = *this_cast ^ other; + return *this_cast; + } +}; + +// Forward-declared so they can be used by splat and friends. +template struct simd8; + +template > +struct base8 : base> { + typedef uint16_t bitmask_t; + typedef uint32_t bitmask2_t; + + simdjson_really_inline base8() : base>() {} + simdjson_really_inline base8(const __m128i _value) : base>(_value) {} + + simdjson_really_inline Mask operator==(const simd8 other) const { + return (__m128i)vec_cmpeq(this->value, (__m128i)other); + } + + static const int SIZE = sizeof(base>::value); + + template + simdjson_really_inline simd8 prev(simd8 prev_chunk) const { + __m128i chunk = this->value; +#ifdef __LITTLE_ENDIAN__ + chunk = (__m128i)vec_reve(this->value); + prev_chunk = (__m128i)vec_reve((__m128i)prev_chunk); +#endif + chunk = (__m128i)vec_sld((__m128i)prev_chunk, (__m128i)chunk, 16 - N); +#ifdef __LITTLE_ENDIAN__ + chunk = (__m128i)vec_reve((__m128i)chunk); +#endif + return chunk; + } +}; + +// SIMD byte mask type (returned by things like eq and gt) +template <> struct simd8 : base8 { + static simdjson_really_inline simd8 splat(bool _value) { + return (__m128i)vec_splats((unsigned char)(-(!!_value))); + } + + simdjson_really_inline simd8() : base8() {} + simdjson_really_inline simd8(const __m128i _value) + : base8(_value) {} + // Splat constructor + simdjson_really_inline simd8(bool _value) + : base8(splat(_value)) {} + + simdjson_really_inline int to_bitmask() const { + __vector unsigned long long result; + const __m128i perm_mask = {0x78, 0x70, 0x68, 0x60, 0x58, 0x50, 0x48, 0x40, + 0x38, 0x30, 0x28, 0x20, 0x18, 0x10, 0x08, 0x00}; + + result = ((__vector unsigned long long)vec_vbpermq((__m128i)this->value, + (__m128i)perm_mask)); +#ifdef __LITTLE_ENDIAN__ + return static_cast(result[1]); +#else + return static_cast(result[0]); +#endif + } + simdjson_really_inline bool any() const { + return !vec_all_eq(this->value, (__m128i)vec_splats(0)); + } + simdjson_really_inline simd8 operator~() const { + return this->value ^ (__m128i)splat(true); + } +}; + +template struct base8_numeric : base8 { + static simdjson_really_inline simd8 splat(T value) { + (void)value; + return (__m128i)vec_splats(value); + } + static simdjson_really_inline simd8 zero() { return splat(0); } + static simdjson_really_inline simd8 load(const T values[16]) { + return (__m128i)(vec_vsx_ld(0, (const uint8_t *)values)); + } + // Repeat 16 values as many times as necessary (usually for lookup tables) + static simdjson_really_inline simd8 repeat_16(T v0, T v1, T v2, T v3, T v4, + T v5, T v6, T v7, T v8, T v9, + T v10, T v11, T v12, T v13, + T v14, T v15) { + return simd8(v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, v13, + v14, v15); + } + + simdjson_really_inline base8_numeric() : base8() {} + simdjson_really_inline base8_numeric(const __m128i _value) + : base8(_value) {} + + // Store to array + simdjson_really_inline void store(T dst[16]) const { + vec_vsx_st(this->value, 0, reinterpret_cast<__m128i *>(dst)); + } + + // Override to distinguish from bool version + simdjson_really_inline simd8 operator~() const { return *this ^ 0xFFu; } + + // Addition/subtraction are the same for signed and unsigned + simdjson_really_inline simd8 operator+(const simd8 other) const { + return (__m128i)((__m128i)this->value + (__m128i)other); + } + simdjson_really_inline simd8 operator-(const simd8 other) const { + return (__m128i)((__m128i)this->value - (__m128i)other); + } + simdjson_really_inline simd8 &operator+=(const simd8 other) { + *this = *this + other; + return *(simd8 *)this; + } + simdjson_really_inline simd8 &operator-=(const simd8 other) { + *this = *this - other; + return *(simd8 *)this; + } + + // Perform a lookup assuming the value is between 0 and 16 (undefined behavior + // for out of range values) + template + simdjson_really_inline simd8 lookup_16(simd8 lookup_table) const { + return (__m128i)vec_perm((__m128i)lookup_table, (__m128i)lookup_table, this->value); + } + + // Copies to 'output" all bytes corresponding to a 0 in the mask (interpreted + // as a bitset). Passing a 0 value for mask would be equivalent to writing out + // every byte to output. Only the first 16 - count_ones(mask) bytes of the + // result are significant but 16 bytes get written. Design consideration: it + // seems like a function with the signature simd8 compress(uint32_t mask) + // would be sensible, but the AVX ISA makes this kind of approach difficult. + template + simdjson_really_inline void compress(uint16_t mask, L *output) const { + using internal::BitsSetTable256mul2; + using internal::pshufb_combine_table; + using internal::thintable_epi8; + // this particular implementation was inspired by work done by @animetosho + // we do it in two steps, first 8 bytes and then second 8 bytes + uint8_t mask1 = uint8_t(mask); // least significant 8 bits + uint8_t mask2 = uint8_t(mask >> 8); // most significant 8 bits + // next line just loads the 64-bit values thintable_epi8[mask1] and + // thintable_epi8[mask2] into a 128-bit register, using only + // two instructions on most compilers. +#ifdef __LITTLE_ENDIAN__ + __m128i shufmask = (__m128i)(__vector unsigned long long){ + thintable_epi8[mask1], thintable_epi8[mask2]}; +#else + __m128i shufmask = (__m128i)(__vector unsigned long long){ + thintable_epi8[mask2], thintable_epi8[mask1]}; + shufmask = (__m128i)vec_reve((__m128i)shufmask); +#endif + // we increment by 0x08 the second half of the mask + shufmask = ((__m128i)shufmask) + + ((__m128i)(__vector int){0, 0, 0x08080808, 0x08080808}); + + // this is the version "nearly pruned" + __m128i pruned = vec_perm(this->value, this->value, shufmask); + // we still need to put the two halves together. + // we compute the popcount of the first half: + int pop1 = BitsSetTable256mul2[mask1]; + // then load the corresponding mask, what it does is to write + // only the first pop1 bytes from the first 8 bytes, and then + // it fills in with the bytes from the second 8 bytes + some filling + // at the end. + __m128i compactmask = + vec_vsx_ld(0, (const uint8_t *)(pshufb_combine_table + pop1 * 8)); + __m128i answer = vec_perm(pruned, (__m128i)vec_splats(0), compactmask); + vec_vsx_st(answer, 0, (__m128i *)(output)); + } + + template + simdjson_really_inline simd8 + lookup_16(L replace0, L replace1, L replace2, L replace3, L replace4, + L replace5, L replace6, L replace7, L replace8, L replace9, + L replace10, L replace11, L replace12, L replace13, L replace14, + L replace15) const { + return lookup_16(simd8::repeat_16( + replace0, replace1, replace2, replace3, replace4, replace5, replace6, + replace7, replace8, replace9, replace10, replace11, replace12, + replace13, replace14, replace15)); + } +}; + +// Signed bytes +template <> struct simd8 : base8_numeric { + simdjson_really_inline simd8() : base8_numeric() {} + simdjson_really_inline simd8(const __m128i _value) + : base8_numeric(_value) {} + // Splat constructor + simdjson_really_inline simd8(int8_t _value) : simd8(splat(_value)) {} + // Array constructor + simdjson_really_inline simd8(const int8_t *values) : simd8(load(values)) {} + // Member-by-member initialization + simdjson_really_inline simd8(int8_t v0, int8_t v1, int8_t v2, int8_t v3, + int8_t v4, int8_t v5, int8_t v6, int8_t v7, + int8_t v8, int8_t v9, int8_t v10, int8_t v11, + int8_t v12, int8_t v13, int8_t v14, int8_t v15) + : simd8((__m128i)(__vector signed char){v0, v1, v2, v3, v4, v5, v6, v7, + v8, v9, v10, v11, v12, v13, v14, + v15}) {} + // Repeat 16 values as many times as necessary (usually for lookup tables) + simdjson_really_inline static simd8 + repeat_16(int8_t v0, int8_t v1, int8_t v2, int8_t v3, int8_t v4, int8_t v5, + int8_t v6, int8_t v7, int8_t v8, int8_t v9, int8_t v10, int8_t v11, + int8_t v12, int8_t v13, int8_t v14, int8_t v15) { + return simd8(v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, + v13, v14, v15); + } + + // Order-sensitive comparisons + simdjson_really_inline simd8 + max_val(const simd8 other) const { + return (__m128i)vec_max((__vector signed char)this->value, + (__vector signed char)(__m128i)other); + } + simdjson_really_inline simd8 + min_val(const simd8 other) const { + return (__m128i)vec_min((__vector signed char)this->value, + (__vector signed char)(__m128i)other); + } + simdjson_really_inline simd8 + operator>(const simd8 other) const { + return (__m128i)vec_cmpgt((__vector signed char)this->value, + (__vector signed char)(__m128i)other); + } + simdjson_really_inline simd8 + operator<(const simd8 other) const { + return (__m128i)vec_cmplt((__vector signed char)this->value, + (__vector signed char)(__m128i)other); + } +}; + +// Unsigned bytes +template <> struct simd8 : base8_numeric { + simdjson_really_inline simd8() : base8_numeric() {} + simdjson_really_inline simd8(const __m128i _value) + : base8_numeric(_value) {} + // Splat constructor + simdjson_really_inline simd8(uint8_t _value) : simd8(splat(_value)) {} + // Array constructor + simdjson_really_inline simd8(const uint8_t *values) : simd8(load(values)) {} + // Member-by-member initialization + simdjson_really_inline + simd8(uint8_t v0, uint8_t v1, uint8_t v2, uint8_t v3, uint8_t v4, uint8_t v5, + uint8_t v6, uint8_t v7, uint8_t v8, uint8_t v9, uint8_t v10, + uint8_t v11, uint8_t v12, uint8_t v13, uint8_t v14, uint8_t v15) + : simd8((__m128i){v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, + v13, v14, v15}) {} + // Repeat 16 values as many times as necessary (usually for lookup tables) + simdjson_really_inline static simd8 + repeat_16(uint8_t v0, uint8_t v1, uint8_t v2, uint8_t v3, uint8_t v4, + uint8_t v5, uint8_t v6, uint8_t v7, uint8_t v8, uint8_t v9, + uint8_t v10, uint8_t v11, uint8_t v12, uint8_t v13, uint8_t v14, + uint8_t v15) { + return simd8(v0, v1, v2, v3, v4, v5, v6, v7, v8, v9, v10, v11, v12, + v13, v14, v15); + } + + // Saturated math + simdjson_really_inline simd8 + saturating_add(const simd8 other) const { + return (__m128i)vec_adds(this->value, (__m128i)other); + } + simdjson_really_inline simd8 + saturating_sub(const simd8 other) const { + return (__m128i)vec_subs(this->value, (__m128i)other); + } + + // Order-specific operations + simdjson_really_inline simd8 + max_val(const simd8 other) const { + return (__m128i)vec_max(this->value, (__m128i)other); + } + simdjson_really_inline simd8 + min_val(const simd8 other) const { + return (__m128i)vec_min(this->value, (__m128i)other); + } + // Same as >, but only guarantees true is nonzero (< guarantees true = -1) + simdjson_really_inline simd8 + gt_bits(const simd8 other) const { + return this->saturating_sub(other); + } + // Same as <, but only guarantees true is nonzero (< guarantees true = -1) + simdjson_really_inline simd8 + lt_bits(const simd8 other) const { + return other.saturating_sub(*this); + } + simdjson_really_inline simd8 + operator<=(const simd8 other) const { + return other.max_val(*this) == other; + } + simdjson_really_inline simd8 + operator>=(const simd8 other) const { + return other.min_val(*this) == other; + } + simdjson_really_inline simd8 + operator>(const simd8 other) const { + return this->gt_bits(other).any_bits_set(); + } + simdjson_really_inline simd8 + operator<(const simd8 other) const { + return this->gt_bits(other).any_bits_set(); + } + + // Bit-specific operations + simdjson_really_inline simd8 bits_not_set() const { + return (__m128i)vec_cmpeq(this->value, (__m128i)vec_splats(uint8_t(0))); + } + simdjson_really_inline simd8 bits_not_set(simd8 bits) const { + return (*this & bits).bits_not_set(); + } + simdjson_really_inline simd8 any_bits_set() const { + return ~this->bits_not_set(); + } + simdjson_really_inline simd8 any_bits_set(simd8 bits) const { + return ~this->bits_not_set(bits); + } + simdjson_really_inline bool bits_not_set_anywhere() const { + return vec_all_eq(this->value, (__m128i)vec_splats(0)); + } + simdjson_really_inline bool any_bits_set_anywhere() const { + return !bits_not_set_anywhere(); + } + simdjson_really_inline bool bits_not_set_anywhere(simd8 bits) const { + return vec_all_eq(vec_and(this->value, (__m128i)bits), + (__m128i)vec_splats(0)); + } + simdjson_really_inline bool any_bits_set_anywhere(simd8 bits) const { + return !bits_not_set_anywhere(bits); + } + template simdjson_really_inline simd8 shr() const { + return simd8( + (__m128i)vec_sr(this->value, (__m128i)vec_splat_u8(N))); + } + template simdjson_really_inline simd8 shl() const { + return simd8( + (__m128i)vec_sl(this->value, (__m128i)vec_splat_u8(N))); + } +}; + +template struct simd8x64 { + static constexpr int NUM_CHUNKS = 64 / sizeof(simd8); + static_assert(NUM_CHUNKS == 4, + "PPC64 kernel should use four registers per 64-byte block."); + const simd8 chunks[NUM_CHUNKS]; + + simd8x64(const simd8x64 &o) = delete; // no copy allowed + simd8x64 & + operator=(const simd8 other) = delete; // no assignment allowed + simd8x64() = delete; // no default constructor allowed + + simdjson_really_inline simd8x64(const simd8 chunk0, const simd8 chunk1, + const simd8 chunk2, const simd8 chunk3) + : chunks{chunk0, chunk1, chunk2, chunk3} {} + simdjson_really_inline simd8x64(const T ptr[64]) + : chunks{simd8::load(ptr), simd8::load(ptr + 16), + simd8::load(ptr + 32), simd8::load(ptr + 48)} {} + + simdjson_really_inline void store(T ptr[64]) const { + this->chunks[0].store(ptr + sizeof(simd8) * 0); + this->chunks[1].store(ptr + sizeof(simd8) * 1); + this->chunks[2].store(ptr + sizeof(simd8) * 2); + this->chunks[3].store(ptr + sizeof(simd8) * 3); + } + + simdjson_really_inline simd8 reduce_or() const { + return (this->chunks[0] | this->chunks[1]) | + (this->chunks[2] | this->chunks[3]); + } + + simdjson_really_inline void compress(uint64_t mask, T *output) const { + this->chunks[0].compress(uint16_t(mask), output); + this->chunks[1].compress(uint16_t(mask >> 16), + output + 16 - count_ones(mask & 0xFFFF)); + this->chunks[2].compress(uint16_t(mask >> 32), + output + 32 - count_ones(mask & 0xFFFFFFFF)); + this->chunks[3].compress(uint16_t(mask >> 48), + output + 48 - count_ones(mask & 0xFFFFFFFFFFFF)); + } + + simdjson_really_inline uint64_t to_bitmask() const { + uint64_t r0 = uint32_t(this->chunks[0].to_bitmask()); + uint64_t r1 = this->chunks[1].to_bitmask(); + uint64_t r2 = this->chunks[2].to_bitmask(); + uint64_t r3 = this->chunks[3].to_bitmask(); + return r0 | (r1 << 16) | (r2 << 32) | (r3 << 48); + } + + simdjson_really_inline uint64_t eq(const T m) const { + const simd8 mask = simd8::splat(m); + return simd8x64(this->chunks[0] == mask, this->chunks[1] == mask, + this->chunks[2] == mask, this->chunks[3] == mask) + .to_bitmask(); + } + + simdjson_really_inline uint64_t eq(const simd8x64 &other) const { + return simd8x64(this->chunks[0] == other.chunks[0], + this->chunks[1] == other.chunks[1], + this->chunks[2] == other.chunks[2], + this->chunks[3] == other.chunks[3]) + .to_bitmask(); + } + + simdjson_really_inline uint64_t lteq(const T m) const { + const simd8 mask = simd8::splat(m); + return simd8x64(this->chunks[0] <= mask, this->chunks[1] <= mask, + this->chunks[2] <= mask, this->chunks[3] <= mask) + .to_bitmask(); + } +}; // struct simd8x64 + +} // namespace simd +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson + +#endif // SIMDJSON_PPC64_SIMD_INPUT_H +/* end file include/simdjson/ppc64/simd.h */ +/* begin file include/simdjson/generic/jsoncharutils.h */ + +namespace simdjson { +namespace ppc64 { +namespace { +namespace jsoncharutils { + +// return non-zero if not a structural or whitespace char +// zero otherwise +simdjson_really_inline uint32_t is_not_structural_or_whitespace(uint8_t c) { + return internal::structural_or_whitespace_negated[c]; +} + +simdjson_really_inline uint32_t is_structural_or_whitespace(uint8_t c) { + return internal::structural_or_whitespace[c]; +} + +// returns a value with the high 16 bits set if not valid +// otherwise returns the conversion of the 4 hex digits at src into the bottom +// 16 bits of the 32-bit return register +// +// see +// https://lemire.me/blog/2019/04/17/parsing-short-hexadecimal-strings-efficiently/ +static inline uint32_t hex_to_u32_nocheck( + const uint8_t *src) { // strictly speaking, static inline is a C-ism + uint32_t v1 = internal::digit_to_val32[630 + src[0]]; + uint32_t v2 = internal::digit_to_val32[420 + src[1]]; + uint32_t v3 = internal::digit_to_val32[210 + src[2]]; + uint32_t v4 = internal::digit_to_val32[0 + src[3]]; + return v1 | v2 | v3 | v4; +} + +// given a code point cp, writes to c +// the utf-8 code, outputting the length in +// bytes, if the length is zero, the code point +// is invalid +// +// This can possibly be made faster using pdep +// and clz and table lookups, but JSON documents +// have few escaped code points, and the following +// function looks cheap. +// +// Note: we assume that surrogates are treated separately +// +simdjson_really_inline size_t codepoint_to_utf8(uint32_t cp, uint8_t *c) { + if (cp <= 0x7F) { + c[0] = uint8_t(cp); + return 1; // ascii + } + if (cp <= 0x7FF) { + c[0] = uint8_t((cp >> 6) + 192); + c[1] = uint8_t((cp & 63) + 128); + return 2; // universal plane + // Surrogates are treated elsewhere... + //} //else if (0xd800 <= cp && cp <= 0xdfff) { + // return 0; // surrogates // could put assert here + } else if (cp <= 0xFFFF) { + c[0] = uint8_t((cp >> 12) + 224); + c[1] = uint8_t(((cp >> 6) & 63) + 128); + c[2] = uint8_t((cp & 63) + 128); + return 3; + } else if (cp <= 0x10FFFF) { // if you know you have a valid code point, this + // is not needed + c[0] = uint8_t((cp >> 18) + 240); + c[1] = uint8_t(((cp >> 12) & 63) + 128); + c[2] = uint8_t(((cp >> 6) & 63) + 128); + c[3] = uint8_t((cp & 63) + 128); + return 4; + } + // will return 0 when the code point was too large. + return 0; // bad r +} + +#ifdef SIMDJSON_IS_32BITS // _umul128 for x86, arm +// this is a slow emulation routine for 32-bit +// +static simdjson_really_inline uint64_t __emulu(uint32_t x, uint32_t y) { + return x * (uint64_t)y; +} +static simdjson_really_inline uint64_t _umul128(uint64_t ab, uint64_t cd, uint64_t *hi) { + uint64_t ad = __emulu((uint32_t)(ab >> 32), (uint32_t)cd); + uint64_t bd = __emulu((uint32_t)ab, (uint32_t)cd); + uint64_t adbc = ad + __emulu((uint32_t)ab, (uint32_t)(cd >> 32)); + uint64_t adbc_carry = !!(adbc < ad); + uint64_t lo = bd + (adbc << 32); + *hi = __emulu((uint32_t)(ab >> 32), (uint32_t)(cd >> 32)) + (adbc >> 32) + + (adbc_carry << 32) + !!(lo < bd); + return lo; +} +#endif + +using internal::value128; + +simdjson_really_inline value128 full_multiplication(uint64_t value1, uint64_t value2) { + value128 answer; +#if defined(SIMDJSON_REGULAR_VISUAL_STUDIO) || defined(SIMDJSON_IS_32BITS) +#ifdef _M_ARM64 + // ARM64 has native support for 64-bit multiplications, no need to emultate + answer.high = __umulh(value1, value2); + answer.low = value1 * value2; +#else + answer.low = _umul128(value1, value2, &answer.high); // _umul128 not available on ARM64 +#endif // _M_ARM64 +#else // defined(SIMDJSON_REGULAR_VISUAL_STUDIO) || defined(SIMDJSON_IS_32BITS) + __uint128_t r = ((__uint128_t)value1) * value2; + answer.low = uint64_t(r); + answer.high = uint64_t(r >> 64); +#endif + return answer; +} + +} // namespace jsoncharutils +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson +/* end file include/simdjson/generic/jsoncharutils.h */ +/* begin file include/simdjson/generic/atomparsing.h */ +namespace simdjson { +namespace ppc64 { +namespace { +/// @private +namespace atomparsing { + +// The string_to_uint32 is exclusively used to map literal strings to 32-bit values. +// We use memcpy instead of a pointer cast to avoid undefined behaviors since we cannot +// be certain that the character pointer will be properly aligned. +// You might think that using memcpy makes this function expensive, but you'd be wrong. +// All decent optimizing compilers (GCC, clang, Visual Studio) will compile string_to_uint32("false"); +// to the compile-time constant 1936482662. +simdjson_really_inline uint32_t string_to_uint32(const char* str) { uint32_t val; std::memcpy(&val, str, sizeof(uint32_t)); return val; } + + +// Again in str4ncmp we use a memcpy to avoid undefined behavior. The memcpy may appear expensive. +// Yet all decent optimizing compilers will compile memcpy to a single instruction, just about. +simdjson_warn_unused +simdjson_really_inline uint32_t str4ncmp(const uint8_t *src, const char* atom) { + uint32_t srcval; // we want to avoid unaligned 32-bit loads (undefined in C/C++) + static_assert(sizeof(uint32_t) <= SIMDJSON_PADDING, "SIMDJSON_PADDING must be larger than 4 bytes"); + std::memcpy(&srcval, src, sizeof(uint32_t)); + return srcval ^ string_to_uint32(atom); +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_true_atom(const uint8_t *src) { + return (str4ncmp(src, "true") | jsoncharutils::is_not_structural_or_whitespace(src[4])) == 0; +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_true_atom(const uint8_t *src, size_t len) { + if (len > 4) { return is_valid_true_atom(src); } + else if (len == 4) { return !str4ncmp(src, "true"); } + else { return false; } +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_false_atom(const uint8_t *src) { + return (str4ncmp(src+1, "alse") | jsoncharutils::is_not_structural_or_whitespace(src[5])) == 0; +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_false_atom(const uint8_t *src, size_t len) { + if (len > 5) { return is_valid_false_atom(src); } + else if (len == 5) { return !str4ncmp(src+1, "alse"); } + else { return false; } +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_null_atom(const uint8_t *src) { + return (str4ncmp(src, "null") | jsoncharutils::is_not_structural_or_whitespace(src[4])) == 0; +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_null_atom(const uint8_t *src, size_t len) { + if (len > 4) { return is_valid_null_atom(src); } + else if (len == 4) { return !str4ncmp(src, "null"); } + else { return false; } +} + +} // namespace atomparsing +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson +/* end file include/simdjson/generic/atomparsing.h */ +/* begin file include/simdjson/ppc64/stringparsing.h */ +#ifndef SIMDJSON_PPC64_STRINGPARSING_H +#define SIMDJSON_PPC64_STRINGPARSING_H + + +namespace simdjson { +namespace ppc64 { +namespace { + +using namespace simd; + +// Holds backslashes and quotes locations. +struct backslash_and_quote { +public: + static constexpr uint32_t BYTES_PROCESSED = 32; + simdjson_really_inline static backslash_and_quote + copy_and_find(const uint8_t *src, uint8_t *dst); + + simdjson_really_inline bool has_quote_first() { + return ((bs_bits - 1) & quote_bits) != 0; + } + simdjson_really_inline bool has_backslash() { return bs_bits != 0; } + simdjson_really_inline int quote_index() { + return trailing_zeroes(quote_bits); + } + simdjson_really_inline int backslash_index() { + return trailing_zeroes(bs_bits); + } + + uint32_t bs_bits; + uint32_t quote_bits; +}; // struct backslash_and_quote + +simdjson_really_inline backslash_and_quote +backslash_and_quote::copy_and_find(const uint8_t *src, uint8_t *dst) { + // this can read up to 31 bytes beyond the buffer size, but we require + // SIMDJSON_PADDING of padding + static_assert(SIMDJSON_PADDING >= (BYTES_PROCESSED - 1), + "backslash and quote finder must process fewer than " + "SIMDJSON_PADDING bytes"); + simd8 v0(src); + simd8 v1(src + sizeof(v0)); + v0.store(dst); + v1.store(dst + sizeof(v0)); + + // Getting a 64-bit bitmask is much cheaper than multiple 16-bit bitmasks on + // PPC; therefore, we smash them together into a 64-byte mask and get the + // bitmask from there. + uint64_t bs_and_quote = + simd8x64(v0 == '\\', v1 == '\\', v0 == '"', v1 == '"').to_bitmask(); + return { + uint32_t(bs_and_quote), // bs_bits + uint32_t(bs_and_quote >> 32) // quote_bits + }; +} + +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson + +/* begin file include/simdjson/generic/stringparsing.h */ +// This file contains the common code every implementation uses +// It is intended to be included multiple times and compiled multiple times + +namespace simdjson { +namespace ppc64 { +namespace { +/// @private +namespace stringparsing { + +// begin copypasta +// These chars yield themselves: " \ / +// b -> backspace, f -> formfeed, n -> newline, r -> cr, t -> horizontal tab +// u not handled in this table as it's complex +static const uint8_t escape_map[256] = { + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 0x0. + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0x22, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x2f, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 0x4. + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0, 0, // 0x5. + 0, 0, 0x08, 0, 0, 0, 0x0c, 0, 0, 0, 0, 0, 0, 0, 0x0a, 0, // 0x6. + 0, 0, 0x0d, 0, 0x09, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 0x7. + + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, +}; + +// handle a unicode codepoint +// write appropriate values into dest +// src will advance 6 bytes or 12 bytes +// dest will advance a variable amount (return via pointer) +// return true if the unicode codepoint was valid +// We work in little-endian then swap at write time +simdjson_warn_unused +simdjson_really_inline bool handle_unicode_codepoint(const uint8_t **src_ptr, + uint8_t **dst_ptr) { + // jsoncharutils::hex_to_u32_nocheck fills high 16 bits of the return value with 1s if the + // conversion isn't valid; we defer the check for this to inside the + // multilingual plane check + uint32_t code_point = jsoncharutils::hex_to_u32_nocheck(*src_ptr + 2); + *src_ptr += 6; + // check for low surrogate for characters outside the Basic + // Multilingual Plane. + if (code_point >= 0xd800 && code_point < 0xdc00) { + if (((*src_ptr)[0] != '\\') || (*src_ptr)[1] != 'u') { + return false; + } + uint32_t code_point_2 = jsoncharutils::hex_to_u32_nocheck(*src_ptr + 2); + + // if the first code point is invalid we will get here, as we will go past + // the check for being outside the Basic Multilingual plane. If we don't + // find a \u immediately afterwards we fail out anyhow, but if we do, + // this check catches both the case of the first code point being invalid + // or the second code point being invalid. + if ((code_point | code_point_2) >> 16) { + return false; + } + + code_point = + (((code_point - 0xd800) << 10) | (code_point_2 - 0xdc00)) + 0x10000; + *src_ptr += 6; + } + size_t offset = jsoncharutils::codepoint_to_utf8(code_point, *dst_ptr); + *dst_ptr += offset; + return offset > 0; +} + +/** + * Unescape a string from src to dst, stopping at a final unescaped quote. E.g., if src points at 'joe"', then + * dst needs to have four free bytes. + */ +simdjson_warn_unused simdjson_really_inline uint8_t *parse_string(const uint8_t *src, uint8_t *dst) { + while (1) { + // Copy the next n bytes, and find the backslash and quote in them. + auto bs_quote = backslash_and_quote::copy_and_find(src, dst); + // If the next thing is the end quote, copy and return + if (bs_quote.has_quote_first()) { + // we encountered quotes first. Move dst to point to quotes and exit + return dst + bs_quote.quote_index(); + } + if (bs_quote.has_backslash()) { + /* find out where the backspace is */ + auto bs_dist = bs_quote.backslash_index(); + uint8_t escape_char = src[bs_dist + 1]; + /* we encountered backslash first. Handle backslash */ + if (escape_char == 'u') { + /* move src/dst up to the start; they will be further adjusted + within the unicode codepoint handling code. */ + src += bs_dist; + dst += bs_dist; + if (!handle_unicode_codepoint(&src, &dst)) { + return nullptr; + } + } else { + /* simple 1:1 conversion. Will eat bs_dist+2 characters in input and + * write bs_dist+1 characters to output + * note this may reach beyond the part of the buffer we've actually + * seen. I think this is ok */ + uint8_t escape_result = escape_map[escape_char]; + if (escape_result == 0u) { + return nullptr; /* bogus escape value is an error */ + } + dst[bs_dist] = escape_result; + src += bs_dist + 2; + dst += bs_dist + 1; + } + } else { + /* they are the same. Since they can't co-occur, it means we + * encountered neither. */ + src += backslash_and_quote::BYTES_PROCESSED; + dst += backslash_and_quote::BYTES_PROCESSED; + } + } + /* can't be reached */ + return nullptr; +} + +simdjson_unused simdjson_warn_unused simdjson_really_inline error_code parse_string_to_buffer(const uint8_t *src, uint8_t *¤t_string_buf_loc, std::string_view &s) { + if (*(src++) != '"') { return STRING_ERROR; } + auto end = stringparsing::parse_string(src, current_string_buf_loc); + if (!end) { return STRING_ERROR; } + s = std::string_view((const char *)current_string_buf_loc, end-current_string_buf_loc); + current_string_buf_loc = end; + return SUCCESS; +} + +} // namespace stringparsing +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson +/* end file include/simdjson/generic/stringparsing.h */ + +#endif // SIMDJSON_PPC64_STRINGPARSING_H +/* end file include/simdjson/ppc64/stringparsing.h */ +/* begin file include/simdjson/ppc64/numberparsing.h */ +#ifndef SIMDJSON_PPC64_NUMBERPARSING_H +#define SIMDJSON_PPC64_NUMBERPARSING_H + +#include + +namespace simdjson { +namespace ppc64 { +namespace { + +// we don't have appropriate instructions, so let us use a scalar function +// credit: https://johnnylee-sde.github.io/Fast-numeric-string-to-int/ +static simdjson_really_inline uint32_t +parse_eight_digits_unrolled(const uint8_t *chars) { + uint64_t val; + std::memcpy(&val, chars, sizeof(uint64_t)); +#ifdef __BIG_ENDIAN__ + val = bswap_64(val); +#endif + val = (val & 0x0F0F0F0F0F0F0F0F) * 2561 >> 8; + val = (val & 0x00FF00FF00FF00FF) * 6553601 >> 16; + return uint32_t((val & 0x0000FFFF0000FFFF) * 42949672960001 >> 32); +} + +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson + +#define SWAR_NUMBER_PARSING + +/* begin file include/simdjson/generic/numberparsing.h */ +#include + +namespace simdjson { +namespace ppc64 { +namespace { +/// @private +namespace numberparsing { + + + +#ifdef JSON_TEST_NUMBERS +#define INVALID_NUMBER(SRC) (found_invalid_number((SRC)), NUMBER_ERROR) +#define WRITE_INTEGER(VALUE, SRC, WRITER) (found_integer((VALUE), (SRC)), (WRITER).append_s64((VALUE))) +#define WRITE_UNSIGNED(VALUE, SRC, WRITER) (found_unsigned_integer((VALUE), (SRC)), (WRITER).append_u64((VALUE))) +#define WRITE_DOUBLE(VALUE, SRC, WRITER) (found_float((VALUE), (SRC)), (WRITER).append_double((VALUE))) +#else +#define INVALID_NUMBER(SRC) (NUMBER_ERROR) +#define WRITE_INTEGER(VALUE, SRC, WRITER) (WRITER).append_s64((VALUE)) +#define WRITE_UNSIGNED(VALUE, SRC, WRITER) (WRITER).append_u64((VALUE)) +#define WRITE_DOUBLE(VALUE, SRC, WRITER) (WRITER).append_double((VALUE)) +#endif + +namespace { +// Convert a mantissa, an exponent and a sign bit into an ieee64 double. +// The real_exponent needs to be in [0, 2046] (technically real_exponent = 2047 would be acceptable). +// The mantissa should be in [0,1<<53). The bit at index (1ULL << 52) while be zeroed. +simdjson_really_inline double to_double(uint64_t mantissa, uint64_t real_exponent, bool negative) { + double d; + mantissa &= ~(1ULL << 52); + mantissa |= real_exponent << 52; + mantissa |= (((uint64_t)negative) << 63); + std::memcpy(&d, &mantissa, sizeof(d)); + return d; +} +} +// Attempts to compute i * 10^(power) exactly; and if "negative" is +// true, negate the result. +// This function will only work in some cases, when it does not work, success is +// set to false. This should work *most of the time* (like 99% of the time). +// We assume that power is in the [smallest_power, +// largest_power] interval: the caller is responsible for this check. +simdjson_really_inline bool compute_float_64(int64_t power, uint64_t i, bool negative, double &d) { + // we start with a fast path + // It was described in + // Clinger WD. How to read floating point numbers accurately. + // ACM SIGPLAN Notices. 1990 +#ifndef FLT_EVAL_METHOD +#error "FLT_EVAL_METHOD should be defined, please include cfloat." +#endif +#if (FLT_EVAL_METHOD != 1) && (FLT_EVAL_METHOD != 0) + // We cannot be certain that x/y is rounded to nearest. + if (0 <= power && power <= 22 && i <= 9007199254740991) { +#else + if (-22 <= power && power <= 22 && i <= 9007199254740991) { +#endif + // convert the integer into a double. This is lossless since + // 0 <= i <= 2^53 - 1. + d = double(i); + // + // The general idea is as follows. + // If 0 <= s < 2^53 and if 10^0 <= p <= 10^22 then + // 1) Both s and p can be represented exactly as 64-bit floating-point + // values + // (binary64). + // 2) Because s and p can be represented exactly as floating-point values, + // then s * p + // and s / p will produce correctly rounded values. + // + if (power < 0) { + d = d / simdjson::internal::power_of_ten[-power]; + } else { + d = d * simdjson::internal::power_of_ten[power]; + } + if (negative) { + d = -d; + } + return true; + } + // When 22 < power && power < 22 + 16, we could + // hope for another, secondary fast path. It was + // described by David M. Gay in "Correctly rounded + // binary-decimal and decimal-binary conversions." (1990) + // If you need to compute i * 10^(22 + x) for x < 16, + // first compute i * 10^x, if you know that result is exact + // (e.g., when i * 10^x < 2^53), + // then you can still proceed and do (i * 10^x) * 10^22. + // Is this worth your time? + // You need 22 < power *and* power < 22 + 16 *and* (i * 10^(x-22) < 2^53) + // for this second fast path to work. + // If you you have 22 < power *and* power < 22 + 16, and then you + // optimistically compute "i * 10^(x-22)", there is still a chance that you + // have wasted your time if i * 10^(x-22) >= 2^53. It makes the use cases of + // this optimization maybe less common than we would like. Source: + // http://www.exploringbinary.com/fast-path-decimal-to-floating-point-conversion/ + // also used in RapidJSON: https://rapidjson.org/strtod_8h_source.html + + // The fast path has now failed, so we are failing back on the slower path. + + // In the slow path, we need to adjust i so that it is > 1<<63 which is always + // possible, except if i == 0, so we handle i == 0 separately. + if(i == 0) { + d = 0.0; + return true; + } + + + // The exponent is 1024 + 63 + power + // + floor(log(5**power)/log(2)). + // The 1024 comes from the ieee64 standard. + // The 63 comes from the fact that we use a 64-bit word. + // + // Computing floor(log(5**power)/log(2)) could be + // slow. Instead we use a fast function. + // + // For power in (-400,350), we have that + // (((152170 + 65536) * power ) >> 16); + // is equal to + // floor(log(5**power)/log(2)) + power when power >= 0 + // and it is equal to + // ceil(log(5**-power)/log(2)) + power when power < 0 + // + // The 65536 is (1<<16) and corresponds to + // (65536 * power) >> 16 ---> power + // + // ((152170 * power ) >> 16) is equal to + // floor(log(5**power)/log(2)) + // + // Note that this is not magic: 152170/(1<<16) is + // approximatively equal to log(5)/log(2). + // The 1<<16 value is a power of two; we could use a + // larger power of 2 if we wanted to. + // + int64_t exponent = (((152170 + 65536) * power) >> 16) + 1024 + 63; + + + // We want the most significant bit of i to be 1. Shift if needed. + int lz = leading_zeroes(i); + i <<= lz; + + + // We are going to need to do some 64-bit arithmetic to get a precise product. + // We use a table lookup approach. + // It is safe because + // power >= smallest_power + // and power <= largest_power + // We recover the mantissa of the power, it has a leading 1. It is always + // rounded down. + // + // We want the most significant 64 bits of the product. We know + // this will be non-zero because the most significant bit of i is + // 1. + const uint32_t index = 2 * uint32_t(power - simdjson::internal::smallest_power); + // Optimization: It may be that materializing the index as a variable might confuse some compilers and prevent effective complex-addressing loads. (Done for code clarity.) + // + // The full_multiplication function computes the 128-bit product of two 64-bit words + // with a returned value of type value128 with a "low component" corresponding to the + // 64-bit least significant bits of the product and with a "high component" corresponding + // to the 64-bit most significant bits of the product. + simdjson::internal::value128 firstproduct = jsoncharutils::full_multiplication(i, simdjson::internal::power_of_five_128[index]); + // Both i and power_of_five_128[index] have their most significant bit set to 1 which + // implies that the either the most or the second most significant bit of the product + // is 1. We pack values in this manner for efficiency reasons: it maximizes the use + // we make of the product. It also makes it easy to reason aboutthe product: there + // 0 or 1 leading zero in the product. + + // Unless the least significant 9 bits of the high (64-bit) part of the full + // product are all 1s, then we know that the most significant 55 bits are + // exact and no further work is needed. Having 55 bits is necessary because + // we need 53 bits for the mantissa but we have to have one rounding bit and + // we can waste a bit if the most significant bit of the product is zero. + if((firstproduct.high & 0x1FF) == 0x1FF) { + // We want to compute i * 5^q, but only care about the top 55 bits at most. + // Consider the scenario where q>=0. Then 5^q may not fit in 64-bits. Doing + // the full computation is wasteful. So we do what is called a "truncated + // multiplication". + // We take the most significant 64-bits, and we put them in + // power_of_five_128[index]. Usually, that's good enough to approximate i * 5^q + // to the desired approximation using one multiplication. Sometimes it does not suffice. + // Then we store the next most significant 64 bits in power_of_five_128[index + 1], and + // then we get a better approximation to i * 5^q. In very rare cases, even that + // will not suffice, though it is seemingly very hard to find such a scenario. + // + // That's for when q>=0. The logic for q<0 is somewhat similar but it is somewhat + // more complicated. + // + // There is an extra layer of complexity in that we need more than 55 bits of + // accuracy in the round-to-even scenario. + // + // The full_multiplication function computes the 128-bit product of two 64-bit words + // with a returned value of type value128 with a "low component" corresponding to the + // 64-bit least significant bits of the product and with a "high component" corresponding + // to the 64-bit most significant bits of the product. + simdjson::internal::value128 secondproduct = jsoncharutils::full_multiplication(i, simdjson::internal::power_of_five_128[index + 1]); + firstproduct.low += secondproduct.high; + if(secondproduct.high > firstproduct.low) { firstproduct.high++; } + // At this point, we might need to add at most one to firstproduct, but this + // can only change the value of firstproduct.high if firstproduct.low is maximal. + if(simdjson_unlikely(firstproduct.low == 0xFFFFFFFFFFFFFFFF)) { + // This is very unlikely, but if so, we need to do much more work! + return false; + } + } + uint64_t lower = firstproduct.low; + uint64_t upper = firstproduct.high; + // The final mantissa should be 53 bits with a leading 1. + // We shift it so that it occupies 54 bits with a leading 1. + /////// + uint64_t upperbit = upper >> 63; + uint64_t mantissa = upper >> (upperbit + 9); + lz += int(1 ^ upperbit); + + // Here we have mantissa < (1<<54). + int64_t real_exponent = exponent - lz; + if (simdjson_unlikely(real_exponent <= 0)) { // we have a subnormal? + // Here have that real_exponent <= 0 so -real_exponent >= 0 + if(-real_exponent + 1 >= 64) { // if we have more than 64 bits below the minimum exponent, you have a zero for sure. + d = 0.0; + return true; + } + // next line is safe because -real_exponent + 1 < 0 + mantissa >>= -real_exponent + 1; + // Thankfully, we can't have both "round-to-even" and subnormals because + // "round-to-even" only occurs for powers close to 0. + mantissa += (mantissa & 1); // round up + mantissa >>= 1; + // There is a weird scenario where we don't have a subnormal but just. + // Suppose we start with 2.2250738585072013e-308, we end up + // with 0x3fffffffffffff x 2^-1023-53 which is technically subnormal + // whereas 0x40000000000000 x 2^-1023-53 is normal. Now, we need to round + // up 0x3fffffffffffff x 2^-1023-53 and once we do, we are no longer + // subnormal, but we can only know this after rounding. + // So we only declare a subnormal if we are smaller than the threshold. + real_exponent = (mantissa < (uint64_t(1) << 52)) ? 0 : 1; + d = to_double(mantissa, real_exponent, negative); + return true; + } + // We have to round to even. The "to even" part + // is only a problem when we are right in between two floats + // which we guard against. + // If we have lots of trailing zeros, we may fall right between two + // floating-point values. + // + // The round-to-even cases take the form of a number 2m+1 which is in (2^53,2^54] + // times a power of two. That is, it is right between a number with binary significand + // m and another number with binary significand m+1; and it must be the case + // that it cannot be represented by a float itself. + // + // We must have that w * 10 ^q == (2m+1) * 2^p for some power of two 2^p. + // Recall that 10^q = 5^q * 2^q. + // When q >= 0, we must have that (2m+1) is divible by 5^q, so 5^q <= 2^54. We have that + // 5^23 <= 2^54 and it is the last power of five to qualify, so q <= 23. + // When q<0, we have w >= (2m+1) x 5^{-q}. We must have that w<2^{64} so + // (2m+1) x 5^{-q} < 2^{64}. We have that 2m+1>2^{53}. Hence, we must have + // 2^{53} x 5^{-q} < 2^{64}. + // Hence we have 5^{-q} < 2^{11}$ or q>= -4. + // + // We require lower <= 1 and not lower == 0 because we could not prove that + // that lower == 0 is implied; but we could prove that lower <= 1 is a necessary and sufficient test. + if (simdjson_unlikely((lower <= 1) && (power >= -4) && (power <= 23) && ((mantissa & 3) == 1))) { + if((mantissa << (upperbit + 64 - 53 - 2)) == upper) { + mantissa &= ~1; // flip it so that we do not round up + } + } + + mantissa += mantissa & 1; + mantissa >>= 1; + + // Here we have mantissa < (1<<53), unless there was an overflow + if (mantissa >= (1ULL << 53)) { + ////////// + // This will happen when parsing values such as 7.2057594037927933e+16 + //////// + mantissa = (1ULL << 52); + real_exponent++; + } + mantissa &= ~(1ULL << 52); + // we have to check that real_exponent is in range, otherwise we bail out + if (simdjson_unlikely(real_exponent > 2046)) { + // We have an infinte value!!! We could actually throw an error here if we could. + return false; + } + d = to_double(mantissa, real_exponent, negative); + return true; +} + +// We call a fallback floating-point parser that might be slow. Note +// it will accept JSON numbers, but the JSON spec. is more restrictive so +// before you call parse_float_fallback, you need to have validated the input +// string with the JSON grammar. +// It will return an error (false) if the parsed number is infinite. +// The string parsing itself always succeeds. We know that there is at least +// one digit. +static bool parse_float_fallback(const uint8_t *ptr, double *outDouble) { + *outDouble = simdjson::internal::from_chars((const char *)ptr); + // We do not accept infinite values. + + // Detecting finite values in a portable manner is ridiculously hard, ideally + // we would want to do: + // return !std::isfinite(*outDouble); + // but that mysteriously fails under legacy/old libc++ libraries, see + // https://github.com/simdjson/simdjson/issues/1286 + // + // Therefore, fall back to this solution (the extra parens are there + // to handle that max may be a macro on windows). + return !(*outDouble > (std::numeric_limits::max)() || *outDouble < std::numeric_limits::lowest()); +} + +// check quickly whether the next 8 chars are made of digits +// at a glance, it looks better than Mula's +// http://0x80.pl/articles/swar-digits-validate.html +simdjson_really_inline bool is_made_of_eight_digits_fast(const uint8_t *chars) { + uint64_t val; + // this can read up to 7 bytes beyond the buffer size, but we require + // SIMDJSON_PADDING of padding + static_assert(7 <= SIMDJSON_PADDING, "SIMDJSON_PADDING must be bigger than 7"); + std::memcpy(&val, chars, 8); + // a branchy method might be faster: + // return (( val & 0xF0F0F0F0F0F0F0F0 ) == 0x3030303030303030) + // && (( (val + 0x0606060606060606) & 0xF0F0F0F0F0F0F0F0 ) == + // 0x3030303030303030); + return (((val & 0xF0F0F0F0F0F0F0F0) | + (((val + 0x0606060606060606) & 0xF0F0F0F0F0F0F0F0) >> 4)) == + 0x3333333333333333); +} + +template +error_code slow_float_parsing(simdjson_unused const uint8_t * src, W writer) { + double d; + if (parse_float_fallback(src, &d)) { + writer.append_double(d); + return SUCCESS; + } + return INVALID_NUMBER(src); +} + +template +NO_SANITIZE_UNDEFINED // We deliberately allow overflow here and check later +simdjson_really_inline bool parse_digit(const uint8_t c, I &i) { + const uint8_t digit = static_cast(c - '0'); + if (digit > 9) { + return false; + } + // PERF NOTE: multiplication by 10 is cheaper than arbitrary integer multiplication + i = 10 * i + digit; // might overflow, we will handle the overflow later + return true; +} + +simdjson_really_inline error_code parse_decimal(simdjson_unused const uint8_t *const src, const uint8_t *&p, uint64_t &i, int64_t &exponent) { + // we continue with the fiction that we have an integer. If the + // floating point number is representable as x * 10^z for some integer + // z that fits in 53 bits, then we will be able to convert back the + // the integer into a float in a lossless manner. + const uint8_t *const first_after_period = p; + +#ifdef SWAR_NUMBER_PARSING + // this helps if we have lots of decimals! + // this turns out to be frequent enough. + if (is_made_of_eight_digits_fast(p)) { + i = i * 100000000 + parse_eight_digits_unrolled(p); + p += 8; + } +#endif + // Unrolling the first digit makes a small difference on some implementations (e.g. westmere) + if (parse_digit(*p, i)) { ++p; } + while (parse_digit(*p, i)) { p++; } + exponent = first_after_period - p; + // Decimal without digits (123.) is illegal + if (exponent == 0) { + return INVALID_NUMBER(src); + } + return SUCCESS; +} + +simdjson_really_inline error_code parse_exponent(simdjson_unused const uint8_t *const src, const uint8_t *&p, int64_t &exponent) { + // Exp Sign: -123.456e[-]78 + bool neg_exp = ('-' == *p); + if (neg_exp || '+' == *p) { p++; } // Skip + as well + + // Exponent: -123.456e-[78] + auto start_exp = p; + int64_t exp_number = 0; + while (parse_digit(*p, exp_number)) { ++p; } + // It is possible for parse_digit to overflow. + // In particular, it could overflow to INT64_MIN, and we cannot do - INT64_MIN. + // Thus we *must* check for possible overflow before we negate exp_number. + + // Performance notes: it may seem like combining the two "simdjson_unlikely checks" below into + // a single simdjson_unlikely path would be faster. The reasoning is sound, but the compiler may + // not oblige and may, in fact, generate two distinct paths in any case. It might be + // possible to do uint64_t(p - start_exp - 1) >= 18 but it could end up trading off + // instructions for a simdjson_likely branch, an unconclusive gain. + + // If there were no digits, it's an error. + if (simdjson_unlikely(p == start_exp)) { + return INVALID_NUMBER(src); + } + // We have a valid positive exponent in exp_number at this point, except that + // it may have overflowed. + + // If there were more than 18 digits, we may have overflowed the integer. We have to do + // something!!!! + if (simdjson_unlikely(p > start_exp+18)) { + // Skip leading zeroes: 1e000000000000000000001 is technically valid and doesn't overflow + while (*start_exp == '0') { start_exp++; } + // 19 digits could overflow int64_t and is kind of absurd anyway. We don't + // support exponents smaller than -999,999,999,999,999,999 and bigger + // than 999,999,999,999,999,999. + // We can truncate. + // Note that 999999999999999999 is assuredly too large. The maximal ieee64 value before + // infinity is ~1.8e308. The smallest subnormal is ~5e-324. So, actually, we could + // truncate at 324. + // Note that there is no reason to fail per se at this point in time. + // E.g., 0e999999999999999999999 is a fine number. + if (p > start_exp+18) { exp_number = 999999999999999999; } + } + // At this point, we know that exp_number is a sane, positive, signed integer. + // It is <= 999,999,999,999,999,999. As long as 'exponent' is in + // [-8223372036854775808, 8223372036854775808], we won't overflow. Because 'exponent' + // is bounded in magnitude by the size of the JSON input, we are fine in this universe. + // To sum it up: the next line should never overflow. + exponent += (neg_exp ? -exp_number : exp_number); + return SUCCESS; +} + +simdjson_really_inline int significant_digits(const uint8_t * start_digits, int digit_count) { + // It is possible that the integer had an overflow. + // We have to handle the case where we have 0.0000somenumber. + const uint8_t *start = start_digits; + while ((*start == '0') || (*start == '.')) { + start++; + } + // we over-decrement by one when there is a '.' + return digit_count - int(start - start_digits); +} + +template +simdjson_really_inline error_code write_float(const uint8_t *const src, bool negative, uint64_t i, const uint8_t * start_digits, int digit_count, int64_t exponent, W &writer) { + // If we frequently had to deal with long strings of digits, + // we could extend our code by using a 128-bit integer instead + // of a 64-bit integer. However, this is uncommon in practice. + // + // 9999999999999999999 < 2**64 so we can accomodate 19 digits. + // If we have a decimal separator, then digit_count - 1 is the number of digits, but we + // may not have a decimal separator! + if (simdjson_unlikely(digit_count > 19 && significant_digits(start_digits, digit_count) > 19)) { + // Ok, chances are good that we had an overflow! + // this is almost never going to get called!!! + // we start anew, going slowly!!! + // This will happen in the following examples: + // 10000000000000000000000000000000000000000000e+308 + // 3.1415926535897932384626433832795028841971693993751 + // + // NOTE: This makes a *copy* of the writer and passes it to slow_float_parsing. This happens + // because slow_float_parsing is a non-inlined function. If we passed our writer reference to + // it, it would force it to be stored in memory, preventing the compiler from picking it apart + // and putting into registers. i.e. if we pass it as reference, it gets slow. + // This is what forces the skip_double, as well. + error_code error = slow_float_parsing(src, writer); + writer.skip_double(); + return error; + } + // NOTE: it's weird that the simdjson_unlikely() only wraps half the if, but it seems to get slower any other + // way we've tried: https://github.com/simdjson/simdjson/pull/990#discussion_r448497331 + // To future reader: we'd love if someone found a better way, or at least could explain this result! + if (simdjson_unlikely(exponent < simdjson::internal::smallest_power) || (exponent > simdjson::internal::largest_power)) { + // + // Important: smallest_power is such that it leads to a zero value. + // Observe that 18446744073709551615e-343 == 0, i.e. (2**64 - 1) e -343 is zero + // so something x 10^-343 goes to zero, but not so with something x 10^-342. + static_assert(simdjson::internal::smallest_power <= -342, "smallest_power is not small enough"); + // + if((exponent < simdjson::internal::smallest_power) || (i == 0)) { + WRITE_DOUBLE(0, src, writer); + return SUCCESS; + } else { // (exponent > largest_power) and (i != 0) + // We have, for sure, an infinite value and simdjson refuses to parse infinite values. + return INVALID_NUMBER(src); + } + } + double d; + if (!compute_float_64(exponent, i, negative, d)) { + // we are almost never going to get here. + if (!parse_float_fallback(src, &d)) { return INVALID_NUMBER(src); } + } + WRITE_DOUBLE(d, src, writer); + return SUCCESS; +} + +// for performance analysis, it is sometimes useful to skip parsing +#ifdef SIMDJSON_SKIPNUMBERPARSING + +template +simdjson_really_inline error_code parse_number(const uint8_t *const, W &writer) { + writer.append_s64(0); // always write zero + return SUCCESS; // always succeeds +} + +simdjson_unused simdjson_really_inline simdjson_result parse_unsigned(const uint8_t * const src) noexcept { return 0; } +simdjson_unused simdjson_really_inline simdjson_result parse_integer(const uint8_t * const src) noexcept { return 0; } +simdjson_unused simdjson_really_inline simdjson_result parse_double(const uint8_t * const src) noexcept { return 0; } + +#else + +// parse the number at src +// define JSON_TEST_NUMBERS for unit testing +// +// It is assumed that the number is followed by a structural ({,},],[) character +// or a white space character. If that is not the case (e.g., when the JSON +// document is made of a single number), then it is necessary to copy the +// content and append a space before calling this function. +// +// Our objective is accurate parsing (ULP of 0) at high speed. +template +simdjson_really_inline error_code parse_number(const uint8_t *const src, W &writer) { + + // + // Check for minus sign + // + bool negative = (*src == '-'); + const uint8_t *p = src + negative; + + // + // Parse the integer part. + // + // PERF NOTE: we don't use is_made_of_eight_digits_fast because large integers like 123456789 are rare + const uint8_t *const start_digits = p; + uint64_t i = 0; + while (parse_digit(*p, i)) { p++; } + + // If there were no digits, or if the integer starts with 0 and has more than one digit, it's an error. + int digit_count = int(p - start_digits); + if (digit_count == 0 || ('0' == *start_digits && digit_count > 1)) { return INVALID_NUMBER(src); } + + // + // Handle floats if there is a . or e (or both) + // + int64_t exponent = 0; + bool is_float = false; + if ('.' == *p) { + is_float = true; + ++p; + SIMDJSON_TRY( parse_decimal(src, p, i, exponent) ); + digit_count = int(p - start_digits); // used later to guard against overflows + } + if (('e' == *p) || ('E' == *p)) { + is_float = true; + ++p; + SIMDJSON_TRY( parse_exponent(src, p, exponent) ); + } + if (is_float) { + const bool clean_end = jsoncharutils::is_structural_or_whitespace(*p); + SIMDJSON_TRY( write_float(src, negative, i, start_digits, digit_count, exponent, writer) ); + if (!clean_end) { return INVALID_NUMBER(src); } + return SUCCESS; + } + + // The longest negative 64-bit number is 19 digits. + // The longest positive 64-bit number is 20 digits. + // We do it this way so we don't trigger this branch unless we must. + int longest_digit_count = negative ? 19 : 20; + if (digit_count > longest_digit_count) { return INVALID_NUMBER(src); } + if (digit_count == longest_digit_count) { + if (negative) { + // Anything negative above INT64_MAX+1 is invalid + if (i > uint64_t(INT64_MAX)+1) { return INVALID_NUMBER(src); } + WRITE_INTEGER(~i+1, src, writer); + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return INVALID_NUMBER(src); } + return SUCCESS; + // Positive overflow check: + // - A 20 digit number starting with 2-9 is overflow, because 18,446,744,073,709,551,615 is the + // biggest uint64_t. + // - A 20 digit number starting with 1 is overflow if it is less than INT64_MAX. + // If we got here, it's a 20 digit number starting with the digit "1". + // - If a 20 digit number starting with 1 overflowed (i*10+digit), the result will be smaller + // than 1,553,255,926,290,448,384. + // - That is smaller than the smallest possible 20-digit number the user could write: + // 10,000,000,000,000,000,000. + // - Therefore, if the number is positive and lower than that, it's overflow. + // - The value we are looking at is less than or equal to 9,223,372,036,854,775,808 (INT64_MAX). + // + } else if (src[0] != uint8_t('1') || i <= uint64_t(INT64_MAX)) { return INVALID_NUMBER(src); } + } + + // Write unsigned if it doesn't fit in a signed integer. + if (i > uint64_t(INT64_MAX)) { + WRITE_UNSIGNED(i, src, writer); + } else { + WRITE_INTEGER(negative ? (~i+1) : i, src, writer); + } + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return INVALID_NUMBER(src); } + return SUCCESS; +} + +// SAX functions +namespace { +// Parse any number from 0 to 18,446,744,073,709,551,615 +simdjson_unused simdjson_really_inline simdjson_result parse_unsigned(const uint8_t * const src) noexcept { + const uint8_t *p = src; + + // + // Parse the integer part. + // + // PERF NOTE: we don't use is_made_of_eight_digits_fast because large integers like 123456789 are rare + const uint8_t *const start_digits = p; + uint64_t i = 0; + while (parse_digit(*p, i)) { p++; } + + // If there were no digits, or if the integer starts with 0 and has more than one digit, it's an error. + int digit_count = int(p - start_digits); + if (digit_count == 0 || ('0' == *start_digits && digit_count > 1)) { return NUMBER_ERROR; } + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return NUMBER_ERROR; } + + // The longest positive 64-bit number is 20 digits. + // We do it this way so we don't trigger this branch unless we must. + if (digit_count > 20) { return NUMBER_ERROR; } + if (digit_count == 20) { + // Positive overflow check: + // - A 20 digit number starting with 2-9 is overflow, because 18,446,744,073,709,551,615 is the + // biggest uint64_t. + // - A 20 digit number starting with 1 is overflow if it is less than INT64_MAX. + // If we got here, it's a 20 digit number starting with the digit "1". + // - If a 20 digit number starting with 1 overflowed (i*10+digit), the result will be smaller + // than 1,553,255,926,290,448,384. + // - That is smaller than the smallest possible 20-digit number the user could write: + // 10,000,000,000,000,000,000. + // - Therefore, if the number is positive and lower than that, it's overflow. + // - The value we are looking at is less than or equal to 9,223,372,036,854,775,808 (INT64_MAX). + // + if (src[0] != uint8_t('1') || i <= uint64_t(INT64_MAX)) { return NUMBER_ERROR; } + } + + return i; +} + +// Parse any number from -9,223,372,036,854,775,808 to 9,223,372,036,854,775,807 +simdjson_unused simdjson_really_inline simdjson_result parse_integer(const uint8_t *src) noexcept { + // + // Check for minus sign + // + bool negative = (*src == '-'); + const uint8_t *p = src + negative; + + // + // Parse the integer part. + // + // PERF NOTE: we don't use is_made_of_eight_digits_fast because large integers like 123456789 are rare + const uint8_t *const start_digits = p; + uint64_t i = 0; + while (parse_digit(*p, i)) { p++; } + + // If there were no digits, or if the integer starts with 0 and has more than one digit, it's an error. + int digit_count = int(p - start_digits); + if (digit_count == 0 || ('0' == *start_digits && digit_count > 1)) { return NUMBER_ERROR; } + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return NUMBER_ERROR; } + + // The longest negative 64-bit number is 19 digits. + // The longest positive 64-bit number is 20 digits. + // We do it this way so we don't trigger this branch unless we must. + int longest_digit_count = negative ? 19 : 20; + if (digit_count > longest_digit_count) { return NUMBER_ERROR; } + if (digit_count == longest_digit_count) { + if(negative) { + // Anything negative above INT64_MAX+1 is invalid + if (i > uint64_t(INT64_MAX)+1) { return NUMBER_ERROR; } + return ~i+1; + + // Positive overflow check: + // - A 20 digit number starting with 2-9 is overflow, because 18,446,744,073,709,551,615 is the + // biggest uint64_t. + // - A 20 digit number starting with 1 is overflow if it is less than INT64_MAX. + // If we got here, it's a 20 digit number starting with the digit "1". + // - If a 20 digit number starting with 1 overflowed (i*10+digit), the result will be smaller + // than 1,553,255,926,290,448,384. + // - That is smaller than the smallest possible 20-digit number the user could write: + // 10,000,000,000,000,000,000. + // - Therefore, if the number is positive and lower than that, it's overflow. + // - The value we are looking at is less than or equal to 9,223,372,036,854,775,808 (INT64_MAX). + // + } else if (src[0] != uint8_t('1') || i <= uint64_t(INT64_MAX)) { return NUMBER_ERROR; } + } + + return negative ? (~i+1) : i; +} + +simdjson_unused simdjson_really_inline simdjson_result parse_double(const uint8_t * src) noexcept { + // + // Check for minus sign + // + bool negative = (*src == '-'); + src += negative; + + // + // Parse the integer part. + // + uint64_t i = 0; + const uint8_t *p = src; + p += parse_digit(*p, i); + bool leading_zero = (i == 0); + while (parse_digit(*p, i)) { p++; } + // no integer digits, or 0123 (zero must be solo) + if ( p == src || (leading_zero && p != src+1)) { return NUMBER_ERROR; } + + // + // Parse the decimal part. + // + int64_t exponent = 0; + bool overflow; + if (simdjson_likely(*p == '.')) { + p++; + const uint8_t *start_decimal_digits = p; + if (!parse_digit(*p, i)) { return NUMBER_ERROR; } // no decimal digits + p++; + while (parse_digit(*p, i)) { p++; } + exponent = -(p - start_decimal_digits); + + // Overflow check. More than 19 digits (minus the decimal) may be overflow. + overflow = p-src-1 > 19; + if (simdjson_unlikely(overflow && leading_zero)) { + // Skip leading 0.00000 and see if it still overflows + const uint8_t *start_digits = src + 2; + while (*start_digits == '0') { start_digits++; } + overflow = start_digits-src > 19; + } + } else { + overflow = p-src > 19; + } + + // + // Parse the exponent + // + if (*p == 'e' || *p == 'E') { + p++; + bool exp_neg = *p == '-'; + p += exp_neg || *p == '+'; + + uint64_t exp = 0; + const uint8_t *start_exp_digits = p; + while (parse_digit(*p, exp)) { p++; } + // no exp digits, or 20+ exp digits + if (p-start_exp_digits == 0 || p-start_exp_digits > 19) { return NUMBER_ERROR; } + + exponent += exp_neg ? 0-exp : exp; + } + + if (jsoncharutils::is_not_structural_or_whitespace(*p)) { return NUMBER_ERROR; } + + overflow = overflow || exponent < simdjson::internal::smallest_power || exponent > simdjson::internal::largest_power; + + // + // Assemble (or slow-parse) the float + // + double d; + if (simdjson_likely(!overflow)) { + if (compute_float_64(exponent, i, negative, d)) { return d; } + } + if (!parse_float_fallback(src-negative, &d)) { + return NUMBER_ERROR; + } + return d; +} +} //namespace {} +#endif // SIMDJSON_SKIPNUMBERPARSING + +} // namespace numberparsing +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson +/* end file include/simdjson/generic/numberparsing.h */ + +#endif // SIMDJSON_PPC64_NUMBERPARSING_H +/* end file include/simdjson/ppc64/numberparsing.h */ +/* begin file include/simdjson/generic/implementation_simdjson_result_base.h */ +namespace simdjson { +namespace ppc64 { + +// This is a near copy of include/error.h's implementation_simdjson_result_base, except it doesn't use std::pair +// so we can avoid inlining errors +// TODO reconcile these! +/** + * The result of a simdjson operation that could fail. + * + * Gives the option of reading error codes, or throwing an exception by casting to the desired result. + * + * This is a base class for implementations that want to add functions to the result type for + * chaining. + * + * Override like: + * + * struct simdjson_result : public internal::implementation_simdjson_result_base { + * simdjson_result() noexcept : internal::implementation_simdjson_result_base() {} + * simdjson_result(error_code error) noexcept : internal::implementation_simdjson_result_base(error) {} + * simdjson_result(T &&value) noexcept : internal::implementation_simdjson_result_base(std::forward(value)) {} + * simdjson_result(T &&value, error_code error) noexcept : internal::implementation_simdjson_result_base(value, error) {} + * // Your extra methods here + * } + * + * Then any method returning simdjson_result will be chainable with your methods. + */ +template +struct implementation_simdjson_result_base { + + /** + * Create a new empty result with error = UNINITIALIZED. + */ + simdjson_really_inline implementation_simdjson_result_base() noexcept = default; + + /** + * Create a new error result. + */ + simdjson_really_inline implementation_simdjson_result_base(error_code error) noexcept; + + /** + * Create a new successful result. + */ + simdjson_really_inline implementation_simdjson_result_base(T &&value) noexcept; + + /** + * Create a new result with both things (use if you don't want to branch when creating the result). + */ + simdjson_really_inline implementation_simdjson_result_base(T &&value, error_code error) noexcept; + + /** + * Move the value and the error to the provided variables. + * + * @param value The variable to assign the value to. May not be set if there is an error. + * @param error The variable to assign the error to. Set to SUCCESS if there is no error. + */ + simdjson_really_inline void tie(T &value, error_code &error) && noexcept; + + /** + * Move the value to the provided variable. + * + * @param value The variable to assign the value to. May not be set if there is an error. + */ + simdjson_really_inline error_code get(T &value) && noexcept; + + /** + * The error. + */ + simdjson_really_inline error_code error() const noexcept; + +#if SIMDJSON_EXCEPTIONS + + /** + * Get the result value. + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T& value() & noexcept(false); + + /** + * Take the result value (move it). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T&& value() && noexcept(false); + + /** + * Take the result value (move it). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T&& take_value() && noexcept(false); + + /** + * Cast to the value (will throw on error). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline operator T&&() && noexcept(false); + +#endif // SIMDJSON_EXCEPTIONS + + T first{}; + error_code second{UNINITIALIZED}; +}; // struct implementation_simdjson_result_base + +} // namespace ppc64 +} // namespace simdjson +/* end file include/simdjson/generic/implementation_simdjson_result_base.h */ +/* begin file include/simdjson/generic/ondemand.h */ +namespace simdjson { +namespace ppc64 { +/** + * A fast, simple, DOM-like interface that parses JSON as you use it. + * + * Designed for maximum speed and a lower memory profile. + */ +namespace ondemand { + +/** Represents the depth of a JSON value (number of nested arrays/objects). */ +using depth_t = int32_t; + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +/* begin file include/simdjson/generic/ondemand/token_position.h */ +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +/** @private Position in the JSON buffer indexes */ +using token_position = const uint32_t *; + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/token_position.h */ +/* begin file include/simdjson/generic/ondemand/logger.h */ +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +class json_iterator; +class value_iterator; + +namespace logger { + +#if SIMDJSON_VERBOSE_LOGGING + static constexpr const bool LOG_ENABLED = true; +#else + static constexpr const bool LOG_ENABLED = false; +#endif + +static simdjson_really_inline void log_headers() noexcept; +static simdjson_really_inline void log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept; +static simdjson_really_inline void log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept; +static simdjson_really_inline void log_event(const json_iterator &iter, const char *type, std::string_view detail="", int delta=0, int depth_delta=0) noexcept; +static simdjson_really_inline void log_value(const json_iterator &iter, const char *type, std::string_view detail="", int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_value(const json_iterator &iter, token_position index, depth_t depth, const char *type, std::string_view detail="") noexcept; +static simdjson_really_inline void log_start_value(const json_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_end_value(const json_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_error(const json_iterator &iter, const char *error, const char *detail="", int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_error(const json_iterator &iter, token_position index, depth_t depth, const char *error, const char *detail="") noexcept; + +static simdjson_really_inline void log_event(const value_iterator &iter, const char *type, std::string_view detail="", int delta=0, int depth_delta=0) noexcept; +static simdjson_really_inline void log_value(const value_iterator &iter, const char *type, std::string_view detail="", int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_start_value(const value_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_end_value(const value_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_error(const value_iterator &iter, const char *error, const char *detail="", int delta=-1, int depth_delta=0) noexcept; + +} // namespace logger +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/logger.h */ +/* begin file include/simdjson/generic/ondemand/raw_json_string.h */ + +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +class object; +class parser; +class json_iterator; + +/** + * A string escaped per JSON rules, terminated with quote ("). They are used to represent + * unescaped keys inside JSON documents. + * + * (In other words, a pointer to the beginning of a string, just after the start quote, inside a + * JSON file.) + * + * This class is deliberately simplistic and has little functionality. You can + * compare two raw_json_string instances, or compare a raw_json_string with a string_view, but + * that is pretty much all you can do. + * + * They originate typically from field instance which in turn represent key-value pairs from + * object instances. From a field instance, you get the raw_json_string instance by calling key(). + * You can, if you want a more usable string_view instance, call the unescaped_key() method + * on the field instance. + */ +class raw_json_string { +public: + /** + * Create a new invalid raw_json_string. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline raw_json_string() noexcept = default; + + /** + * Create a new invalid raw_json_string pointed at the given location in the JSON. + * + * The given location must be just *after* the beginning quote (") in the JSON file. + * + * It *must* be terminated by a ", and be a valid JSON string. + */ + simdjson_really_inline raw_json_string(const uint8_t * _buf) noexcept; + /** + * Get the raw pointer to the beginning of the string in the JSON (just after the "). + * + * It is possible for this function to return a null pointer if the instance + * has outlived its existence. + */ + simdjson_really_inline const char * raw() const noexcept; + +private: + /** + * This will set the inner pointer to zero, effectively making + * this instance unusable. + */ + simdjson_really_inline void consume() noexcept { buf = nullptr; } + + /** + * Checks whether the inner pointer is non-null and thus usable. + */ + simdjson_really_inline simdjson_warn_unused bool alive() const noexcept { return buf != nullptr; } + + /** + * Unescape this JSON string, replacing \\ with \, \n with newline, etc. + * + * ## IMPORTANT: string_view lifetime + * + * The string_view is only valid as long as the bytes in dst. + * + * @param dst A pointer to a buffer at least large enough to write this string as well as a \0. + * dst will be updated to the next unused location (just after the \0 written out at + * the end of this string). + * @return A string_view pointing at the unescaped string in dst + * @error STRING_ERROR if escapes are incorrect. + */ + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(uint8_t *&dst) const noexcept; + /** + * Unescape this JSON string, replacing \\ with \, \n with newline, etc. + * + * ## IMPORTANT: string_view lifetime + * + * The string_view is only valid until the next parse() call on the parser. + * + * @param iter A json_iterator, which contains a buffer where the string will be written. + */ + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(json_iterator &iter) const noexcept; + + const uint8_t * buf{}; + friend class object; + friend class field; + friend struct simdjson_result; +}; + +simdjson_unused simdjson_really_inline bool operator==(const raw_json_string &a, std::string_view b) noexcept; +simdjson_unused simdjson_really_inline bool operator==(std::string_view a, const raw_json_string &b) noexcept; +simdjson_unused simdjson_really_inline bool operator!=(const raw_json_string &a, std::string_view b) noexcept; +simdjson_unused simdjson_really_inline bool operator!=(std::string_view a, const raw_json_string &b) noexcept; + +simdjson_unused simdjson_really_inline std::ostream &operator<<(std::ostream &, const raw_json_string &) noexcept; + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public ppc64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(ppc64::ondemand::raw_json_string &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + simdjson_really_inline ~simdjson_result() noexcept = default; ///< @private + + simdjson_really_inline simdjson_result raw() const noexcept; + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(uint8_t *&dst) const noexcept; + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(ppc64::ondemand::json_iterator &iter) const noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/raw_json_string.h */ +/* begin file include/simdjson/generic/ondemand/token_iterator.h */ +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +/** + * Iterates through JSON tokens (`{` `}` `[` `]` `,` `:` `""` `123` `true` `false` `null`) + * detected by stage 1. + * + * @private This is not intended for external use. + */ +class token_iterator { +public: + /** + * Create a new invalid token_iterator. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline token_iterator() noexcept = default; + simdjson_really_inline token_iterator(token_iterator &&other) noexcept = default; + simdjson_really_inline token_iterator &operator=(token_iterator &&other) noexcept = default; + simdjson_really_inline token_iterator(const token_iterator &other) noexcept = default; + simdjson_really_inline token_iterator &operator=(const token_iterator &other) noexcept = default; + + /** + * Advance to the next token (returning the current one). + * + * Does not check or update depth/expect_value. Caller is responsible for that. + */ + simdjson_really_inline const uint8_t *advance() noexcept; + + /** + * Get the JSON text for a given token (relative). + * + * This is not null-terminated; it is a view into the JSON. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = current token, + * 1 = next token, -1 = prev token. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(int32_t delta=0) const noexcept; + /** + * Get the maximum length of the JSON text for a given token. + * + * The length will include any whitespace at the end of the token. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = current token, + * 1 = next token, -1 = prev token. + */ + simdjson_really_inline uint32_t peek_length(int32_t delta=0) const noexcept; + + /** + * Get the JSON text for a given token. + * + * This is not null-terminated; it is a view into the JSON. + * + * @param position The position of the token. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(token_position position) const noexcept; + /** + * Get the maximum length of the JSON text for a given token. + * + * The length will include any whitespace at the end of the token. + * + * @param position The position of the token. + */ + simdjson_really_inline uint32_t peek_length(token_position position) const noexcept; + + /** + * Save the current index to be restored later. + */ + simdjson_really_inline token_position position() const noexcept; + /** + * Reset to a previously saved index. + */ + simdjson_really_inline void set_position(token_position target_checkpoint) noexcept; + + // NOTE: we don't support a full C++ iterator interface, because we expect people to make + // different calls to advance the iterator based on *their own* state. + + simdjson_really_inline bool operator==(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator!=(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator>(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator>=(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator<(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator<=(const token_iterator &other) const noexcept; + +protected: + simdjson_really_inline token_iterator(const uint8_t *buf, token_position index) noexcept; + + /** + * Get the index of the JSON text for a given token (relative). + * + * This is not null-terminated; it is a view into the JSON. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = current token, + * 1 = next token, -1 = prev token. + */ + simdjson_really_inline uint32_t peek_index(int32_t delta=0) const noexcept; + /** + * Get the index of the JSON text for a given token. + * + * This is not null-terminated; it is a view into the JSON. + * + * @param position The position of the token. + * + */ + simdjson_really_inline uint32_t peek_index(token_position position) const noexcept; + + const uint8_t *buf{}; + token_position index{}; + + friend class json_iterator; + friend class value_iterator; + friend class object; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept; +}; + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public ppc64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(ppc64::ondemand::token_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + simdjson_really_inline ~simdjson_result() noexcept = default; ///< @private +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/token_iterator.h */ +/* begin file include/simdjson/generic/ondemand/json_iterator.h */ +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +class document; +class object; +class array; +class value; +class raw_json_string; +class parser; + +/** + * Iterates through JSON tokens, keeping track of depth and string buffer. + * + * @private This is not intended for external use. + */ +class json_iterator { +protected: + token_iterator token{}; + ondemand::parser *parser{}; + /** + * Next free location in the string buffer. + * + * Used by raw_json_string::unescape() to have a place to unescape strings to. + */ + uint8_t *_string_buf_loc{}; + /** + * JSON error, if there is one. + * + * INCORRECT_TYPE and NO_SUCH_FIELD are *not* stored here, ever. + * + * PERF NOTE: we *hope* this will be elided into control flow, as it is only used (a) in the first + * iteration of the loop, or (b) for the final iteration after a missing comma is found in ++. If + * this is not elided, we should make sure it's at least not using up a register. Failing that, + * we should store it in document so there's only one of them. + */ + error_code error{SUCCESS}; + /** + * Depth of the current token in the JSON. + * + * - 0 = finished with document + * - 1 = document root value (could be [ or {, not yet known) + * - 2 = , or } inside root array/object + * - 3 = key or value inside root array/object. + */ + depth_t _depth{}; + +public: + simdjson_really_inline json_iterator() noexcept = default; + simdjson_really_inline json_iterator(json_iterator &&other) noexcept; + simdjson_really_inline json_iterator &operator=(json_iterator &&other) noexcept; + simdjson_really_inline json_iterator(const json_iterator &other) noexcept = delete; + simdjson_really_inline json_iterator &operator=(const json_iterator &other) noexcept = delete; + + /** + * Skips a JSON value, whether it is a scalar, array or object. + */ + simdjson_warn_unused simdjson_really_inline error_code skip_child(depth_t parent_depth) noexcept; + + /** + * Tell whether the iterator is still at the start + */ + simdjson_really_inline bool at_root() const noexcept; + + /** + * Get the root value iterator + */ + simdjson_really_inline token_position root_checkpoint() const noexcept; + + /** + * Assert if the iterator is not at the start + */ + simdjson_really_inline void assert_at_root() const noexcept; + + /** + * Tell whether the iterator is at the EOF mark + */ + simdjson_really_inline bool at_eof() const noexcept; + + /** + * Tell whether the iterator is live (has not been moved). + */ + simdjson_really_inline bool is_alive() const noexcept; + + /** + * Abandon this iterator, setting depth to 0 (as if the document is finished). + */ + simdjson_really_inline void abandon() noexcept; + + /** + * Advance the current token. + */ + simdjson_really_inline const uint8_t *advance() noexcept; + + /** + * Get the JSON text for a given token (relative). + * + * This is not null-terminated; it is a view into the JSON. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = next token, -1 = prev token. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(int32_t delta=0) const noexcept; + /** + * Get the maximum length of the JSON text for the current token (or relative). + * + * The length will include any whitespace at the end of the token. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = next token, -1 = prev token. + */ + simdjson_really_inline uint32_t peek_length(int32_t delta=0) const noexcept; + /** + * Get the JSON text for a given token. + * + * This is not null-terminated; it is a view into the JSON. + * + * @param index The position of the token to retrieve. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(token_position position) const noexcept; + /** + * Get the maximum length of the JSON text for the current token (or relative). + * + * The length will include any whitespace at the end of the token. + * + * @param index The position of the token to retrieve. + */ + simdjson_really_inline uint32_t peek_length(token_position position) const noexcept; + + /** + * Ascend one level. + * + * Validates that the depth - 1 == parent_depth. + * + * @param parent_depth the expected parent depth. + */ + simdjson_really_inline void ascend_to(depth_t parent_depth) noexcept; + + /** + * Descend one level. + * + * Validates that the new depth == child_depth. + * + * @param child_depth the expected child depth. + */ + simdjson_really_inline void descend_to(depth_t parent_depth) noexcept; + + /** + * Get current depth. + */ + simdjson_really_inline depth_t depth() const noexcept; + + /** + * Get current (writeable) location in the string buffer. + */ + simdjson_really_inline uint8_t *&string_buf_loc() noexcept; + + /** + * Report an error, preventing further iteration. + * + * @param error The error to report. Must not be SUCCESS, UNINITIALIZED, INCORRECT_TYPE, or NO_SUCH_FIELD. + * @param message An error message to report with the error. + */ + simdjson_really_inline error_code report_error(error_code error, const char *message) noexcept; + + /** + * Log error, but don't stop iteration. + * @param error The error to report. Must be INCORRECT_TYPE, or NO_SUCH_FIELD. + * @param message An error message to report with the error. + */ + simdjson_really_inline error_code optional_error(error_code error, const char *message) noexcept; + + template simdjson_warn_unused simdjson_really_inline bool copy_to_buffer(const uint8_t *json, uint32_t max_len, uint8_t (&tmpbuf)[N]) noexcept; + template simdjson_warn_unused simdjson_really_inline bool peek_to_buffer(uint8_t (&tmpbuf)[N]) noexcept; + template simdjson_warn_unused simdjson_really_inline bool advance_to_buffer(uint8_t (&tmpbuf)[N]) noexcept; + + simdjson_really_inline token_position position() const noexcept; + simdjson_really_inline void set_position(token_position target_checkpoint) noexcept; + +protected: + simdjson_really_inline json_iterator(const uint8_t *buf, ondemand::parser *parser) noexcept; + + friend class document; + friend class object; + friend class array; + friend class value; + friend class raw_json_string; + friend class parser; + friend class value_iterator; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept; +}; // json_iterator + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public ppc64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(ppc64::ondemand::json_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + + simdjson_really_inline simdjson_result() noexcept = default; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/json_iterator.h */ +/* begin file include/simdjson/generic/ondemand/value_iterator.h */ +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +class document; +class object; +class array; +class value; +class raw_json_string; +class parser; + +/** + * Iterates through a single JSON value at a particular depth. + * + * Does not keep track of the type of value: provides methods for objects, arrays and scalars and expects + * the caller to call the right ones. + * + * @private This is not intended for external use. + */ +class value_iterator { +protected: + /** The underlying JSON iterator */ + json_iterator *_json_iter{}; + /** The depth of this value */ + depth_t _depth{}; + /** + * The starting token index for this value + * + * PERF NOTE: this is a safety check; we expect this to be elided in release builds. + */ + token_position _start_position{}; + +public: + simdjson_really_inline value_iterator() noexcept = default; + + /** + * Denote that we're starting a document. + */ + simdjson_really_inline void start_document() noexcept; + + /** + * Skips a non-iterated or partially-iterated JSON value, whether it is a scalar, array or object. + * + * Optimized for scalars. + */ + simdjson_warn_unused simdjson_really_inline error_code skip_child() noexcept; + + /** + * Tell whether the iterator is at the EOF mark + */ + simdjson_really_inline bool at_eof() const noexcept; + + /** + * Tell whether the iterator is at the start of the value + */ + simdjson_really_inline bool at_start() const noexcept; + + /** + * Tell whether the value is open--if the value has not been used, or the array/object is still open. + */ + simdjson_really_inline bool is_open() const noexcept; + + /** + * Tell whether the value is at an object's first field (just after the {). + */ + simdjson_really_inline bool at_first_field() const noexcept; + + /** + * Abandon all iteration. + */ + simdjson_really_inline void abandon() noexcept; + + /** + * Get the child value as a value_iterator. + */ + simdjson_really_inline value_iterator child_value() const noexcept; + + /** + * Get the depth of this value. + */ + simdjson_really_inline depth_t depth() const noexcept; + + /** + * @addtogroup object Object iteration + * + * Methods to iterate and find object fields. These methods generally *assume* the value is + * actually an object; the caller is responsible for keeping track of that fact. + * + * @{ + */ + + /** + * Start an object iteration. + * + * @returns Whether the object had any fields (returns false for empty). + * @error INCORRECT_TYPE if there is no opening { + */ + simdjson_warn_unused simdjson_really_inline simdjson_result start_object() noexcept; + /** + * Check for an opening { and start an object iteration. + * + * @returns Whether the object had any fields (returns false for empty). + * @error INCORRECT_TYPE if there is no opening { + */ + simdjson_warn_unused simdjson_really_inline simdjson_result try_start_object() noexcept; + + /** + * Start an object iteration after the user has already checked and moved past the {. + * + * Does not move the iterator. + * + * @returns Whether the object had any fields (returns false for empty). + */ + simdjson_warn_unused simdjson_really_inline bool started_object() noexcept; + + /** + * Moves to the next field in an object. + * + * Looks for , and }. If } is found, the object is finished and the iterator advances past it. + * Otherwise, it advances to the next value. + * + * @return whether there is another field in the object. + * @error TAPE_ERROR If there is a comma missing between fields. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result has_next_field() noexcept; + + /** + * Get the current field's key. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result field_key() noexcept; + + /** + * Pass the : in the field and move to its value. + */ + simdjson_warn_unused simdjson_really_inline error_code field_value() noexcept; + + /** + * Find the next field with the given key. + * + * Assumes you have called next_field() or otherwise matched the previous value. + * + * This means the iterator must be sitting at the next key: + * + * ``` + * { "a": 1, "b": 2 } + * ^ + * ``` + * + * Key is *raw JSON,* meaning it will be matched against the verbatim JSON without attempting to + * unescape it. This works well for typical ASCII and UTF-8 keys (almost all of them), but may + * fail to match some keys with escapes (\u, \n, etc.). + */ + simdjson_warn_unused simdjson_really_inline error_code find_field(const std::string_view key) noexcept; + + /** + * Find the next field with the given key, *without* unescaping. This assumes object order: it + * will not find the field if it was already passed when looking for some *other* field. + * + * Assumes you have called next_field() or otherwise matched the previous value. + * + * This means the iterator must be sitting at the next key: + * + * ``` + * { "a": 1, "b": 2 } + * ^ + * ``` + * + * Key is *raw JSON,* meaning it will be matched against the verbatim JSON without attempting to + * unescape it. This works well for typical ASCII and UTF-8 keys (almost all of them), but may + * fail to match some keys with escapes (\u, \n, etc.). + */ + simdjson_warn_unused simdjson_really_inline simdjson_result find_field_raw(const std::string_view key) noexcept; + + /** + * Find the field with the given key without regard to order, and *without* unescaping. + * + * This is an unordered object lookup: if the field is not found initially, it will cycle around and scan from the beginning. + * + * Assumes you have called next_field() or otherwise matched the previous value. + * + * This means the iterator must be sitting at the next key: + * + * ``` + * { "a": 1, "b": 2 } + * ^ + * ``` + * + * Key is *raw JSON,* meaning it will be matched against the verbatim JSON without attempting to + * unescape it. This works well for typical ASCII and UTF-8 keys (almost all of them), but may + * fail to match some keys with escapes (\u, \n, etc.). + */ + simdjson_warn_unused simdjson_really_inline simdjson_result find_field_unordered_raw(const std::string_view key) noexcept; + + /** @} */ + + /** + * @addtogroup array Array iteration + * Methods to iterate over array elements. These methods generally *assume* the value is actually + * an object; the caller is responsible for keeping track of that fact. + * @{ + */ + + /** + * Check for an opening [ and start an array iteration. + * + * @param json A pointer to the potential [. + * @returns Whether the array had any elements (returns false for empty). + * @error INCORRECT_TYPE If there is no [. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result start_array() noexcept; + /** + * Check for an opening [ and start an array iteration. + * + * @returns Whether the array had any elements (returns false for empty). + * @error INCORRECT_TYPE If there is no [. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result try_start_array() noexcept; + + /** + * Start an array iteration after the user has already checked and moved past the [. + * + * Does not move the iterator. + * + * @returns Whether the array had any elements (returns false for empty). + */ + simdjson_warn_unused simdjson_really_inline bool started_array() noexcept; + + /** + * Moves to the next element in an array. + * + * Looks for , and ]. If ] is found, the array is finished and the iterator advances past it. + * Otherwise, it advances to the next value. + * + * @return Whether there is another element in the array. + * @error TAPE_ERROR If there is a comma missing between elements. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result has_next_element() noexcept; + + /** + * Get a child value iterator. + */ + simdjson_warn_unused simdjson_really_inline value_iterator child() const noexcept; + + /** @} */ + + /** + * @defgroup scalar Scalar values + * @addtogroup scalar + * @{ + */ + + simdjson_warn_unused simdjson_really_inline simdjson_result get_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_uint64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_int64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_double() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_bool() noexcept; + simdjson_really_inline bool is_null() noexcept; + + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_raw_json_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_uint64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_int64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_double() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_bool() noexcept; + simdjson_really_inline bool is_root_null() noexcept; + + simdjson_really_inline error_code error() const noexcept; + simdjson_really_inline uint8_t *&string_buf_loc() noexcept; + simdjson_really_inline const json_iterator &json_iter() const noexcept; + simdjson_really_inline json_iterator &json_iter() noexcept; + + /** @} */ + +protected: + simdjson_really_inline value_iterator(json_iterator *json_iter, depth_t depth, token_position start_index) noexcept; + + simdjson_really_inline bool parse_null(const uint8_t *json) const noexcept; + simdjson_really_inline simdjson_result parse_bool(const uint8_t *json) const noexcept; + + simdjson_really_inline const uint8_t *peek_scalar() const noexcept; + simdjson_really_inline uint32_t peek_scalar_length() const noexcept; + simdjson_really_inline const uint8_t *advance_scalar(const char *type) const noexcept; + simdjson_really_inline const uint8_t *advance_root_scalar(const char *type) const noexcept; + simdjson_really_inline const uint8_t *advance_non_root_scalar(const char *type) const noexcept; + + simdjson_really_inline error_code incorrect_type_error(const char *message) const noexcept; + + simdjson_really_inline bool is_at_start() const noexcept; + simdjson_really_inline void assert_at_start() const noexcept; + simdjson_really_inline void assert_at_root() const noexcept; + simdjson_really_inline void assert_at_child() const noexcept; + simdjson_really_inline void assert_at_next() const noexcept; + simdjson_really_inline void assert_at_non_root_start() const noexcept; + + friend class document; + friend class object; + friend class array; + friend class value; +}; // value_iterator + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public ppc64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(ppc64::ondemand::value_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value_iterator.h */ +/* begin file include/simdjson/generic/ondemand/array_iterator.h */ + +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +class array; +class value; +class document; + +/** + * A forward-only JSON array. + * + * This is an input_iterator, meaning: + * - It is forward-only + * - * must be called exactly once per element. + * - ++ must be called exactly once in between each * (*, ++, *, ++, * ...) + */ +class array_iterator { +public: + /** Create a new, invalid array iterator. */ + simdjson_really_inline array_iterator() noexcept = default; + + // + // Iterator interface + // + + /** + * Get the current element. + * + * Part of the std::iterator interface. + */ + simdjson_really_inline simdjson_result operator*() noexcept; // MUST ONLY BE CALLED ONCE PER ITERATION. + /** + * Check if we are at the end of the JSON. + * + * Part of the std::iterator interface. + * + * @return true if there are no more elements in the JSON array. + */ + simdjson_really_inline bool operator==(const array_iterator &) const noexcept; + /** + * Check if there are more elements in the JSON array. + * + * Part of the std::iterator interface. + * + * @return true if there are more elements in the JSON array. + */ + simdjson_really_inline bool operator!=(const array_iterator &) const noexcept; + /** + * Move to the next element. + * + * Part of the std::iterator interface. + */ + simdjson_really_inline array_iterator &operator++() noexcept; + +private: + value_iterator iter{}; + + simdjson_really_inline array_iterator(const value_iterator &iter) noexcept; + + friend class array; + friend class value; + friend struct simdjson_result; +}; + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public ppc64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(ppc64::ondemand::array_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + // + // Iterator interface + // + + simdjson_really_inline simdjson_result operator*() noexcept; // MUST ONLY BE CALLED ONCE PER ITERATION. + simdjson_really_inline bool operator==(const simdjson_result &) const noexcept; + simdjson_really_inline bool operator!=(const simdjson_result &) const noexcept; + simdjson_really_inline simdjson_result &operator++() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array_iterator.h */ +/* begin file include/simdjson/generic/ondemand/object_iterator.h */ + +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +class field; + +class object_iterator { +public: + /** + * Create a new invalid object_iterator. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline object_iterator() noexcept = default; + + // + // Iterator interface + // + + // Reads key and value, yielding them to the user. + // MUST ONLY BE CALLED ONCE PER ITERATION. + simdjson_really_inline simdjson_result operator*() noexcept; + // Assumes it's being compared with the end. true if depth < iter->depth. + simdjson_really_inline bool operator==(const object_iterator &) const noexcept; + // Assumes it's being compared with the end. true if depth >= iter->depth. + simdjson_really_inline bool operator!=(const object_iterator &) const noexcept; + // Checks for ']' and ',' + simdjson_really_inline object_iterator &operator++() noexcept; + +private: + /** + * The underlying JSON iterator. + * + * PERF NOTE: expected to be elided in favor of the parent document: this is set when the object + * is first used, and never changes afterwards. + */ + value_iterator iter{}; + + simdjson_really_inline object_iterator(const value_iterator &iter) noexcept; + friend struct simdjson_result; + friend class object; +}; + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public ppc64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(ppc64::ondemand::object_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + // + // Iterator interface + // + + // Reads key and value, yielding them to the user. + simdjson_really_inline simdjson_result operator*() noexcept; // MUST ONLY BE CALLED ONCE PER ITERATION. + // Assumes it's being compared with the end. true if depth < iter->depth. + simdjson_really_inline bool operator==(const simdjson_result &) const noexcept; + // Assumes it's being compared with the end. true if depth >= iter->depth. + simdjson_really_inline bool operator!=(const simdjson_result &) const noexcept; + // Checks for ']' and ',' + simdjson_really_inline simdjson_result &operator++() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object_iterator.h */ +/* begin file include/simdjson/generic/ondemand/array.h */ + +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +class value; +class document; + +/** + * A forward-only JSON array. + */ +class array { +public: + /** + * Create a new invalid array. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline array() noexcept = default; + + /** + * Begin array iteration. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline array_iterator begin() noexcept; + /** + * Sentinel representing the end of the array. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline array_iterator end() noexcept; + +protected: + /** + * Begin array iteration. + * + * @param iter The iterator. Must be where the initial [ is expected. Will be *moved* into the + * resulting array. + * @error INCORRECT_TYPE if the iterator is not at [. + */ + static simdjson_really_inline simdjson_result start(value_iterator &iter) noexcept; + /** + * Begin array iteration. + * + * @param iter The iterator. Must be where the initial [ is expected. Will be *moved* into the + * resulting array. + * @error INCORRECT_TYPE if the iterator is not at [. + */ + static simdjson_really_inline simdjson_result try_start(value_iterator &iter) noexcept; + /** + * Begin array iteration. + * + * This version of the method should be called after the initial [ has been verified, and is + * intended for use by switch statements that check the type of a value. + * + * @param iter The iterator. Must be after the initial [. Will be *moved* into the resulting array. + */ + static simdjson_really_inline array started(value_iterator &iter) noexcept; + + /** + * Create an array at the given Internal array creation. Call array::start() or array::started() instead of this. + * + * @param iter The iterator. Must either be at the start of the first element with iter.is_alive() + * == true, or past the [] with is_alive() == false if the array is empty. Will be *moved* + * into the resulting array. + */ + simdjson_really_inline array(const value_iterator &iter) noexcept; + + /** + * Iterator marking current position. + * + * iter.is_alive() == false indicates iteration is complete. + */ + value_iterator iter{}; + + friend class value; + friend struct simdjson_result; + friend struct simdjson_result; + friend class array_iterator; +}; + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public ppc64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(ppc64::ondemand::array &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result begin() noexcept; + simdjson_really_inline simdjson_result end() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array.h */ +/* begin file include/simdjson/generic/ondemand/document.h */ + +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +class parser; +class array; +class object; +class value; +class raw_json_string; +class array_iterator; + +/** + * A JSON document iteration. + * + * Used by tokens to get text, and string buffer location. + * + * You must keep the document around during iteration. + */ +class document { +public: + /** + * Create a new invalid document. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline document() noexcept = default; + simdjson_really_inline document(const document &other) noexcept = delete; + simdjson_really_inline document(document &&other) noexcept = default; + simdjson_really_inline document &operator=(const document &other) noexcept = delete; + simdjson_really_inline document &operator=(document &&other) noexcept = default; + + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @returns INCORRECT_TYPE If the JSON value is not an array. + */ + simdjson_really_inline simdjson_result get_array() & noexcept; + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @returns INCORRECT_TYPE If the JSON value is not an object. + */ + simdjson_really_inline simdjson_result get_object() & noexcept; + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline simdjson_result get_uint64() noexcept; + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline simdjson_result get_int64() noexcept; + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @returns INCORRECT_TYPE If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline simdjson_result get_double() noexcept; + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_string() noexcept; + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @returns INCORRECT_TYPE if the JSON value is not true or false. + */ + simdjson_really_inline simdjson_result get_bool() noexcept; + /** + * Checks if this JSON value is null. + * + * @returns Whether the value is null. + */ + simdjson_really_inline bool is_null() noexcept; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @returns A value of the given type, parsed from the JSON. + * @returns INCORRECT_TYPE If the JSON value is not the given type. + */ + template simdjson_really_inline simdjson_result get() & noexcept; + /** @overload template simdjson_result get() & noexcept */ + template simdjson_really_inline simdjson_result get() && noexcept; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @param out This is set to a value of the given type, parsed from the JSON. If there is an error, this may not be initialized. + * @returns INCORRECT_TYPE If the JSON value is not an object. + * @returns SUCCESS If the parse succeeded and the out parameter was set to the value. + */ + template simdjson_really_inline error_code get(T &out) & noexcept; + /** @overload template error_code get(T &out) & noexcept */ + template simdjson_really_inline error_code get(T &out) && noexcept; + +#if SIMDJSON_EXCEPTIONS + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an array. + */ + simdjson_really_inline operator array() & noexcept(false); + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an object. + */ + simdjson_really_inline operator object() & noexcept(false); + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline operator uint64_t() noexcept(false); + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline operator int64_t() noexcept(false); + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline operator double() noexcept(false); + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator std::string_view() noexcept(false); + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator raw_json_string() noexcept(false); + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not true or false. + */ + simdjson_really_inline operator bool() noexcept(false); +#endif + + /** + * Begin array iteration. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline simdjson_result begin() & noexcept; + /** + * Sentinel representing the end of the array. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline simdjson_result end() & noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + +protected: + simdjson_really_inline document(ondemand::json_iterator &&iter) noexcept; + simdjson_really_inline const uint8_t *text(uint32_t idx) const noexcept; + + simdjson_really_inline value_iterator resume_value_iterator() noexcept; + simdjson_really_inline value_iterator get_root_value_iterator() noexcept; + simdjson_really_inline value resume_value() noexcept; + simdjson_really_inline value get_root_value() noexcept; + static simdjson_really_inline document start(ondemand::json_iterator &&iter) noexcept; + + // + // Fields + // + json_iterator iter{}; ///< Current position in the document + static constexpr depth_t DOCUMENT_DEPTH = 0; ///< document depth is always 0 + + friend struct simdjson_result; + friend class array_iterator; + friend class value; + friend class ondemand::parser; + friend class object; + friend class array; + friend class field; + friend class token; +}; + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public ppc64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(ppc64::ondemand::document &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result get_array() & noexcept; + simdjson_really_inline simdjson_result get_object() & noexcept; + simdjson_really_inline simdjson_result get_uint64() noexcept; + simdjson_really_inline simdjson_result get_int64() noexcept; + simdjson_really_inline simdjson_result get_double() noexcept; + simdjson_really_inline simdjson_result get_string() noexcept; + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + simdjson_really_inline simdjson_result get_bool() noexcept; + simdjson_really_inline bool is_null() noexcept; + + template simdjson_really_inline simdjson_result get() & noexcept; + template simdjson_really_inline simdjson_result get() && noexcept; + + template simdjson_really_inline error_code get(T &out) & noexcept; + template simdjson_really_inline error_code get(T &out) && noexcept; + +#if SIMDJSON_EXCEPTIONS + simdjson_really_inline operator ppc64::ondemand::array() & noexcept(false); + simdjson_really_inline operator ppc64::ondemand::object() & noexcept(false); + simdjson_really_inline operator uint64_t() noexcept(false); + simdjson_really_inline operator int64_t() noexcept(false); + simdjson_really_inline operator double() noexcept(false); + simdjson_really_inline operator std::string_view() noexcept(false); + simdjson_really_inline operator ppc64::ondemand::raw_json_string() noexcept(false); + simdjson_really_inline operator bool() noexcept(false); +#endif + + simdjson_really_inline simdjson_result begin() & noexcept; + simdjson_really_inline simdjson_result end() & noexcept; + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/document.h */ +/* begin file include/simdjson/generic/ondemand/value.h */ + +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +class array; +class document; +class field; +class object; +class raw_json_string; + +/** + * An ephemeral JSON value returned during iteration. + */ +class value { +public: + /** + * Create a new invalid value. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline value() noexcept = default; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @returns A value of the given type, parsed from the JSON. + * @returns INCORRECT_TYPE If the JSON value is not the given type. + */ + template simdjson_really_inline simdjson_result get() & noexcept; + /** @overload template simdjson_result get() & noexcept */ + template simdjson_really_inline simdjson_result get() && noexcept; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @param out This is set to a value of the given type, parsed from the JSON. If there is an error, this may not be initialized. + * @returns INCORRECT_TYPE If the JSON value is not an object. + * @returns SUCCESS If the parse succeeded and the out parameter was set to the value. + */ + template simdjson_really_inline error_code get(T &out) & noexcept; + /** @overload template error_code get(T &out) & noexcept */ + template simdjson_really_inline error_code get(T &out) && noexcept; + + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @returns INCORRECT_TYPE If the JSON value is not an array. + */ + simdjson_really_inline simdjson_result get_array() && noexcept; + /** @overload simdjson_really_inline operator get_array() && noexcept(false); */ + simdjson_really_inline simdjson_result get_array() & noexcept; + + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @returns INCORRECT_TYPE If the JSON value is not an object. + */ + simdjson_really_inline simdjson_result get_object() && noexcept; + /** @overload simdjson_really_inline operator object() && noexcept(false); */ + simdjson_really_inline simdjson_result get_object() & noexcept; + + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline simdjson_result get_uint64() noexcept; + + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline simdjson_result get_int64() noexcept; + + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @returns INCORRECT_TYPE If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline simdjson_result get_double() noexcept; + + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_string() noexcept; + + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @returns INCORRECT_TYPE if the JSON value is not true or false. + */ + simdjson_really_inline simdjson_result get_bool() noexcept; + + /** + * Checks if this JSON value is null. + * + * @returns Whether the value is null. + */ + simdjson_really_inline bool is_null() noexcept; + +#if SIMDJSON_EXCEPTIONS + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an array. + */ + simdjson_really_inline operator array() && noexcept(false); + /** @overload simdjson_really_inline operator array() && noexcept(false); */ + simdjson_really_inline operator array() & noexcept(false); + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an object. + */ + simdjson_really_inline operator object() && noexcept(false); + /** @overload simdjson_really_inline operator object() && noexcept(false); */ + simdjson_really_inline operator object() & noexcept(false); + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline operator uint64_t() noexcept(false); + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline operator int64_t() noexcept(false); + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline operator double() noexcept(false); + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator std::string_view() noexcept(false); + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator raw_json_string() noexcept(false); + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not true or false. + */ + simdjson_really_inline operator bool() noexcept(false); +#endif + + /** + * Begin array iteration. + * + * Part of the std::iterable interface. + * + * @returns INCORRECT_TYPE If the JSON value is not an array. + */ + simdjson_really_inline simdjson_result begin() & noexcept; + /** + * Sentinel representing the end of the array. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline simdjson_result end() & noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) && noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) && noexcept; + +protected: + /** + * Create a value. + */ + simdjson_really_inline value(const value_iterator &iter) noexcept; + + /** + * Skip this value, allowing iteration to continue. + */ + simdjson_really_inline void skip() noexcept; + + /** + * Start a value at the current position. + * + * (It should already be started; this is just a self-documentation method.) + */ + static simdjson_really_inline value start(const value_iterator &iter) noexcept; + + /** + * Resume a value. + */ + static simdjson_really_inline value resume(const value_iterator &iter) noexcept; + + /** + * Get the object, starting or resuming it as necessary + */ + simdjson_really_inline simdjson_result start_or_resume_object() & noexcept; + /** @overload simdjson_really_inline simdjson_result start_or_resume_object() & noexcept; */ + simdjson_really_inline simdjson_result start_or_resume_object() && noexcept; + + // simdjson_really_inline void log_value(const char *type) const noexcept; + // simdjson_really_inline void log_error(const char *message) const noexcept; + + value_iterator iter{}; + + friend class document; + friend class array_iterator; + friend class field; + friend class object; + friend struct simdjson_result; + friend struct simdjson_result; + friend struct simdjson_result; +}; + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public ppc64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(ppc64::ondemand::value &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result get_array() && noexcept; + simdjson_really_inline simdjson_result get_array() & noexcept; + + simdjson_really_inline simdjson_result get_object() && noexcept; + simdjson_really_inline simdjson_result get_object() & noexcept; + + simdjson_really_inline simdjson_result get_uint64() noexcept; + simdjson_really_inline simdjson_result get_int64() noexcept; + simdjson_really_inline simdjson_result get_double() noexcept; + simdjson_really_inline simdjson_result get_string() noexcept; + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + simdjson_really_inline simdjson_result get_bool() noexcept; + simdjson_really_inline bool is_null() noexcept; + + template simdjson_really_inline simdjson_result get() & noexcept; + template simdjson_really_inline simdjson_result get() && noexcept; + + template simdjson_really_inline error_code get(T &out) & noexcept; + template simdjson_really_inline error_code get(T &out) && noexcept; + +#if SIMDJSON_EXCEPTIONS + simdjson_really_inline operator ppc64::ondemand::array() && noexcept(false); + simdjson_really_inline operator ppc64::ondemand::array() & noexcept(false); + simdjson_really_inline operator ppc64::ondemand::object() && noexcept(false); + simdjson_really_inline operator ppc64::ondemand::object() & noexcept(false); + simdjson_really_inline operator uint64_t() noexcept(false); + simdjson_really_inline operator int64_t() noexcept(false); + simdjson_really_inline operator double() noexcept(false); + simdjson_really_inline operator std::string_view() noexcept(false); + simdjson_really_inline operator ppc64::ondemand::raw_json_string() noexcept(false); + simdjson_really_inline operator bool() noexcept(false); +#endif + + simdjson_really_inline simdjson_result begin() & noexcept; + simdjson_really_inline simdjson_result end() & noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) && noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) && noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value.h */ +/* begin file include/simdjson/generic/ondemand/field.h */ + +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +/** + * A JSON field (key/value pair) in an object. + * + * Returned from object iteration. + * + * Extends from std::pair so you can use C++ algorithms that rely on pairs. + */ +class field : public std::pair { +public: + /** + * Create a new invalid field. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline field() noexcept; + + /** + * Get the key as a string_view (for higher speed, consider raw_key). + * We deliberately use a more cumbersome name (unescaped_key) to force users + * to think twice about using it. + * + * This consumes the key: once you have called unescaped_key(), you cannot + * call it again nor can you call key(). + */ + simdjson_really_inline simdjson_warn_unused simdjson_result unescaped_key() noexcept; + /** + * Get the key as a raw_json_string: this is fast and allows straight comparisons. + * We want this to be the default for most users. + */ + simdjson_really_inline raw_json_string key() const noexcept; + /** + * Get the field value. + */ + simdjson_really_inline ondemand::value &value() & noexcept; + /** + * @overload ondemand::value &ondemand::value() & noexcept + */ + simdjson_really_inline ondemand::value value() && noexcept; + +protected: + simdjson_really_inline field(raw_json_string key, ondemand::value &&value) noexcept; + static simdjson_really_inline simdjson_result start(value_iterator &parent_iter) noexcept; + static simdjson_really_inline simdjson_result start(const value_iterator &parent_iter, raw_json_string key) noexcept; + friend struct simdjson_result; + friend class object_iterator; +}; + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public ppc64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(ppc64::ondemand::field &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result unescaped_key() noexcept; + simdjson_really_inline simdjson_result key() noexcept; + simdjson_really_inline simdjson_result value() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/field.h */ +/* begin file include/simdjson/generic/ondemand/object.h */ + +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +/** + * A forward-only JSON object field iterator. + */ +class object { +public: + /** + * Create a new invalid object. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline object() noexcept = default; + + simdjson_really_inline object_iterator begin() noexcept; + simdjson_really_inline object_iterator end() noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; + +protected: + static simdjson_really_inline simdjson_result start(value_iterator &iter) noexcept; + static simdjson_really_inline simdjson_result try_start(value_iterator &iter) noexcept; + static simdjson_really_inline object started(value_iterator &iter) noexcept; + static simdjson_really_inline object resume(const value_iterator &iter) noexcept; + simdjson_really_inline object(const value_iterator &iter) noexcept; + + simdjson_warn_unused simdjson_really_inline error_code find_field_raw(const std::string_view key) noexcept; + + value_iterator iter{}; + + friend class value; + friend class document; + friend struct simdjson_result; +}; + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public ppc64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(ppc64::ondemand::object &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result begin() noexcept; + simdjson_really_inline simdjson_result end() noexcept; + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object.h */ +/* begin file include/simdjson/generic/ondemand/parser.h */ + +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +class array; +class object; +class value; +class raw_json_string; + +/** + * A JSON fragment iterator. + * + * This holds the actual iterator as well as the buffer for writing strings. + */ +class parser { +public: + /** + * Create a JSON parser. + * + * The new parser will have zero capacity. + */ + inline parser() noexcept = default; + + inline parser(parser &&other) noexcept = default; + simdjson_really_inline parser(const parser &other) = delete; + simdjson_really_inline parser &operator=(const parser &other) = delete; + + /** Deallocate the JSON parser. */ + inline ~parser() noexcept = default; + + /** + * Start iterating an on-demand JSON document. + * + * ondemand::parser parser; + * document doc = parser.iterate(json); + * + * ### IMPORTANT: Buffer Lifetime + * + * Because parsing is done while you iterate, you *must* keep the JSON buffer around at least as + * long as the document iteration. + * + * ### IMPORTANT: Document Lifetime + * + * Only one iteration at a time can happen per parser, and the parser *must* be kept alive during + * iteration to ensure intermediate buffers can be accessed. Any document must be destroyed before + * you call parse() again or destroy the parser. + * + * ### REQUIRED: Buffer Padding + * + * The buffer must have at least SIMDJSON_PADDING extra allocated bytes. It does not matter what + * those bytes are initialized to, as long as they are allocated. + * + * @param json The JSON to parse. + * + * @return The document, or an error: + * - MEMALLOC if realloc_if_needed the parser does not have enough capacity, and memory + * allocation fails. + * - EMPTY if the document is all whitespace. + * - UTF8_ERROR if the document is not valid UTF-8. + * - UNESCAPED_CHARS if a string contains control characters that must be escaped + * - UNCLOSED_STRING if there is an unclosed string in the document. + */ + simdjson_warn_unused simdjson_result iterate(const padded_string &json) & noexcept; + simdjson_warn_unused simdjson_result iterate(const simdjson_result &json) & noexcept; + simdjson_warn_unused simdjson_result iterate(padded_string &&json) & noexcept = delete; + simdjson_warn_unused simdjson_result iterate(const std::string_view &json) & noexcept = delete; + simdjson_warn_unused simdjson_result iterate(const std::string &json) & noexcept = delete; + /** + * @private + * + * Start iterating an on-demand JSON document. + * + * ondemand::parser parser; + * json_iterator doc = parser.iterate(json); + * + * ### IMPORTANT: Buffer Lifetime + * + * Because parsing is done while you iterate, you *must* keep the JSON buffer around at least as + * long as the document iteration. + * + * ### IMPORTANT: Document Lifetime + * + * Only one iteration at a time can happen per parser, and the parser *must* be kept alive during + * iteration to ensure intermediate buffers can be accessed. Any document must be destroyed before + * you call parse() again or destroy the parser. + * + * ### REQUIRED: Buffer Padding + * + * The buffer must have at least SIMDJSON_PADDING extra allocated bytes. It does not matter what + * those bytes are initialized to, as long as they are allocated. + * + * @param json The JSON to parse. + * + * @return The iterator, or an error: + * - MEMALLOC if realloc_if_needed the parser does not have enough capacity, and memory + * allocation fails. + * - EMPTY if the document is all whitespace. + * - UTF8_ERROR if the document is not valid UTF-8. + * - UNESCAPED_CHARS if a string contains control characters that must be escaped + * - UNCLOSED_STRING if there is an unclosed string in the document. + */ + simdjson_warn_unused simdjson_result iterate_raw(const padded_string &json) & noexcept; + +private: + /** @private [for benchmarking access] The implementation to use */ + std::unique_ptr dom_parser{}; + size_t _capacity{0}; + size_t _max_depth{0}; + std::unique_ptr string_buf{}; + + /** + * Ensure this parser has enough memory to process JSON documents up to `capacity` bytes in length + * and `max_depth` depth. + * + * @param capacity The new capacity. + * @param max_depth The new max_depth. Defaults to DEFAULT_MAX_DEPTH. + * @return The error, if there is one. + */ + simdjson_warn_unused error_code allocate(size_t capacity, size_t max_depth=DEFAULT_MAX_DEPTH) noexcept; + + friend class json_iterator; +}; + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public ppc64::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(ppc64::ondemand::parser &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/parser.h */ +/* end file include/simdjson/generic/ondemand.h */ + +// Inline definitions +/* begin file include/simdjson/generic/implementation_simdjson_result_base-inl.h */ +namespace simdjson { +namespace ppc64 { + +// +// internal::implementation_simdjson_result_base inline implementation +// + +template +simdjson_really_inline void implementation_simdjson_result_base::tie(T &value, error_code &error) && noexcept { + // on the clang compiler that comes with current macOS (Apple clang version 11.0.0), + // tie(width, error) = size["w"].get(); + // fails with "error: no viable overloaded '='"" + error = this->second; + if (!error) { + value = std::forward>(*this).first; + } +} + +template +simdjson_warn_unused simdjson_really_inline error_code implementation_simdjson_result_base::get(T &value) && noexcept { + error_code error; + std::forward>(*this).tie(value, error); + return error; +} + +template +simdjson_really_inline error_code implementation_simdjson_result_base::error() const noexcept { + return this->second; +} + +#if SIMDJSON_EXCEPTIONS + +template +simdjson_really_inline T& implementation_simdjson_result_base::value() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return this->first; +} + +template +simdjson_really_inline T&& implementation_simdjson_result_base::value() && noexcept(false) { + return std::forward>(*this).take_value(); +} + +template +simdjson_really_inline T&& implementation_simdjson_result_base::take_value() && noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return std::forward(this->first); +} + +template +simdjson_really_inline implementation_simdjson_result_base::operator T&&() && noexcept(false) { + return std::forward>(*this).take_value(); +} + +#endif // SIMDJSON_EXCEPTIONS + +template +simdjson_really_inline implementation_simdjson_result_base::implementation_simdjson_result_base(T &&value, error_code error) noexcept + : first{std::forward(value)}, second{error} {} +template +simdjson_really_inline implementation_simdjson_result_base::implementation_simdjson_result_base(error_code error) noexcept + : implementation_simdjson_result_base(T{}, error) {} +template +simdjson_really_inline implementation_simdjson_result_base::implementation_simdjson_result_base(T &&value) noexcept + : implementation_simdjson_result_base(std::forward(value), SUCCESS) {} + +} // namespace ppc64 +} // namespace simdjson +/* end file include/simdjson/generic/implementation_simdjson_result_base-inl.h */ +/* begin file include/simdjson/generic/ondemand-inl.h */ +/* begin file include/simdjson/generic/ondemand/logger-inl.h */ +namespace simdjson { +namespace ppc64 { +namespace ondemand { +namespace logger { + +static constexpr const char * DASHES = "----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------"; +static constexpr const int LOG_EVENT_LEN = 20; +static constexpr const int LOG_BUFFER_LEN = 30; +static constexpr const int LOG_SMALL_BUFFER_LEN = 10; +static int log_depth = 0; // Not threadsafe. Log only. + +// Helper to turn unprintable or newline characters into spaces +static simdjson_really_inline char printable_char(char c) { + if (c >= 0x20) { + return c; + } else { + return ' '; + } +} + +simdjson_really_inline void log_event(const json_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_line(iter, "", type, detail, delta, depth_delta); +} +simdjson_really_inline void log_value(const json_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_line(iter, "", type, detail, delta, depth_delta); +} +simdjson_really_inline void log_value(const json_iterator &iter, token_position index, depth_t depth, const char *type, std::string_view detail) noexcept { + log_line(iter, index, depth, "", type, detail); +} +simdjson_really_inline void log_start_value(const json_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_line(iter, "+", type, "", delta, depth_delta); + log_depth++; +} +simdjson_really_inline void log_end_value(const json_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_depth--; + log_line(iter, "-", type, "", delta, depth_delta); +} +simdjson_really_inline void log_error(const json_iterator &iter, const char *error, const char *detail, int delta, int depth_delta) noexcept { + log_line(iter, "ERROR: ", error, detail, delta, depth_delta); +} +simdjson_really_inline void log_error(const json_iterator &iter, token_position index, depth_t depth, const char *error, const char *detail) noexcept { + log_line(iter, index, depth, "ERROR: ", error, detail); +} + +simdjson_really_inline void log_event(const value_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_event(iter.json_iter(), type, detail, delta, depth_delta); +} +simdjson_really_inline void log_value(const value_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_value(iter.json_iter(), type, detail, delta, depth_delta); +} +simdjson_really_inline void log_start_value(const value_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_start_value(iter.json_iter(), type, delta, depth_delta); +} +simdjson_really_inline void log_end_value(const value_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_end_value(iter.json_iter(), type, delta, depth_delta); +} +simdjson_really_inline void log_error(const value_iterator &iter, const char *error, const char *detail, int delta, int depth_delta) noexcept { + log_error(iter.json_iter(), error, detail, delta, depth_delta); +} + +simdjson_really_inline void log_headers() noexcept { + log_depth = 0; + if (LOG_ENABLED) { + printf("\n"); + printf("| %-*s ", LOG_EVENT_LEN, "Event"); + printf("| %-*s ", LOG_BUFFER_LEN, "Buffer"); + printf("| %-*s ", LOG_SMALL_BUFFER_LEN, "Next"); + // printf("| %-*s ", 5, "Next#"); + printf("| %-*s ", 5, "Depth"); + printf("| Detail "); + printf("|\n"); + + printf("|%.*s", LOG_EVENT_LEN+2, DASHES); + printf("|%.*s", LOG_BUFFER_LEN+2, DASHES); + printf("|%.*s", LOG_SMALL_BUFFER_LEN+2, DASHES); + // printf("|%.*s", 5+2, DASHES); + printf("|%.*s", 5+2, DASHES); + printf("|--------"); + printf("|\n"); + fflush(stdout); + } +} + +simdjson_really_inline void log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept { + log_line(iter, iter.token.index+delta, depth_t(iter.depth()+depth_delta), title_prefix, title, detail); +} +simdjson_really_inline void log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept { + if (LOG_ENABLED) { + const int indent = depth*2; + const auto buf = iter.token.buf; + printf("| %*s%s%-*s ", + indent, "", + title_prefix, + LOG_EVENT_LEN - indent - int(strlen(title_prefix)), title + ); + { + // Print the current structural. + printf("| "); + auto current_structural = &buf[*index]; + for (int i=0;i raw_json_string::unescape(uint8_t *&dst) const noexcept { + uint8_t *end = stringparsing::parse_string(buf, dst); + if (!end) { return STRING_ERROR; } + std::string_view result((const char *)dst, end-dst); + dst = end; + return result; +} + +simdjson_really_inline simdjson_warn_unused simdjson_result raw_json_string::unescape(json_iterator &iter) const noexcept { + return unescape(iter.string_buf_loc()); +} + +simdjson_unused simdjson_really_inline bool operator==(const raw_json_string &a, std::string_view b) noexcept { + return !memcmp(a.raw(), b.data(), b.size()); +} + +simdjson_unused simdjson_really_inline bool operator==(std::string_view a, const raw_json_string &b) noexcept { + return b == a; +} + +simdjson_unused simdjson_really_inline bool operator!=(const raw_json_string &a, std::string_view b) noexcept { + return !(a == b); +} + +simdjson_unused simdjson_really_inline bool operator!=(std::string_view a, const raw_json_string &b) noexcept { + return !(a == b); +} + +simdjson_unused simdjson_really_inline std::ostream &operator<<(std::ostream &out, const raw_json_string &str) noexcept { + bool in_escape = false; + const char *s = str.raw(); + while (true) { + switch (*s) { + case '\\': in_escape = !in_escape; break; + case '"': if (in_escape) { in_escape = false; } else { return out; } break; + default: if (in_escape) { in_escape = false; } + } + out << *s; + s++; + } +} + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(ppc64::ondemand::raw_json_string &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +simdjson_really_inline simdjson_result simdjson_result::raw() const noexcept { + if (error()) { return error(); } + return first.raw(); +} +simdjson_really_inline simdjson_warn_unused simdjson_result simdjson_result::unescape(uint8_t *&dst) const noexcept { + if (error()) { return error(); } + return first.unescape(dst); +} +simdjson_really_inline simdjson_warn_unused simdjson_result simdjson_result::unescape(ppc64::ondemand::json_iterator &iter) const noexcept { + if (error()) { return error(); } + return first.unescape(iter); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/raw_json_string-inl.h */ +/* begin file include/simdjson/generic/ondemand/token_iterator-inl.h */ +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +simdjson_really_inline token_iterator::token_iterator(const uint8_t *_buf, token_position _index) noexcept + : buf{_buf}, index{_index} +{ +} + +simdjson_really_inline const uint8_t *token_iterator::advance() noexcept { + return &buf[*(index++)]; +} + +simdjson_really_inline const uint8_t *token_iterator::peek(token_position position) const noexcept { + return &buf[*position]; +} +simdjson_really_inline uint32_t token_iterator::peek_index(token_position position) const noexcept { + return *position; +} +simdjson_really_inline uint32_t token_iterator::peek_length(token_position position) const noexcept { + return *(position+1) - *position; +} + +simdjson_really_inline const uint8_t *token_iterator::peek(int32_t delta) const noexcept { + return &buf[*(index+delta)]; +} +simdjson_really_inline uint32_t token_iterator::peek_index(int32_t delta) const noexcept { + return *(index+delta); +} +simdjson_really_inline uint32_t token_iterator::peek_length(int32_t delta) const noexcept { + return *(index+delta+1) - *(index+delta); +} + +simdjson_really_inline token_position token_iterator::position() const noexcept { + return index; +} +simdjson_really_inline void token_iterator::set_position(token_position target_checkpoint) noexcept { + index = target_checkpoint; +} + +simdjson_really_inline bool token_iterator::operator==(const token_iterator &other) const noexcept { + return index == other.index; +} +simdjson_really_inline bool token_iterator::operator!=(const token_iterator &other) const noexcept { + return index != other.index; +} +simdjson_really_inline bool token_iterator::operator>(const token_iterator &other) const noexcept { + return index > other.index; +} +simdjson_really_inline bool token_iterator::operator>=(const token_iterator &other) const noexcept { + return index >= other.index; +} +simdjson_really_inline bool token_iterator::operator<(const token_iterator &other) const noexcept { + return index < other.index; +} +simdjson_really_inline bool token_iterator::operator<=(const token_iterator &other) const noexcept { + return index <= other.index; +} + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(ppc64::ondemand::token_iterator &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/token_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/json_iterator-inl.h */ +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +simdjson_really_inline json_iterator::json_iterator(json_iterator &&other) noexcept + : token(std::forward(other.token)), + parser{other.parser}, + _string_buf_loc{other._string_buf_loc}, + _depth{other._depth} +{ + other.parser = nullptr; +} +simdjson_really_inline json_iterator &json_iterator::operator=(json_iterator &&other) noexcept { + token = other.token; + parser = other.parser; + _string_buf_loc = other._string_buf_loc; + _depth = other._depth; + other.parser = nullptr; + return *this; +} + +simdjson_really_inline json_iterator::json_iterator(const uint8_t *buf, ondemand::parser *_parser) noexcept + : token(buf, _parser->dom_parser->structural_indexes.get()), + parser{_parser}, + _string_buf_loc{parser->string_buf.get()}, + _depth{1} +{ + // Release the string buf so it can be reused by the next document + logger::log_headers(); +} + +// GCC 7 warns when the first line of this function is inlined away into oblivion due to the caller +// relating depth and parent_depth, which is a desired effect. The warning does not show up if the +// skip_child() function is not marked inline). +SIMDJSON_PUSH_DISABLE_WARNINGS +SIMDJSON_DISABLE_STRICT_OVERFLOW_WARNING +simdjson_warn_unused simdjson_really_inline error_code json_iterator::skip_child(depth_t parent_depth) noexcept { + if (depth() <= parent_depth) { return SUCCESS; } + + switch (*advance()) { + // TODO consider whether matching braces is a requirement: if non-matching braces indicates + // *missing* braces, then future lookups are not in the object/arrays they think they are, + // violating the rule "validate enough structure that the user can be confident they are + // looking at the right values." + // PERF TODO we can eliminate the switch here with a lookup of how much to add to depth + + // For the first open array/object in a value, we've already incremented depth, so keep it the same + // We never stop at colon, but if we did, it wouldn't affect depth + case '[': case '{': case ':': + logger::log_start_value(*this, "skip"); + break; + // If there is a comma, we have just finished a value in an array/object, and need to get back in + case ',': + logger::log_value(*this, "skip"); + break; + // ] or } means we just finished a value and need to jump out of the array/object + case ']': case '}': + logger::log_end_value(*this, "skip"); + _depth--; + if (depth() <= parent_depth) { return SUCCESS; } + break; + // Anything else must be a scalar value + default: + // For the first scalar, we will have incremented depth already, so we decrement it here. + logger::log_value(*this, "skip"); + _depth--; + if (depth() <= parent_depth) { return SUCCESS; } + break; + } + + // Now that we've considered the first value, we only increment/decrement for arrays/objects + auto end = &parser->dom_parser->structural_indexes[parser->dom_parser->n_structural_indexes]; + while (token.index <= end) { + switch (*advance()) { + case '[': case '{': + logger::log_start_value(*this, "skip"); + _depth++; + break; + // TODO consider whether matching braces is a requirement: if non-matching braces indicates + // *missing* braces, then future lookups are not in the object/arrays they think they are, + // violating the rule "validate enough structure that the user can be confident they are + // looking at the right values." + // PERF TODO we can eliminate the switch here with a lookup of how much to add to depth + case ']': case '}': + logger::log_end_value(*this, "skip"); + _depth--; + if (depth() <= parent_depth) { return SUCCESS; } + break; + default: + logger::log_value(*this, "skip", ""); + break; + } + } + + return report_error(TAPE_ERROR, "not enough close braces"); +} + +SIMDJSON_POP_DISABLE_WARNINGS + +simdjson_really_inline bool json_iterator::at_root() const noexcept { + return token.position() == root_checkpoint(); +} + +simdjson_really_inline token_position json_iterator::root_checkpoint() const noexcept { + return parser->dom_parser->structural_indexes.get(); +} + +simdjson_really_inline void json_iterator::assert_at_root() const noexcept { + SIMDJSON_ASSUME( _depth == 1 ); + // Visual Studio Clang treats unique_ptr.get() as "side effecting." +#ifndef SIMDJSON_CLANG_VISUAL_STUDIO + SIMDJSON_ASSUME( token.index == parser->dom_parser->structural_indexes.get() ); +#endif +} + +simdjson_really_inline bool json_iterator::at_eof() const noexcept { + return token.index == &parser->dom_parser->structural_indexes[parser->dom_parser->n_structural_indexes]; +} + +simdjson_really_inline bool json_iterator::is_alive() const noexcept { + return parser; +} + +simdjson_really_inline void json_iterator::abandon() noexcept { + parser = nullptr; + _depth = 0; +} + +simdjson_really_inline const uint8_t *json_iterator::advance() noexcept { + return token.advance(); +} + +simdjson_really_inline const uint8_t *json_iterator::peek(int32_t delta) const noexcept { + return token.peek(delta); +} + +simdjson_really_inline uint32_t json_iterator::peek_length(int32_t delta) const noexcept { + return token.peek_length(delta); +} + +simdjson_really_inline const uint8_t *json_iterator::peek(token_position position) const noexcept { + return token.peek(position); +} + +simdjson_really_inline uint32_t json_iterator::peek_length(token_position position) const noexcept { + return token.peek_length(position); +} + +simdjson_really_inline void json_iterator::ascend_to(depth_t parent_depth) noexcept { + SIMDJSON_ASSUME(parent_depth >= 0 && parent_depth < INT32_MAX - 1); + SIMDJSON_ASSUME(_depth == parent_depth + 1); + _depth = parent_depth; +} + +simdjson_really_inline void json_iterator::descend_to(depth_t child_depth) noexcept { + SIMDJSON_ASSUME(child_depth >= 1 && child_depth < INT32_MAX); + SIMDJSON_ASSUME(_depth == child_depth - 1); + _depth = child_depth; +} + +simdjson_really_inline depth_t json_iterator::depth() const noexcept { + return _depth; +} + +simdjson_really_inline uint8_t *&json_iterator::string_buf_loc() noexcept { + return _string_buf_loc; +} + +simdjson_really_inline error_code json_iterator::report_error(error_code _error, const char *message) noexcept { + SIMDJSON_ASSUME(_error != SUCCESS && _error != UNINITIALIZED && _error != INCORRECT_TYPE && _error != NO_SUCH_FIELD); + logger::log_error(*this, message); + error = _error; + return error; +} + +simdjson_really_inline token_position json_iterator::position() const noexcept { + return token.position(); +} +simdjson_really_inline void json_iterator::set_position(token_position target_checkpoint) noexcept { + token.set_position(target_checkpoint); +} + + +simdjson_really_inline error_code json_iterator::optional_error(error_code _error, const char *message) noexcept { + SIMDJSON_ASSUME(_error == INCORRECT_TYPE || _error == NO_SUCH_FIELD); + logger::log_error(*this, message); + return _error; +} + +template +simdjson_warn_unused simdjson_really_inline bool json_iterator::copy_to_buffer(const uint8_t *json, uint32_t max_len, uint8_t (&tmpbuf)[N]) noexcept { + // Truncate whitespace to fit the buffer. + if (max_len > N-1) { + if (jsoncharutils::is_not_structural_or_whitespace(json[N-1])) { return false; } + max_len = N-1; + } + + // Copy to the buffer. + std::memcpy(tmpbuf, json, max_len); + tmpbuf[max_len] = ' '; + return true; +} + +template +simdjson_warn_unused simdjson_really_inline bool json_iterator::peek_to_buffer(uint8_t (&tmpbuf)[N]) noexcept { + auto max_len = token.peek_length(); + auto json = token.peek(); + return copy_to_buffer(json, max_len, tmpbuf); +} + +template +simdjson_warn_unused simdjson_really_inline bool json_iterator::advance_to_buffer(uint8_t (&tmpbuf)[N]) noexcept { + auto max_len = peek_length(); + auto json = advance(); + return copy_to_buffer(json, max_len, tmpbuf); +} + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(ppc64::ondemand::json_iterator &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/json_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/value_iterator-inl.h */ +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +simdjson_really_inline value_iterator::value_iterator(json_iterator *json_iter, depth_t depth, token_position start_index) noexcept + : _json_iter{json_iter}, + _depth{depth}, + _start_position{start_index} +{ +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::start_object() noexcept { + assert_at_start(); + + if (*_json_iter->advance() != '{') { logger::log_error(*_json_iter, "Not an object"); return INCORRECT_TYPE; } + return started_object(); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::try_start_object() noexcept { + assert_at_start(); + + if (*_json_iter->peek() != '{') { logger::log_error(*_json_iter, "Not an object"); return INCORRECT_TYPE; } + _json_iter->advance(); + return started_object(); +} + +simdjson_warn_unused simdjson_really_inline bool value_iterator::started_object() noexcept { + if (*_json_iter->peek() == '}') { + logger::log_value(*_json_iter, "empty object"); + _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return false; + } + _json_iter->descend_to(depth()+1); + logger::log_start_value(*_json_iter, "object"); + return true; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::has_next_field() noexcept { + assert_at_next(); + + switch (*_json_iter->advance()) { + case '}': + logger::log_end_value(*_json_iter, "object"); + _json_iter->ascend_to(depth()-1); + return false; + case ',': + _json_iter->descend_to(depth()+1); + return true; + default: + return _json_iter->report_error(TAPE_ERROR, "Missing comma between object fields"); + } +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::find_field_raw(const std::string_view key) noexcept { + error_code error; + bool has_value; + + // + // Initially, the object can be in one of a few different places: + // + // 1. The start of the object, at the first field: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2, index 1) + // ``` + // + // 2. When a previous search did not yield a value or the object is empty: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 0) + // { } + // ^ (depth 0, index 2) + // ``` + // + if (!is_open()) { return false; } + if (at_first_field()) { + has_value = true; + + // 3. When a previous search found a field or an iterator yielded a value: + // + // ``` + // // When a field was not fully consumed (or not even touched at all) + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2) + // // When a field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // // When the last field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // ``` + // + } else { + if ((error = skip_child() )) { abandon(); return error; } + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + while (has_value) { + // Get the key and colon, stopping at the value. + raw_json_string actual_key; + if ((error = field_key().get(actual_key) )) { abandon(); return error; }; + if ((error = field_value() )) { abandon(); return error; } + + // If it matches, stop and return + if (actual_key == key) { + logger::log_event(*this, "match", key, -2); + return true; + } + + // No match: skip the value and see if , or } is next + logger::log_event(*this, "no match", key, -2); + SIMDJSON_TRY( skip_child() ); // Skip the value entirely + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + + // If the loop ended, we're out of fields to look at. + return false; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::find_field_unordered_raw(const std::string_view key) noexcept { + error_code error; + bool has_value; + + // + // Initially, the object can be in one of a few different places: + // + // 1. The start of the object, at the first field: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2, index 1) + // ``` + // + if (at_first_field()) { + // If we're at the beginning of the object, we definitely have a field + has_value = true; + + // 2. When a previous search did not yield a value or the object is empty: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 0) + // { } + // ^ (depth 0, index 2) + // ``` + // + } else if (!is_open()) { + has_value = false; + + // 3. When a previous search found a field or an iterator yielded a value: + // + // ``` + // // When a field was not fully consumed (or not even touched at all) + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2) + // // When a field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // // When the last field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // ``` + // + } else { + // Finish the previous value and see if , or } is next + if ((error = skip_child() )) { abandon(); return error; } + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + + // After initial processing, we will be in one of two states: + // + // ``` + // // At the beginning of a field + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // // At the end of the object + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 0) + // ``` + // + + // First, we scan from that point to the end. + // If we don't find a match, we loop back around, and scan from the beginning to that point. + token_position search_start = _json_iter->position(); + + // Next, we find a match starting from the current position. + while (has_value) { + SIMDJSON_ASSUME( _json_iter->_depth == _depth + 1 ); // We must be at the start of a field + + // Get the key and colon, stopping at the value. + raw_json_string actual_key; + if ((error = field_key().get(actual_key) )) { abandon(); return error; }; + if ((error = field_value() )) { abandon(); return error; } + + // If it matches, stop and return + if (actual_key == key) { + logger::log_event(*this, "match", key, -2); + return true; + } + + // No match: skip the value and see if , or } is next + logger::log_event(*this, "no match", key, -2); + SIMDJSON_TRY( skip_child() ); + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + + // If we reach the end without finding a match, search the rest of the fields starting at the + // beginning of the object. + // (We have already run through the object before, so we've already validated its structure. We + // don't check errors in this bit.) + _json_iter->set_position(_start_position + 1); + _json_iter->descend_to(_depth); + + has_value = started_object(); + while (_json_iter->position() < search_start) { + SIMDJSON_ASSUME(has_value); // we should reach search_start before ever reaching the end of the object + SIMDJSON_ASSUME( _json_iter->_depth == _depth + 1 ); // We must be at the start of a field + + // Get the key and colon, stopping at the value. + raw_json_string actual_key; + error = field_key().get(actual_key); SIMDJSON_ASSUME(!error); + error = field_value(); SIMDJSON_ASSUME(!error); + + // If it matches, stop and return + if (actual_key == key) { + logger::log_event(*this, "match", key, -2); + return true; + } + + // No match: skip the value and see if , or } is next + logger::log_event(*this, "no match", key, -2); + SIMDJSON_TRY( skip_child() ); + error = has_next_field().get(has_value); SIMDJSON_ASSUME(!error); + } + + // If the loop ended, we're out of fields to look at. + return false; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::field_key() noexcept { + assert_at_child(); + + const uint8_t *key = _json_iter->advance(); + if (*(key++) != '"') { return _json_iter->report_error(TAPE_ERROR, "Object key is not a string"); } + return raw_json_string(key); +} + +simdjson_warn_unused simdjson_really_inline error_code value_iterator::field_value() noexcept { + assert_at_child(); + + if (*_json_iter->advance() != ':') { return _json_iter->report_error(TAPE_ERROR, "Missing colon in object field"); } + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::start_array() noexcept { + assert_at_start(); + + if (*_json_iter->advance() != '[') { logger::log_error(*_json_iter, "Not an array"); return INCORRECT_TYPE; } + return started_array(); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::try_start_array() noexcept { + assert_at_start(); + + if (*_json_iter->peek() != '[') { logger::log_error(*_json_iter, "Not an array"); return INCORRECT_TYPE; } + _json_iter->advance(); + return started_array(); +} + +simdjson_warn_unused simdjson_really_inline bool value_iterator::started_array() noexcept { + if (*_json_iter->peek() == ']') { + logger::log_value(*_json_iter, "empty array"); + _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return false; + } + logger::log_start_value(*_json_iter, "array"); + _json_iter->descend_to(depth()+1); + return true; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::has_next_element() noexcept { + assert_at_next(); + + switch (*_json_iter->advance()) { + case ']': + logger::log_end_value(*_json_iter, "array"); + _json_iter->ascend_to(depth()-1); + return false; + case ',': + _json_iter->descend_to(depth()+1); + return true; + default: + return _json_iter->report_error(TAPE_ERROR, "Missing comma between array elements"); + } +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::parse_bool(const uint8_t *json) const noexcept { + auto not_true = atomparsing::str4ncmp(json, "true"); + auto not_false = atomparsing::str4ncmp(json, "fals") | (json[4] ^ 'e'); + bool error = (not_true && not_false) || jsoncharutils::is_not_structural_or_whitespace(json[not_true ? 5 : 4]); + if (error) { return incorrect_type_error("Not a boolean"); } + return simdjson_result(!not_true); +} +simdjson_really_inline bool value_iterator::parse_null(const uint8_t *json) const noexcept { + return !atomparsing::str4ncmp(json, "null") && jsoncharutils::is_structural_or_whitespace(json[4]); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_string() noexcept { + return get_raw_json_string().unescape(_json_iter->string_buf_loc()); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_raw_json_string() noexcept { + auto json = advance_scalar("string"); + if (*json != '"') { return incorrect_type_error("Not a string"); } + return raw_json_string(json+1); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_uint64() noexcept { + return numberparsing::parse_unsigned(advance_non_root_scalar("uint64")); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_int64() noexcept { + return numberparsing::parse_integer(advance_non_root_scalar("int64")); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_double() noexcept { + return numberparsing::parse_double(advance_non_root_scalar("double")); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_bool() noexcept { + return parse_bool(advance_non_root_scalar("bool")); +} +simdjson_really_inline bool value_iterator::is_null() noexcept { + return parse_null(advance_non_root_scalar("null")); +} + +constexpr const uint32_t MAX_INT_LENGTH = 1024; + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_string() noexcept { + return get_string(); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_raw_json_string() noexcept { + return get_raw_json_string(); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_uint64() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("uint64"); + uint8_t tmpbuf[20+1]; // <20 digits> is the longest possible unsigned integer + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { logger::log_error(*_json_iter, _start_position, depth(), "Root number more than 20 characters"); return NUMBER_ERROR; } + return numberparsing::parse_unsigned(tmpbuf); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_int64() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("int64"); + uint8_t tmpbuf[20+1]; // -<19 digits> is the longest possible integer + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { logger::log_error(*_json_iter, _start_position, depth(), "Root number more than 20 characters"); return NUMBER_ERROR; } + return numberparsing::parse_integer(tmpbuf); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_double() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("double"); + // Per https://www.exploringbinary.com/maximum-number-of-decimal-digits-in-binary-floating-point-numbers/, 1074 is the maximum number of significant fractional digits. Add 8 more digits for the biggest number: -0.e-308. + uint8_t tmpbuf[1074+8+1]; + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { logger::log_error(*_json_iter, _start_position, depth(), "Root number more than 1082 characters"); return NUMBER_ERROR; } + return numberparsing::parse_double(tmpbuf); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_bool() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("bool"); + uint8_t tmpbuf[5+1]; + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { return incorrect_type_error("Not a boolean"); } + return parse_bool(tmpbuf); +} +simdjson_really_inline bool value_iterator::is_root_null() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("null"); + return max_len >= 4 && !atomparsing::str4ncmp(json, "null") && + (max_len == 4 || jsoncharutils::is_structural_or_whitespace(json[5])); +} + +simdjson_warn_unused simdjson_really_inline error_code value_iterator::skip_child() noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth >= _depth ); + + return _json_iter->skip_child(depth()); +} + +simdjson_really_inline value_iterator value_iterator::child() const noexcept { + assert_at_child(); + return { _json_iter, depth()+1, _json_iter->token.position() }; +} + +simdjson_really_inline bool value_iterator::is_open() const noexcept { + return _json_iter->depth() >= depth(); +} + +simdjson_really_inline bool value_iterator::at_eof() const noexcept { + return _json_iter->at_eof(); +} + +simdjson_really_inline bool value_iterator::at_start() const noexcept { + return _json_iter->token.index == _start_position; +} + +simdjson_really_inline bool value_iterator::at_first_field() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + return _json_iter->token.index == _start_position + 1; +} + +simdjson_really_inline void value_iterator::abandon() noexcept { + _json_iter->abandon(); +} + + +simdjson_warn_unused simdjson_really_inline depth_t value_iterator::depth() const noexcept { + return _depth; +} +simdjson_warn_unused simdjson_really_inline error_code value_iterator::error() const noexcept { + return _json_iter->error; +} +simdjson_warn_unused simdjson_really_inline uint8_t *&value_iterator::string_buf_loc() noexcept { + return _json_iter->string_buf_loc(); +} +simdjson_warn_unused simdjson_really_inline const json_iterator &value_iterator::json_iter() const noexcept { + return *_json_iter; +} +simdjson_warn_unused simdjson_really_inline json_iterator &value_iterator::json_iter() noexcept { + return *_json_iter; +} + +simdjson_really_inline const uint8_t *value_iterator::peek_scalar() const noexcept { + return _json_iter->peek(_start_position); +} +simdjson_really_inline uint32_t value_iterator::peek_scalar_length() const noexcept { + return _json_iter->peek_length(_start_position); +} + +simdjson_really_inline const uint8_t *value_iterator::advance_scalar(const char *type) const noexcept { + logger::log_value(*_json_iter, _start_position, depth(), type); + // If we're not at the position anymore, we don't want to advance the cursor. + if (!is_at_start()) { return peek_scalar(); } + + // Get the JSON and advance the cursor, decreasing depth to signify that we have retrieved the value. + assert_at_start(); + auto result = _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return result; +} +simdjson_really_inline const uint8_t *value_iterator::advance_root_scalar(const char *type) const noexcept { + logger::log_value(*_json_iter, _start_position, depth(), type); + if (!is_at_start()) { return peek_scalar(); } + + assert_at_root(); + auto result = _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return result; +} +simdjson_really_inline const uint8_t *value_iterator::advance_non_root_scalar(const char *type) const noexcept { + logger::log_value(*_json_iter, _start_position, depth(), type); + if (!is_at_start()) { return peek_scalar(); } + + assert_at_non_root_start(); + auto result = _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return result; +} + +simdjson_really_inline error_code value_iterator::incorrect_type_error(const char *message) const noexcept { + logger::log_error(*_json_iter, _start_position, depth(), message); + return INCORRECT_TYPE; +} + +simdjson_really_inline bool value_iterator::is_at_start() const noexcept { + return _json_iter->token.index == _start_position; +} + +simdjson_really_inline void value_iterator::assert_at_start() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index == _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth == _depth ); + SIMDJSON_ASSUME( _depth > 0 ); +} + +simdjson_really_inline void value_iterator::assert_at_next() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth == _depth ); + SIMDJSON_ASSUME( _depth > 0 ); +} + +simdjson_really_inline void value_iterator::assert_at_child() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth == _depth + 1 ); + SIMDJSON_ASSUME( _depth > 0 ); +} + +simdjson_really_inline void value_iterator::assert_at_root() const noexcept { + assert_at_start(); + SIMDJSON_ASSUME( _depth == 1 ); +} + +simdjson_really_inline void value_iterator::assert_at_non_root_start() const noexcept { + assert_at_start(); + SIMDJSON_ASSUME( _depth > 1 ); +} + + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(ppc64::ondemand::value_iterator &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/array_iterator-inl.h */ +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +simdjson_really_inline array_iterator::array_iterator(const value_iterator &_iter) noexcept + : iter{_iter} +{} + +simdjson_really_inline simdjson_result array_iterator::operator*() noexcept { + if (iter.error()) { iter.abandon(); return iter.error(); } + return value(iter.child()); +} +simdjson_really_inline bool array_iterator::operator==(const array_iterator &other) const noexcept { + return !(*this != other); +} +simdjson_really_inline bool array_iterator::operator!=(const array_iterator &) const noexcept { + return iter.is_open(); +} +simdjson_really_inline array_iterator &array_iterator::operator++() noexcept { + error_code error; + // PERF NOTE this is a safety rail ... users should exit loops as soon as they receive an error, so we'll never get here. + // However, it does not seem to make a perf difference, so we add it out of an abundance of caution. + if ((error = iter.error()) ) { return *this; } + if ((error = iter.skip_child() )) { return *this; } + if ((error = iter.has_next_element().error() )) { return *this; } + return *this; +} + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + ppc64::ondemand::array_iterator &&value +) noexcept + : ppc64::implementation_simdjson_result_base(std::forward(value)) +{ +} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : ppc64::implementation_simdjson_result_base({}, error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::operator*() noexcept { + if (this->error()) { this->second = SUCCESS; return this->error(); } + return *this->first; +} +simdjson_really_inline bool simdjson_result::operator==(const simdjson_result &other) const noexcept { + if (this->error()) { return true; } + return this->first == other.first; +} +simdjson_really_inline bool simdjson_result::operator!=(const simdjson_result &other) const noexcept { + if (this->error()) { return false; } + return this->first != other.first; +} +simdjson_really_inline simdjson_result &simdjson_result::operator++() noexcept { + if (this->error()) { return *this; } + ++(this->first); + return *this; +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/object_iterator-inl.h */ +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +// +// object_iterator +// + +simdjson_really_inline object_iterator::object_iterator(const value_iterator &_iter) noexcept + : iter{_iter} +{} + +simdjson_really_inline simdjson_result object_iterator::operator*() noexcept { + error_code error = iter.error(); + if (error) { iter.abandon(); return error; } + auto result = field::start(iter); + // TODO this is a safety rail ... users should exit loops as soon as they receive an error. + // Nonetheless, let's see if performance is OK with this if statement--the compiler may give it to us for free. + if (result.error()) { iter.abandon(); } + return result; +} +simdjson_really_inline bool object_iterator::operator==(const object_iterator &other) const noexcept { + return !(*this != other); +} +simdjson_really_inline bool object_iterator::operator!=(const object_iterator &) const noexcept { + return iter.is_open(); +} +simdjson_really_inline object_iterator &object_iterator::operator++() noexcept { + // TODO this is a safety rail ... users should exit loops as soon as they receive an error. + // Nonetheless, let's see if performance is OK with this if statement--the compiler may give it to us for free. + if (!iter.is_open()) { return *this; } // Iterator will be released if there is an error + + simdjson_unused error_code error; + if ((error = iter.skip_child() )) { return *this; } + + simdjson_unused bool has_value; + if ((error = iter.has_next_field().get(has_value) )) { return *this; }; + return *this; +} + +// +// ### Live States +// +// While iterating or looking up values, depth >= iter.depth. at_start may vary. Error is +// always SUCCESS: +// +// - Start: This is the state when the object is first found and the iterator is just past the {. +// In this state, at_start == true. +// - Next: After we hand a scalar value to the user, or an array/object which they then fully +// iterate over, the iterator is at the , or } before the next value. In this state, +// depth == iter.depth, at_start == false, and error == SUCCESS. +// - Unfinished Business: When we hand an array/object to the user which they do not fully +// iterate over, we need to finish that iteration by skipping child values until we reach the +// Next state. In this state, depth > iter.depth, at_start == false, and error == SUCCESS. +// +// ## Error States +// +// In error states, we will yield exactly one more value before stopping. iter.depth == depth +// and at_start is always false. We decrement after yielding the error, moving to the Finished +// state. +// +// - Chained Error: When the object iterator is part of an error chain--for example, in +// `for (auto tweet : doc["tweets"])`, where the tweet field may be missing or not be an +// object--we yield that error in the loop, exactly once. In this state, error != SUCCESS and +// iter.depth == depth, and at_start == false. We decrement depth when we yield the error. +// - Missing Comma Error: When the iterator ++ method discovers there is no comma between fields, +// we flag that as an error and treat it exactly the same as a Chained Error. In this state, +// error == TAPE_ERROR, iter.depth == depth, and at_start == false. +// +// Errors that occur while reading a field to give to the user (such as when the key is not a +// string or the field is missing a colon) are yielded immediately. Depth is then decremented, +// moving to the Finished state without transitioning through an Error state at all. +// +// ## Terminal State +// +// The terminal state has iter.depth < depth. at_start is always false. +// +// - Finished: When we have reached a }, we are finished. We signal this by decrementing depth. +// In this state, iter.depth < depth, at_start == false, and error == SUCCESS. +// + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + ppc64::ondemand::object_iterator &&value +) noexcept + : implementation_simdjson_result_base(std::forward(value)) +{ +} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base({}, error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::operator*() noexcept { + if (error()) { second = SUCCESS; return error(); } + return *first; +} +// Assumes it's being compared with the end. true if depth < iter->depth. +simdjson_really_inline bool simdjson_result::operator==(const simdjson_result &other) const noexcept { + if (error()) { return true; } + return first == other.first; +} +// Assumes it's being compared with the end. true if depth >= iter->depth. +simdjson_really_inline bool simdjson_result::operator!=(const simdjson_result &other) const noexcept { + if (error()) { return false; } + return first != other.first; +} +// Checks for ']' and ',' +simdjson_really_inline simdjson_result &simdjson_result::operator++() noexcept { + if (error()) { return *this; } + ++first; + return *this; +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/array-inl.h */ +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +// +// ### Live States +// +// While iterating or looking up values, depth >= iter->depth. at_start may vary. Error is +// always SUCCESS: +// +// - Start: This is the state when the array is first found and the iterator is just past the `{`. +// In this state, at_start == true. +// - Next: After we hand a scalar value to the user, or an array/object which they then fully +// iterate over, the iterator is at the `,` before the next value (or `]`). In this state, +// depth == iter->depth, at_start == false, and error == SUCCESS. +// - Unfinished Business: When we hand an array/object to the user which they do not fully +// iterate over, we need to finish that iteration by skipping child values until we reach the +// Next state. In this state, depth > iter->depth, at_start == false, and error == SUCCESS. +// +// ## Error States +// +// In error states, we will yield exactly one more value before stopping. iter->depth == depth +// and at_start is always false. We decrement after yielding the error, moving to the Finished +// state. +// +// - Chained Error: When the array iterator is part of an error chain--for example, in +// `for (auto tweet : doc["tweets"])`, where the tweet element may be missing or not be an +// array--we yield that error in the loop, exactly once. In this state, error != SUCCESS and +// iter->depth == depth, and at_start == false. We decrement depth when we yield the error. +// - Missing Comma Error: When the iterator ++ method discovers there is no comma between elements, +// we flag that as an error and treat it exactly the same as a Chained Error. In this state, +// error == TAPE_ERROR, iter->depth == depth, and at_start == false. +// +// ## Terminal State +// +// The terminal state has iter->depth < depth. at_start is always false. +// +// - Finished: When we have reached a `]` or have reported an error, we are finished. We signal this +// by decrementing depth. In this state, iter->depth < depth, at_start == false, and +// error == SUCCESS. +// + +simdjson_really_inline array::array(const value_iterator &_iter) noexcept + : iter{_iter} +{ +} + +simdjson_really_inline simdjson_result array::start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.start_array().get(has_value) ); + return array(iter); +} +simdjson_really_inline simdjson_result array::try_start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.try_start_array().get(has_value) ); + return array(iter); +} +simdjson_really_inline array array::started(value_iterator &iter) noexcept { + simdjson_unused bool has_value = iter.started_array(); + return array(iter); +} + +simdjson_really_inline array_iterator array::begin() noexcept { + return iter; +} +simdjson_really_inline array_iterator array::end() noexcept { + return {}; +} + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + ppc64::ondemand::array &&value +) noexcept + : implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept + : implementation_simdjson_result_base(error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::begin() noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() noexcept { + if (error()) { return error(); } + return first.end(); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array-inl.h */ +/* begin file include/simdjson/generic/ondemand/document-inl.h */ +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +simdjson_really_inline document::document(ondemand::json_iterator &&_iter) noexcept + : iter{std::forward(_iter)} +{ + logger::log_start_value(iter, "document"); +} + +simdjson_really_inline document document::start(json_iterator &&iter) noexcept { + return document(std::forward(iter)); +} + +simdjson_really_inline value_iterator document::resume_value_iterator() noexcept { + return value_iterator(&iter, 1, iter.root_checkpoint()); +} +simdjson_really_inline value_iterator document::get_root_value_iterator() noexcept { + return resume_value_iterator(); +} +simdjson_really_inline value document::resume_value() noexcept { + return resume_value_iterator(); +} +simdjson_really_inline value document::get_root_value() noexcept { + return get_root_value_iterator(); +} + +simdjson_really_inline simdjson_result document::get_array() & noexcept { + return get_root_value().get_array(); +} +simdjson_really_inline simdjson_result document::get_object() & noexcept { + return get_root_value().get_object(); +} +simdjson_really_inline simdjson_result document::get_uint64() noexcept { + return get_root_value_iterator().get_root_uint64(); +} +simdjson_really_inline simdjson_result document::get_int64() noexcept { + return get_root_value_iterator().get_root_int64(); +} +simdjson_really_inline simdjson_result document::get_double() noexcept { + return get_root_value_iterator().get_root_double(); +} +simdjson_really_inline simdjson_result document::get_string() noexcept { + return get_root_value_iterator().get_root_string(); +} +simdjson_really_inline simdjson_result document::get_raw_json_string() noexcept { + return get_root_value_iterator().get_root_raw_json_string(); +} +simdjson_really_inline simdjson_result document::get_bool() noexcept { + return get_root_value_iterator().get_root_bool(); +} +simdjson_really_inline bool document::is_null() noexcept { + return get_root_value_iterator().is_root_null(); +} + +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_array(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_object(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_string(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_double(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_uint64(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_int64(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_bool(); } + +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return get_string(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_double(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_uint64(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_int64(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_bool(); } + +template simdjson_really_inline error_code document::get(T &out) & noexcept { + return get().get(out); +} +template simdjson_really_inline error_code document::get(T &out) && noexcept { + return std::forward(*this).get().get(out); +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline document::operator array() & noexcept(false) { return get_array(); } +simdjson_really_inline document::operator object() & noexcept(false) { return get_object(); } +simdjson_really_inline document::operator uint64_t() noexcept(false) { return get_uint64(); } +simdjson_really_inline document::operator int64_t() noexcept(false) { return get_int64(); } +simdjson_really_inline document::operator double() noexcept(false) { return get_double(); } +simdjson_really_inline document::operator std::string_view() noexcept(false) { return get_string(); } +simdjson_really_inline document::operator raw_json_string() noexcept(false) { return get_raw_json_string(); } +simdjson_really_inline document::operator bool() noexcept(false) { return get_bool(); } +#endif + +simdjson_really_inline simdjson_result document::begin() & noexcept { + return get_array().begin(); +} +simdjson_really_inline simdjson_result document::end() & noexcept { + return {}; +} + +simdjson_really_inline simdjson_result document::find_field(std::string_view key) & noexcept { + return resume_value().find_field(key); +} +simdjson_really_inline simdjson_result document::find_field(const char *key) & noexcept { + return resume_value().find_field(key); +} +simdjson_really_inline simdjson_result document::find_field_unordered(std::string_view key) & noexcept { + return resume_value().find_field_unordered(key); +} +simdjson_really_inline simdjson_result document::find_field_unordered(const char *key) & noexcept { + return resume_value().find_field_unordered(key); +} +simdjson_really_inline simdjson_result document::operator[](std::string_view key) & noexcept { + return resume_value()[key]; +} +simdjson_really_inline simdjson_result document::operator[](const char *key) & noexcept { + return resume_value()[key]; +} + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + ppc64::ondemand::document &&value +) noexcept : + implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept : + implementation_simdjson_result_base( + error + ) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::begin() & noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() & noexcept { + return {}; +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](const char *key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::get_array() & noexcept { + if (error()) { return error(); } + return first.get_array(); +} +simdjson_really_inline simdjson_result simdjson_result::get_object() & noexcept { + if (error()) { return error(); } + return first.get_object(); +} +simdjson_really_inline simdjson_result simdjson_result::get_uint64() noexcept { + if (error()) { return error(); } + return first.get_uint64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_int64() noexcept { + if (error()) { return error(); } + return first.get_int64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_double() noexcept { + if (error()) { return error(); } + return first.get_double(); +} +simdjson_really_inline simdjson_result simdjson_result::get_string() noexcept { + if (error()) { return error(); } + return first.get_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_raw_json_string() noexcept { + if (error()) { return error(); } + return first.get_raw_json_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_bool() noexcept { + if (error()) { return error(); } + return first.get_bool(); +} +simdjson_really_inline bool simdjson_result::is_null() noexcept { + if (error()) { return error(); } + return first.is_null(); +} + +template +simdjson_really_inline simdjson_result simdjson_result::get() & noexcept { + if (error()) { return error(); } + return first.get(); +} +template +simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first).get(); +} +template +simdjson_really_inline error_code simdjson_result::get(T &out) & noexcept { + if (error()) { return error(); } + return first.get(out); +} +template +simdjson_really_inline error_code simdjson_result::get(T &out) && noexcept { + if (error()) { return error(); } + return std::forward(first).get(out); +} + +template<> simdjson_really_inline simdjson_result simdjson_result::get() & noexcept = delete; +template<> simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first); +} +template<> simdjson_really_inline error_code simdjson_result::get(ppc64::ondemand::document &out) & noexcept = delete; +template<> simdjson_really_inline error_code simdjson_result::get(ppc64::ondemand::document &out) && noexcept { + if (error()) { return error(); } + out = std::forward(first); + return SUCCESS; +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline simdjson_result::operator ppc64::ondemand::array() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator ppc64::ondemand::object() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator uint64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator int64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator double() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator std::string_view() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator ppc64::ondemand::raw_json_string() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator bool() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +#endif + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/document-inl.h */ +/* begin file include/simdjson/generic/ondemand/value-inl.h */ +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +simdjson_really_inline value::value(const value_iterator &_iter) noexcept + : iter{_iter} +{ +} +simdjson_really_inline value value::start(const value_iterator &iter) noexcept { + return iter; +} +simdjson_really_inline value value::resume(const value_iterator &iter) noexcept { + return iter; +} + +simdjson_really_inline simdjson_result value::get_array() && noexcept { + return array::start(iter); +} +simdjson_really_inline simdjson_result value::get_array() & noexcept { + return array::try_start(iter); +} +simdjson_really_inline simdjson_result value::get_object() && noexcept { + return object::start(iter); +} +simdjson_really_inline simdjson_result value::get_object() & noexcept { + return object::try_start(iter); +} +simdjson_really_inline simdjson_result value::start_or_resume_object() & noexcept { + if (iter.at_start()) { + return get_object(); + } else { + return object::resume(iter); + } +} +simdjson_really_inline simdjson_result value::start_or_resume_object() && noexcept { + if (iter.at_start()) { + return get_object(); + } else { + return object::resume(iter); + } +} + +simdjson_really_inline simdjson_result value::get_raw_json_string() noexcept { + return iter.get_raw_json_string(); +} +simdjson_really_inline simdjson_result value::get_string() noexcept { + return iter.get_string(); +} +simdjson_really_inline simdjson_result value::get_double() noexcept { + return iter.get_double(); +} +simdjson_really_inline simdjson_result value::get_uint64() noexcept { + return iter.get_uint64(); +} +simdjson_really_inline simdjson_result value::get_int64() noexcept { + return iter.get_int64(); +} +simdjson_really_inline simdjson_result value::get_bool() noexcept { + return iter.get_bool(); +} +simdjson_really_inline bool value::is_null() noexcept { + return iter.is_null(); +} + +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_array(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_object(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_string(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_double(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_uint64(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_int64(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_bool(); } + +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_array(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_object(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_string(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_double(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_uint64(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_int64(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_bool(); } + +template simdjson_really_inline error_code value::get(T &out) & noexcept { + return get().get(out); +} +template simdjson_really_inline error_code value::get(T &out) && noexcept { + return std::forward(*this).get().get(out); +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline value::operator array() && noexcept(false) { + return std::forward(*this).get_array(); +} +simdjson_really_inline value::operator array() & noexcept(false) { + return std::forward(*this).get_array(); +} +simdjson_really_inline value::operator object() && noexcept(false) { + return std::forward(*this).get_object(); +} +simdjson_really_inline value::operator object() & noexcept(false) { + return std::forward(*this).get_object(); +} +simdjson_really_inline value::operator uint64_t() noexcept(false) { + return get_uint64(); +} +simdjson_really_inline value::operator int64_t() noexcept(false) { + return get_int64(); +} +simdjson_really_inline value::operator double() noexcept(false) { + return get_double(); +} +simdjson_really_inline value::operator std::string_view() noexcept(false) { + return get_string(); +} +simdjson_really_inline value::operator raw_json_string() noexcept(false) { + return get_raw_json_string(); +} +simdjson_really_inline value::operator bool() noexcept(false) { + return get_bool(); +} +#endif + +simdjson_really_inline simdjson_result value::begin() & noexcept { + return get_array().begin(); +} +simdjson_really_inline simdjson_result value::end() & noexcept { + return {}; +} + +simdjson_really_inline simdjson_result value::find_field(std::string_view key) & noexcept { + return start_or_resume_object().find_field(key); +} +simdjson_really_inline simdjson_result value::find_field(std::string_view key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field(key); +} +simdjson_really_inline simdjson_result value::find_field(const char *key) & noexcept { + return start_or_resume_object().find_field(key); +} +simdjson_really_inline simdjson_result value::find_field(const char *key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field(key); +} + +simdjson_really_inline simdjson_result value::find_field_unordered(std::string_view key) & noexcept { + return start_or_resume_object().find_field_unordered(key); +} +simdjson_really_inline simdjson_result value::find_field_unordered(std::string_view key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field_unordered(key); +} +simdjson_really_inline simdjson_result value::find_field_unordered(const char *key) & noexcept { + return start_or_resume_object().find_field_unordered(key); +} +simdjson_really_inline simdjson_result value::find_field_unordered(const char *key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field_unordered(key); +} + +simdjson_really_inline simdjson_result value::operator[](std::string_view key) & noexcept { + return start_or_resume_object()[key]; +} +simdjson_really_inline simdjson_result value::operator[](std::string_view key) && noexcept { + return std::forward(*this).start_or_resume_object()[key]; +} +simdjson_really_inline simdjson_result value::operator[](const char *key) & noexcept { + return start_or_resume_object()[key]; +} +simdjson_really_inline simdjson_result value::operator[](const char *key) && noexcept { + return std::forward(*this).start_or_resume_object()[key]; +} + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + ppc64::ondemand::value &&value +) noexcept : + implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept : + implementation_simdjson_result_base(error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::begin() & noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() & noexcept { + if (error()) { return error(); } + return {}; +} + +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(const char *key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field(key); +} + +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(const char *key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field_unordered(key); +} + +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first)[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](const char *key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](const char *key) && noexcept { + if (error()) { return error(); } + return std::forward(first)[key]; +} + +simdjson_really_inline simdjson_result simdjson_result::get_array() & noexcept { + if (error()) { return error(); } + return first.get_array(); +} +simdjson_really_inline simdjson_result simdjson_result::get_array() && noexcept { + if (error()) { return error(); } + return std::forward(first).get_array(); +} +simdjson_really_inline simdjson_result simdjson_result::get_object() & noexcept { + if (error()) { return error(); } + return first.get_object(); +} +simdjson_really_inline simdjson_result simdjson_result::get_object() && noexcept { + if (error()) { return error(); } + return std::forward(first).get_object(); +} +simdjson_really_inline simdjson_result simdjson_result::get_uint64() noexcept { + if (error()) { return error(); } + return first.get_uint64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_int64() noexcept { + if (error()) { return error(); } + return first.get_int64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_double() noexcept { + if (error()) { return error(); } + return first.get_double(); +} +simdjson_really_inline simdjson_result simdjson_result::get_string() noexcept { + if (error()) { return error(); } + return first.get_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_raw_json_string() noexcept { + if (error()) { return error(); } + return first.get_raw_json_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_bool() noexcept { + if (error()) { return error(); } + return first.get_bool(); +} +simdjson_really_inline bool simdjson_result::is_null() noexcept { + if (error()) { return false; } + return first.is_null(); +} + +template simdjson_really_inline simdjson_result simdjson_result::get() & noexcept { + if (error()) { return error(); } + return first.get(); +} +template simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first).get(); +} +template simdjson_really_inline error_code simdjson_result::get(T &out) & noexcept { + if (error()) { return error(); } + return first.get(out); +} +template simdjson_really_inline error_code simdjson_result::get(T &out) && noexcept { + if (error()) { return error(); } + return std::forward(first).get(out); +} + +template<> simdjson_really_inline simdjson_result simdjson_result::get() & noexcept { + if (error()) { return error(); } + return std::move(first); +} +template<> simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first); +} +template<> simdjson_really_inline error_code simdjson_result::get(ppc64::ondemand::value &out) & noexcept { + if (error()) { return error(); } + out = first; + return SUCCESS; +} +template<> simdjson_really_inline error_code simdjson_result::get(ppc64::ondemand::value &out) && noexcept { + if (error()) { return error(); } + out = std::forward(first); + return SUCCESS; +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline simdjson_result::operator ppc64::ondemand::array() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator ppc64::ondemand::array() && noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return std::forward(first); +} +simdjson_really_inline simdjson_result::operator ppc64::ondemand::object() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator ppc64::ondemand::object() && noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return std::forward(first); +} +simdjson_really_inline simdjson_result::operator uint64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator int64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator double() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator std::string_view() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator ppc64::ondemand::raw_json_string() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator bool() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +#endif + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value-inl.h */ +/* begin file include/simdjson/generic/ondemand/field-inl.h */ +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +// clang 6 doesn't think the default constructor can be noexcept, so we make it explicit +simdjson_really_inline field::field() noexcept : std::pair() {} + +simdjson_really_inline field::field(raw_json_string key, ondemand::value &&value) noexcept + : std::pair(key, std::forward(value)) +{ +} + +simdjson_really_inline simdjson_result field::start(value_iterator &parent_iter) noexcept { + raw_json_string key; + SIMDJSON_TRY( parent_iter.field_key().get(key) ); + SIMDJSON_TRY( parent_iter.field_value() ); + return field::start(parent_iter, key); +} + +simdjson_really_inline simdjson_result field::start(const value_iterator &parent_iter, raw_json_string key) noexcept { + return field(key, parent_iter.child()); +} + +simdjson_really_inline simdjson_warn_unused simdjson_result field::unescaped_key() noexcept { + SIMDJSON_ASSUME(first.buf != nullptr); // We would like to call .alive() by Visual Studio won't let us. + simdjson_result answer = first.unescape(second.iter.string_buf_loc()); + first.consume(); + return answer; +} + +simdjson_really_inline raw_json_string field::key() const noexcept { + SIMDJSON_ASSUME(first.buf != nullptr); // We would like to call .alive() by Visual Studio won't let us. + return first; +} + +simdjson_really_inline value &field::value() & noexcept { + return second; +} + +simdjson_really_inline value field::value() && noexcept { + return std::forward(*this).second; +} + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + ppc64::ondemand::field &&value +) noexcept : + implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept : + implementation_simdjson_result_base(error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::key() noexcept { + if (error()) { return error(); } + return first.key(); +} +simdjson_really_inline simdjson_result simdjson_result::unescaped_key() noexcept { + if (error()) { return error(); } + return first.unescaped_key(); +} +simdjson_really_inline simdjson_result simdjson_result::value() noexcept { + if (error()) { return error(); } + return std::move(first.value()); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/field-inl.h */ +/* begin file include/simdjson/generic/ondemand/object-inl.h */ +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +simdjson_really_inline simdjson_result object::find_field_unordered(const std::string_view key) & noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_unordered_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} +simdjson_really_inline simdjson_result object::find_field_unordered(const std::string_view key) && noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_unordered_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} +simdjson_really_inline simdjson_result object::operator[](const std::string_view key) & noexcept { + return find_field_unordered(key); +} +simdjson_really_inline simdjson_result object::operator[](const std::string_view key) && noexcept { + return std::forward(*this).find_field_unordered(key); +} +simdjson_really_inline simdjson_result object::find_field(const std::string_view key) & noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} +simdjson_really_inline simdjson_result object::find_field(const std::string_view key) && noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} + +simdjson_really_inline simdjson_result object::start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.start_object().get(has_value) ); + return object(iter); +} +simdjson_really_inline simdjson_result object::try_start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.try_start_object().get(has_value) ); + return object(iter); +} +simdjson_really_inline object object::started(value_iterator &iter) noexcept { + simdjson_unused bool has_value = iter.started_object(); + return iter; +} +simdjson_really_inline object object::resume(const value_iterator &iter) noexcept { + return iter; +} + +simdjson_really_inline object::object(const value_iterator &_iter) noexcept + : iter{_iter} +{ +} + +simdjson_really_inline object_iterator object::begin() noexcept { + // Expanded version of SIMDJSON_ASSUME( iter.at_field_start() || !iter.is_open() ) + SIMDJSON_ASSUME( (iter._json_iter->token.index == iter._start_position + 1) || (iter._json_iter->_depth < iter._depth) ); + return iter; +} +simdjson_really_inline object_iterator object::end() noexcept { + return {}; +} + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(ppc64::ondemand::object &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +simdjson_really_inline simdjson_result simdjson_result::begin() noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() noexcept { + if (error()) { return error(); } + return first.end(); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first)[key]; +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field(key); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object-inl.h */ +/* begin file include/simdjson/generic/ondemand/parser-inl.h */ +namespace simdjson { +namespace ppc64 { +namespace ondemand { + +simdjson_warn_unused simdjson_really_inline error_code parser::allocate(size_t new_capacity, size_t new_max_depth) noexcept { + if (string_buf && new_capacity == _capacity && new_max_depth == _max_depth) { return SUCCESS; } + + // string_capacity copied from document::allocate + _capacity = 0; + _max_depth = 0; + size_t string_capacity = SIMDJSON_ROUNDUP_N(5 * new_capacity / 3 + SIMDJSON_PADDING, 64); + string_buf.reset(new (std::nothrow) uint8_t[string_capacity]); + if (dom_parser) { + SIMDJSON_TRY( dom_parser->set_capacity(new_capacity) ); + SIMDJSON_TRY( dom_parser->set_max_depth(new_max_depth) ); + } else { + SIMDJSON_TRY( simdjson::active_implementation->create_dom_parser_implementation(new_capacity, new_max_depth, dom_parser) ); + } + _capacity = new_capacity; + _max_depth = new_max_depth; + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result parser::iterate(const padded_string &buf) & noexcept { + // Allocate if needed + if (_capacity < buf.size() || !string_buf) { + SIMDJSON_TRY( allocate(buf.size(), _max_depth) ); + } + + // Run stage 1. + SIMDJSON_TRY( dom_parser->stage1((const uint8_t *)buf.data(), buf.size(), false) ); + return document::start({ (const uint8_t *)buf.data(), this }); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result parser::iterate(const simdjson_result &result) & noexcept { + // We don't presently have a way to temporarily get a const T& from a simdjson_result without throwing an exception + SIMDJSON_TRY( result.error() ); + const padded_string &buf = result.value_unsafe(); + return iterate(buf); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result parser::iterate_raw(const padded_string &buf) & noexcept { + // Allocate if needed + if (_capacity < buf.size()) { + SIMDJSON_TRY( allocate(buf.size(), _max_depth) ); + } + + // Run stage 1. + SIMDJSON_TRY( dom_parser->stage1((const uint8_t *)buf.data(), buf.size(), false) ); + return json_iterator((const uint8_t *)buf.data(), this); +} + +} // namespace ondemand +} // namespace ppc64 +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(ppc64::ondemand::parser &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/parser-inl.h */ +/* end file include/simdjson/generic/ondemand-inl.h */ +/* begin file include/simdjson/ppc64/end.h */ +#undef ppc64 +/* end file include/simdjson/ppc64/end.h */ + +#endif // SIMDJSON_IMPLEMENTATION_PPC64 + +#endif // SIMDJSON_PPC64_H +/* end file include/simdjson/ppc64.h */ +/* begin file include/simdjson/fallback.h */ +#ifndef SIMDJSON_FALLBACK_H +#define SIMDJSON_FALLBACK_H + + +// Default Fallback to on unless a builtin implementation has already been selected. +#ifndef SIMDJSON_IMPLEMENTATION_FALLBACK +#define SIMDJSON_IMPLEMENTATION_FALLBACK 1 // (!SIMDJSON_CAN_ALWAYS_RUN_ARM64 && !SIMDJSON_CAN_ALWAYS_RUN_HASWELL && !SIMDJSON_CAN_ALWAYS_RUN_WESTMERE && !SIMDJSON_CAN_ALWAYS_RUN_PPC64) +#endif +#define SIMDJSON_CAN_ALWAYS_RUN_FALLBACK SIMDJSON_IMPLEMENTATION_FALLBACK + +#if SIMDJSON_IMPLEMENTATION_FALLBACK + +namespace simdjson { +/** + * Fallback implementation (runs on any machine). + */ +namespace fallback { +} // namespace fallback +} // namespace simdjson + +/* begin file include/simdjson/fallback/implementation.h */ +#ifndef SIMDJSON_FALLBACK_IMPLEMENTATION_H +#define SIMDJSON_FALLBACK_IMPLEMENTATION_H + + +namespace simdjson { +namespace fallback { + +namespace { +using namespace simdjson; +using namespace simdjson::dom; +} + +class implementation final : public simdjson::implementation { +public: + simdjson_really_inline implementation() : simdjson::implementation( + "fallback", + "Generic fallback implementation", + 0 + ) {} + simdjson_warn_unused error_code create_dom_parser_implementation( + size_t capacity, + size_t max_length, + std::unique_ptr& dst + ) const noexcept final; + simdjson_warn_unused error_code minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) const noexcept final; + simdjson_warn_unused bool validate_utf8(const char *buf, size_t len) const noexcept final; +}; + +} // namespace fallback +} // namespace simdjson + +#endif // SIMDJSON_FALLBACK_IMPLEMENTATION_H +/* end file include/simdjson/fallback/implementation.h */ + +/* begin file include/simdjson/fallback/begin.h */ +// redefining SIMDJSON_IMPLEMENTATION to "fallback" +// #define SIMDJSON_IMPLEMENTATION fallback +/* end file include/simdjson/fallback/begin.h */ + +// Declarations +/* begin file include/simdjson/generic/dom_parser_implementation.h */ + +namespace simdjson { +namespace fallback { + +// expectation: sizeof(open_container) = 64/8. +struct open_container { + uint32_t tape_index; // where, on the tape, does the scope ([,{) begins + uint32_t count; // how many elements in the scope +}; // struct open_container + +static_assert(sizeof(open_container) == 64/8, "Open container must be 64 bits"); + +class dom_parser_implementation final : public internal::dom_parser_implementation { +public: + /** Tape location of each open { or [ */ + std::unique_ptr open_containers{}; + /** Whether each open container is a [ or { */ + std::unique_ptr is_array{}; + /** Buffer passed to stage 1 */ + const uint8_t *buf{}; + /** Length passed to stage 1 */ + size_t len{0}; + /** Document passed to stage 2 */ + dom::document *doc{}; + + inline dom_parser_implementation() noexcept; + inline dom_parser_implementation(dom_parser_implementation &&other) noexcept; + inline dom_parser_implementation &operator=(dom_parser_implementation &&other) noexcept; + dom_parser_implementation(const dom_parser_implementation &) = delete; + dom_parser_implementation &operator=(const dom_parser_implementation &) = delete; + + simdjson_warn_unused error_code parse(const uint8_t *buf, size_t len, dom::document &doc) noexcept final; + simdjson_warn_unused error_code stage1(const uint8_t *buf, size_t len, bool partial) noexcept final; + simdjson_warn_unused error_code check_for_unclosed_array() noexcept; + simdjson_warn_unused error_code stage2(dom::document &doc) noexcept final; + simdjson_warn_unused error_code stage2_next(dom::document &doc) noexcept final; + inline simdjson_warn_unused error_code set_capacity(size_t capacity) noexcept final; + inline simdjson_warn_unused error_code set_max_depth(size_t max_depth) noexcept final; +private: + simdjson_really_inline simdjson_warn_unused error_code set_capacity_stage1(size_t capacity); + +}; + +} // namespace fallback +} // namespace simdjson + +namespace simdjson { +namespace fallback { + +inline dom_parser_implementation::dom_parser_implementation() noexcept = default; +inline dom_parser_implementation::dom_parser_implementation(dom_parser_implementation &&other) noexcept = default; +inline dom_parser_implementation &dom_parser_implementation::operator=(dom_parser_implementation &&other) noexcept = default; + +// Leaving these here so they can be inlined if so desired +inline simdjson_warn_unused error_code dom_parser_implementation::set_capacity(size_t capacity) noexcept { + // Stage 1 index output + size_t max_structures = SIMDJSON_ROUNDUP_N(capacity, 64) + 2 + 7; + structural_indexes.reset( new (std::nothrow) uint32_t[max_structures] ); + if (!structural_indexes) { _capacity = 0; return MEMALLOC; } + structural_indexes[0] = 0; + n_structural_indexes = 0; + + _capacity = capacity; + return SUCCESS; +} + +inline simdjson_warn_unused error_code dom_parser_implementation::set_max_depth(size_t max_depth) noexcept { + // Stage 2 stacks + open_containers.reset(new (std::nothrow) open_container[max_depth]); + is_array.reset(new (std::nothrow) bool[max_depth]); + if (!is_array || !open_containers) { _max_depth = 0; return MEMALLOC; } + + _max_depth = max_depth; + return SUCCESS; +} + +} // namespace fallback +} // namespace simdjson +/* end file include/simdjson/generic/dom_parser_implementation.h */ +/* begin file include/simdjson/fallback/bitmanipulation.h */ +#ifndef SIMDJSON_FALLBACK_BITMANIPULATION_H +#define SIMDJSON_FALLBACK_BITMANIPULATION_H + +#include + +namespace simdjson { +namespace fallback { +namespace { + +#if defined(_MSC_VER) && !defined(_M_ARM64) && !defined(_M_X64) +static inline unsigned char _BitScanForward64(unsigned long* ret, uint64_t x) { + unsigned long x0 = (unsigned long)x, top, bottom; + _BitScanForward(&top, (unsigned long)(x >> 32)); + _BitScanForward(&bottom, x0); + *ret = x0 ? bottom : 32 + top; + return x != 0; +} +static unsigned char _BitScanReverse64(unsigned long* ret, uint64_t x) { + unsigned long x1 = (unsigned long)(x >> 32), top, bottom; + _BitScanReverse(&top, x1); + _BitScanReverse(&bottom, (unsigned long)x); + *ret = x1 ? top + 32 : bottom; + return x != 0; +} +#endif + +/* result might be undefined when input_num is zero */ +simdjson_really_inline int leading_zeroes(uint64_t input_num) { +#ifdef _MSC_VER + unsigned long leading_zero = 0; + // Search the mask data from most significant bit (MSB) + // to least significant bit (LSB) for a set bit (1). + if (_BitScanReverse64(&leading_zero, input_num)) + return (int)(63 - leading_zero); + else + return 64; +#else + return __builtin_clzll(input_num); +#endif// _MSC_VER +} + +} // unnamed namespace +} // namespace fallback +} // namespace simdjson + +#endif // SIMDJSON_FALLBACK_BITMANIPULATION_H +/* end file include/simdjson/fallback/bitmanipulation.h */ +/* begin file include/simdjson/generic/jsoncharutils.h */ + +namespace simdjson { +namespace fallback { +namespace { +namespace jsoncharutils { + +// return non-zero if not a structural or whitespace char +// zero otherwise +simdjson_really_inline uint32_t is_not_structural_or_whitespace(uint8_t c) { + return internal::structural_or_whitespace_negated[c]; +} + +simdjson_really_inline uint32_t is_structural_or_whitespace(uint8_t c) { + return internal::structural_or_whitespace[c]; +} + +// returns a value with the high 16 bits set if not valid +// otherwise returns the conversion of the 4 hex digits at src into the bottom +// 16 bits of the 32-bit return register +// +// see +// https://lemire.me/blog/2019/04/17/parsing-short-hexadecimal-strings-efficiently/ +static inline uint32_t hex_to_u32_nocheck( + const uint8_t *src) { // strictly speaking, static inline is a C-ism + uint32_t v1 = internal::digit_to_val32[630 + src[0]]; + uint32_t v2 = internal::digit_to_val32[420 + src[1]]; + uint32_t v3 = internal::digit_to_val32[210 + src[2]]; + uint32_t v4 = internal::digit_to_val32[0 + src[3]]; + return v1 | v2 | v3 | v4; +} + +// given a code point cp, writes to c +// the utf-8 code, outputting the length in +// bytes, if the length is zero, the code point +// is invalid +// +// This can possibly be made faster using pdep +// and clz and table lookups, but JSON documents +// have few escaped code points, and the following +// function looks cheap. +// +// Note: we assume that surrogates are treated separately +// +simdjson_really_inline size_t codepoint_to_utf8(uint32_t cp, uint8_t *c) { + if (cp <= 0x7F) { + c[0] = uint8_t(cp); + return 1; // ascii + } + if (cp <= 0x7FF) { + c[0] = uint8_t((cp >> 6) + 192); + c[1] = uint8_t((cp & 63) + 128); + return 2; // universal plane + // Surrogates are treated elsewhere... + //} //else if (0xd800 <= cp && cp <= 0xdfff) { + // return 0; // surrogates // could put assert here + } else if (cp <= 0xFFFF) { + c[0] = uint8_t((cp >> 12) + 224); + c[1] = uint8_t(((cp >> 6) & 63) + 128); + c[2] = uint8_t((cp & 63) + 128); + return 3; + } else if (cp <= 0x10FFFF) { // if you know you have a valid code point, this + // is not needed + c[0] = uint8_t((cp >> 18) + 240); + c[1] = uint8_t(((cp >> 12) & 63) + 128); + c[2] = uint8_t(((cp >> 6) & 63) + 128); + c[3] = uint8_t((cp & 63) + 128); + return 4; + } + // will return 0 when the code point was too large. + return 0; // bad r +} + +#ifdef SIMDJSON_IS_32BITS // _umul128 for x86, arm +// this is a slow emulation routine for 32-bit +// +static simdjson_really_inline uint64_t __emulu(uint32_t x, uint32_t y) { + return x * (uint64_t)y; +} +static simdjson_really_inline uint64_t _umul128(uint64_t ab, uint64_t cd, uint64_t *hi) { + uint64_t ad = __emulu((uint32_t)(ab >> 32), (uint32_t)cd); + uint64_t bd = __emulu((uint32_t)ab, (uint32_t)cd); + uint64_t adbc = ad + __emulu((uint32_t)ab, (uint32_t)(cd >> 32)); + uint64_t adbc_carry = !!(adbc < ad); + uint64_t lo = bd + (adbc << 32); + *hi = __emulu((uint32_t)(ab >> 32), (uint32_t)(cd >> 32)) + (adbc >> 32) + + (adbc_carry << 32) + !!(lo < bd); + return lo; +} +#endif + +using internal::value128; + +simdjson_really_inline value128 full_multiplication(uint64_t value1, uint64_t value2) { + value128 answer; +#if defined(SIMDJSON_REGULAR_VISUAL_STUDIO) || defined(SIMDJSON_IS_32BITS) +#ifdef _M_ARM64 + // ARM64 has native support for 64-bit multiplications, no need to emultate + answer.high = __umulh(value1, value2); + answer.low = value1 * value2; +#else + answer.low = _umul128(value1, value2, &answer.high); // _umul128 not available on ARM64 +#endif // _M_ARM64 +#else // defined(SIMDJSON_REGULAR_VISUAL_STUDIO) || defined(SIMDJSON_IS_32BITS) + __uint128_t r = ((__uint128_t)value1) * value2; + answer.low = uint64_t(r); + answer.high = uint64_t(r >> 64); +#endif + return answer; +} + +} // namespace jsoncharutils +} // unnamed namespace +} // namespace fallback +} // namespace simdjson +/* end file include/simdjson/generic/jsoncharutils.h */ +/* begin file include/simdjson/generic/atomparsing.h */ +namespace simdjson { +namespace fallback { +namespace { +/// @private +namespace atomparsing { + +// The string_to_uint32 is exclusively used to map literal strings to 32-bit values. +// We use memcpy instead of a pointer cast to avoid undefined behaviors since we cannot +// be certain that the character pointer will be properly aligned. +// You might think that using memcpy makes this function expensive, but you'd be wrong. +// All decent optimizing compilers (GCC, clang, Visual Studio) will compile string_to_uint32("false"); +// to the compile-time constant 1936482662. +simdjson_really_inline uint32_t string_to_uint32(const char* str) { uint32_t val; std::memcpy(&val, str, sizeof(uint32_t)); return val; } + + +// Again in str4ncmp we use a memcpy to avoid undefined behavior. The memcpy may appear expensive. +// Yet all decent optimizing compilers will compile memcpy to a single instruction, just about. +simdjson_warn_unused +simdjson_really_inline uint32_t str4ncmp(const uint8_t *src, const char* atom) { + uint32_t srcval; // we want to avoid unaligned 32-bit loads (undefined in C/C++) + static_assert(sizeof(uint32_t) <= SIMDJSON_PADDING, "SIMDJSON_PADDING must be larger than 4 bytes"); + std::memcpy(&srcval, src, sizeof(uint32_t)); + return srcval ^ string_to_uint32(atom); +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_true_atom(const uint8_t *src) { + return (str4ncmp(src, "true") | jsoncharutils::is_not_structural_or_whitespace(src[4])) == 0; +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_true_atom(const uint8_t *src, size_t len) { + if (len > 4) { return is_valid_true_atom(src); } + else if (len == 4) { return !str4ncmp(src, "true"); } + else { return false; } +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_false_atom(const uint8_t *src) { + return (str4ncmp(src+1, "alse") | jsoncharutils::is_not_structural_or_whitespace(src[5])) == 0; +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_false_atom(const uint8_t *src, size_t len) { + if (len > 5) { return is_valid_false_atom(src); } + else if (len == 5) { return !str4ncmp(src+1, "alse"); } + else { return false; } +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_null_atom(const uint8_t *src) { + return (str4ncmp(src, "null") | jsoncharutils::is_not_structural_or_whitespace(src[4])) == 0; +} + +simdjson_warn_unused +simdjson_really_inline bool is_valid_null_atom(const uint8_t *src, size_t len) { + if (len > 4) { return is_valid_null_atom(src); } + else if (len == 4) { return !str4ncmp(src, "null"); } + else { return false; } +} + +} // namespace atomparsing +} // unnamed namespace +} // namespace fallback +} // namespace simdjson +/* end file include/simdjson/generic/atomparsing.h */ +/* begin file include/simdjson/fallback/stringparsing.h */ +#ifndef SIMDJSON_FALLBACK_STRINGPARSING_H +#define SIMDJSON_FALLBACK_STRINGPARSING_H + + +namespace simdjson { +namespace fallback { +namespace { + +// Holds backslashes and quotes locations. +struct backslash_and_quote { +public: + static constexpr uint32_t BYTES_PROCESSED = 1; + simdjson_really_inline static backslash_and_quote copy_and_find(const uint8_t *src, uint8_t *dst); + + simdjson_really_inline bool has_quote_first() { return c == '"'; } + simdjson_really_inline bool has_backslash() { return c == '\\'; } + simdjson_really_inline int quote_index() { return c == '"' ? 0 : 1; } + simdjson_really_inline int backslash_index() { return c == '\\' ? 0 : 1; } + + uint8_t c; +}; // struct backslash_and_quote + +simdjson_really_inline backslash_and_quote backslash_and_quote::copy_and_find(const uint8_t *src, uint8_t *dst) { + // store to dest unconditionally - we can overwrite the bits we don't like later + dst[0] = src[0]; + return { src[0] }; +} + +} // unnamed namespace +} // namespace fallback +} // namespace simdjson + +/* begin file include/simdjson/generic/stringparsing.h */ +// This file contains the common code every implementation uses +// It is intended to be included multiple times and compiled multiple times + +namespace simdjson { +namespace fallback { +namespace { +/// @private +namespace stringparsing { + +// begin copypasta +// These chars yield themselves: " \ / +// b -> backspace, f -> formfeed, n -> newline, r -> cr, t -> horizontal tab +// u not handled in this table as it's complex +static const uint8_t escape_map[256] = { + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 0x0. + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0x22, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x2f, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 0x4. + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0x5c, 0, 0, 0, // 0x5. + 0, 0, 0x08, 0, 0, 0, 0x0c, 0, 0, 0, 0, 0, 0, 0, 0x0a, 0, // 0x6. + 0, 0, 0x0d, 0, 0x09, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, // 0x7. + + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, +}; + +// handle a unicode codepoint +// write appropriate values into dest +// src will advance 6 bytes or 12 bytes +// dest will advance a variable amount (return via pointer) +// return true if the unicode codepoint was valid +// We work in little-endian then swap at write time +simdjson_warn_unused +simdjson_really_inline bool handle_unicode_codepoint(const uint8_t **src_ptr, + uint8_t **dst_ptr) { + // jsoncharutils::hex_to_u32_nocheck fills high 16 bits of the return value with 1s if the + // conversion isn't valid; we defer the check for this to inside the + // multilingual plane check + uint32_t code_point = jsoncharutils::hex_to_u32_nocheck(*src_ptr + 2); + *src_ptr += 6; + // check for low surrogate for characters outside the Basic + // Multilingual Plane. + if (code_point >= 0xd800 && code_point < 0xdc00) { + if (((*src_ptr)[0] != '\\') || (*src_ptr)[1] != 'u') { + return false; + } + uint32_t code_point_2 = jsoncharutils::hex_to_u32_nocheck(*src_ptr + 2); + + // if the first code point is invalid we will get here, as we will go past + // the check for being outside the Basic Multilingual plane. If we don't + // find a \u immediately afterwards we fail out anyhow, but if we do, + // this check catches both the case of the first code point being invalid + // or the second code point being invalid. + if ((code_point | code_point_2) >> 16) { + return false; + } + + code_point = + (((code_point - 0xd800) << 10) | (code_point_2 - 0xdc00)) + 0x10000; + *src_ptr += 6; + } + size_t offset = jsoncharutils::codepoint_to_utf8(code_point, *dst_ptr); + *dst_ptr += offset; + return offset > 0; +} + +/** + * Unescape a string from src to dst, stopping at a final unescaped quote. E.g., if src points at 'joe"', then + * dst needs to have four free bytes. + */ +simdjson_warn_unused simdjson_really_inline uint8_t *parse_string(const uint8_t *src, uint8_t *dst) { + while (1) { + // Copy the next n bytes, and find the backslash and quote in them. + auto bs_quote = backslash_and_quote::copy_and_find(src, dst); + // If the next thing is the end quote, copy and return + if (bs_quote.has_quote_first()) { + // we encountered quotes first. Move dst to point to quotes and exit + return dst + bs_quote.quote_index(); + } + if (bs_quote.has_backslash()) { + /* find out where the backspace is */ + auto bs_dist = bs_quote.backslash_index(); + uint8_t escape_char = src[bs_dist + 1]; + /* we encountered backslash first. Handle backslash */ + if (escape_char == 'u') { + /* move src/dst up to the start; they will be further adjusted + within the unicode codepoint handling code. */ + src += bs_dist; + dst += bs_dist; + if (!handle_unicode_codepoint(&src, &dst)) { + return nullptr; + } + } else { + /* simple 1:1 conversion. Will eat bs_dist+2 characters in input and + * write bs_dist+1 characters to output + * note this may reach beyond the part of the buffer we've actually + * seen. I think this is ok */ + uint8_t escape_result = escape_map[escape_char]; + if (escape_result == 0u) { + return nullptr; /* bogus escape value is an error */ + } + dst[bs_dist] = escape_result; + src += bs_dist + 2; + dst += bs_dist + 1; + } + } else { + /* they are the same. Since they can't co-occur, it means we + * encountered neither. */ + src += backslash_and_quote::BYTES_PROCESSED; + dst += backslash_and_quote::BYTES_PROCESSED; + } + } + /* can't be reached */ + return nullptr; +} + +simdjson_unused simdjson_warn_unused simdjson_really_inline error_code parse_string_to_buffer(const uint8_t *src, uint8_t *¤t_string_buf_loc, std::string_view &s) { + if (*(src++) != '"') { return STRING_ERROR; } + auto end = stringparsing::parse_string(src, current_string_buf_loc); + if (!end) { return STRING_ERROR; } + s = std::string_view((const char *)current_string_buf_loc, end-current_string_buf_loc); + current_string_buf_loc = end; + return SUCCESS; +} + +} // namespace stringparsing +} // unnamed namespace +} // namespace fallback +} // namespace simdjson +/* end file include/simdjson/generic/stringparsing.h */ + +#endif // SIMDJSON_FALLBACK_STRINGPARSING_H +/* end file include/simdjson/fallback/stringparsing.h */ +/* begin file include/simdjson/fallback/numberparsing.h */ +#ifndef SIMDJSON_FALLBACK_NUMBERPARSING_H +#define SIMDJSON_FALLBACK_NUMBERPARSING_H + +#ifdef JSON_TEST_NUMBERS // for unit testing +void found_invalid_number(const uint8_t *buf); +void found_integer(int64_t result, const uint8_t *buf); +void found_unsigned_integer(uint64_t result, const uint8_t *buf); +void found_float(double result, const uint8_t *buf); +#endif + +namespace simdjson { +namespace fallback { +namespace { +// credit: https://johnnylee-sde.github.io/Fast-numeric-string-to-int/ +static simdjson_really_inline uint32_t parse_eight_digits_unrolled(const char *chars) { + uint64_t val; + memcpy(&val, chars, sizeof(uint64_t)); + val = (val & 0x0F0F0F0F0F0F0F0F) * 2561 >> 8; + val = (val & 0x00FF00FF00FF00FF) * 6553601 >> 16; + return uint32_t((val & 0x0000FFFF0000FFFF) * 42949672960001 >> 32); +} +static simdjson_really_inline uint32_t parse_eight_digits_unrolled(const uint8_t *chars) { + return parse_eight_digits_unrolled((const char *)chars); +} + +} // unnamed namespace +} // namespace fallback +} // namespace simdjson + +#define SWAR_NUMBER_PARSING +/* begin file include/simdjson/generic/numberparsing.h */ +#include + +namespace simdjson { +namespace fallback { +namespace { +/// @private +namespace numberparsing { + + + +#ifdef JSON_TEST_NUMBERS +#define INVALID_NUMBER(SRC) (found_invalid_number((SRC)), NUMBER_ERROR) +#define WRITE_INTEGER(VALUE, SRC, WRITER) (found_integer((VALUE), (SRC)), (WRITER).append_s64((VALUE))) +#define WRITE_UNSIGNED(VALUE, SRC, WRITER) (found_unsigned_integer((VALUE), (SRC)), (WRITER).append_u64((VALUE))) +#define WRITE_DOUBLE(VALUE, SRC, WRITER) (found_float((VALUE), (SRC)), (WRITER).append_double((VALUE))) +#else +#define INVALID_NUMBER(SRC) (NUMBER_ERROR) +#define WRITE_INTEGER(VALUE, SRC, WRITER) (WRITER).append_s64((VALUE)) +#define WRITE_UNSIGNED(VALUE, SRC, WRITER) (WRITER).append_u64((VALUE)) +#define WRITE_DOUBLE(VALUE, SRC, WRITER) (WRITER).append_double((VALUE)) +#endif + +namespace { +// Convert a mantissa, an exponent and a sign bit into an ieee64 double. +// The real_exponent needs to be in [0, 2046] (technically real_exponent = 2047 would be acceptable). +// The mantissa should be in [0,1<<53). The bit at index (1ULL << 52) while be zeroed. +simdjson_really_inline double to_double(uint64_t mantissa, uint64_t real_exponent, bool negative) { + double d; + mantissa &= ~(1ULL << 52); + mantissa |= real_exponent << 52; + mantissa |= (((uint64_t)negative) << 63); + std::memcpy(&d, &mantissa, sizeof(d)); + return d; +} +} +// Attempts to compute i * 10^(power) exactly; and if "negative" is +// true, negate the result. +// This function will only work in some cases, when it does not work, success is +// set to false. This should work *most of the time* (like 99% of the time). +// We assume that power is in the [smallest_power, +// largest_power] interval: the caller is responsible for this check. +simdjson_really_inline bool compute_float_64(int64_t power, uint64_t i, bool negative, double &d) { + // we start with a fast path + // It was described in + // Clinger WD. How to read floating point numbers accurately. + // ACM SIGPLAN Notices. 1990 +#ifndef FLT_EVAL_METHOD +#error "FLT_EVAL_METHOD should be defined, please include cfloat." +#endif +#if (FLT_EVAL_METHOD != 1) && (FLT_EVAL_METHOD != 0) + // We cannot be certain that x/y is rounded to nearest. + if (0 <= power && power <= 22 && i <= 9007199254740991) { +#else + if (-22 <= power && power <= 22 && i <= 9007199254740991) { +#endif + // convert the integer into a double. This is lossless since + // 0 <= i <= 2^53 - 1. + d = double(i); + // + // The general idea is as follows. + // If 0 <= s < 2^53 and if 10^0 <= p <= 10^22 then + // 1) Both s and p can be represented exactly as 64-bit floating-point + // values + // (binary64). + // 2) Because s and p can be represented exactly as floating-point values, + // then s * p + // and s / p will produce correctly rounded values. + // + if (power < 0) { + d = d / simdjson::internal::power_of_ten[-power]; + } else { + d = d * simdjson::internal::power_of_ten[power]; + } + if (negative) { + d = -d; + } + return true; + } + // When 22 < power && power < 22 + 16, we could + // hope for another, secondary fast path. It was + // described by David M. Gay in "Correctly rounded + // binary-decimal and decimal-binary conversions." (1990) + // If you need to compute i * 10^(22 + x) for x < 16, + // first compute i * 10^x, if you know that result is exact + // (e.g., when i * 10^x < 2^53), + // then you can still proceed and do (i * 10^x) * 10^22. + // Is this worth your time? + // You need 22 < power *and* power < 22 + 16 *and* (i * 10^(x-22) < 2^53) + // for this second fast path to work. + // If you you have 22 < power *and* power < 22 + 16, and then you + // optimistically compute "i * 10^(x-22)", there is still a chance that you + // have wasted your time if i * 10^(x-22) >= 2^53. It makes the use cases of + // this optimization maybe less common than we would like. Source: + // http://www.exploringbinary.com/fast-path-decimal-to-floating-point-conversion/ + // also used in RapidJSON: https://rapidjson.org/strtod_8h_source.html + + // The fast path has now failed, so we are failing back on the slower path. + + // In the slow path, we need to adjust i so that it is > 1<<63 which is always + // possible, except if i == 0, so we handle i == 0 separately. + if(i == 0) { + d = 0.0; + return true; + } + + + // The exponent is 1024 + 63 + power + // + floor(log(5**power)/log(2)). + // The 1024 comes from the ieee64 standard. + // The 63 comes from the fact that we use a 64-bit word. + // + // Computing floor(log(5**power)/log(2)) could be + // slow. Instead we use a fast function. + // + // For power in (-400,350), we have that + // (((152170 + 65536) * power ) >> 16); + // is equal to + // floor(log(5**power)/log(2)) + power when power >= 0 + // and it is equal to + // ceil(log(5**-power)/log(2)) + power when power < 0 + // + // The 65536 is (1<<16) and corresponds to + // (65536 * power) >> 16 ---> power + // + // ((152170 * power ) >> 16) is equal to + // floor(log(5**power)/log(2)) + // + // Note that this is not magic: 152170/(1<<16) is + // approximatively equal to log(5)/log(2). + // The 1<<16 value is a power of two; we could use a + // larger power of 2 if we wanted to. + // + int64_t exponent = (((152170 + 65536) * power) >> 16) + 1024 + 63; + + + // We want the most significant bit of i to be 1. Shift if needed. + int lz = leading_zeroes(i); + i <<= lz; + + + // We are going to need to do some 64-bit arithmetic to get a precise product. + // We use a table lookup approach. + // It is safe because + // power >= smallest_power + // and power <= largest_power + // We recover the mantissa of the power, it has a leading 1. It is always + // rounded down. + // + // We want the most significant 64 bits of the product. We know + // this will be non-zero because the most significant bit of i is + // 1. + const uint32_t index = 2 * uint32_t(power - simdjson::internal::smallest_power); + // Optimization: It may be that materializing the index as a variable might confuse some compilers and prevent effective complex-addressing loads. (Done for code clarity.) + // + // The full_multiplication function computes the 128-bit product of two 64-bit words + // with a returned value of type value128 with a "low component" corresponding to the + // 64-bit least significant bits of the product and with a "high component" corresponding + // to the 64-bit most significant bits of the product. + simdjson::internal::value128 firstproduct = jsoncharutils::full_multiplication(i, simdjson::internal::power_of_five_128[index]); + // Both i and power_of_five_128[index] have their most significant bit set to 1 which + // implies that the either the most or the second most significant bit of the product + // is 1. We pack values in this manner for efficiency reasons: it maximizes the use + // we make of the product. It also makes it easy to reason aboutthe product: there + // 0 or 1 leading zero in the product. + + // Unless the least significant 9 bits of the high (64-bit) part of the full + // product are all 1s, then we know that the most significant 55 bits are + // exact and no further work is needed. Having 55 bits is necessary because + // we need 53 bits for the mantissa but we have to have one rounding bit and + // we can waste a bit if the most significant bit of the product is zero. + if((firstproduct.high & 0x1FF) == 0x1FF) { + // We want to compute i * 5^q, but only care about the top 55 bits at most. + // Consider the scenario where q>=0. Then 5^q may not fit in 64-bits. Doing + // the full computation is wasteful. So we do what is called a "truncated + // multiplication". + // We take the most significant 64-bits, and we put them in + // power_of_five_128[index]. Usually, that's good enough to approximate i * 5^q + // to the desired approximation using one multiplication. Sometimes it does not suffice. + // Then we store the next most significant 64 bits in power_of_five_128[index + 1], and + // then we get a better approximation to i * 5^q. In very rare cases, even that + // will not suffice, though it is seemingly very hard to find such a scenario. + // + // That's for when q>=0. The logic for q<0 is somewhat similar but it is somewhat + // more complicated. + // + // There is an extra layer of complexity in that we need more than 55 bits of + // accuracy in the round-to-even scenario. + // + // The full_multiplication function computes the 128-bit product of two 64-bit words + // with a returned value of type value128 with a "low component" corresponding to the + // 64-bit least significant bits of the product and with a "high component" corresponding + // to the 64-bit most significant bits of the product. + simdjson::internal::value128 secondproduct = jsoncharutils::full_multiplication(i, simdjson::internal::power_of_five_128[index + 1]); + firstproduct.low += secondproduct.high; + if(secondproduct.high > firstproduct.low) { firstproduct.high++; } + // At this point, we might need to add at most one to firstproduct, but this + // can only change the value of firstproduct.high if firstproduct.low is maximal. + if(simdjson_unlikely(firstproduct.low == 0xFFFFFFFFFFFFFFFF)) { + // This is very unlikely, but if so, we need to do much more work! + return false; + } + } + uint64_t lower = firstproduct.low; + uint64_t upper = firstproduct.high; + // The final mantissa should be 53 bits with a leading 1. + // We shift it so that it occupies 54 bits with a leading 1. + /////// + uint64_t upperbit = upper >> 63; + uint64_t mantissa = upper >> (upperbit + 9); + lz += int(1 ^ upperbit); + + // Here we have mantissa < (1<<54). + int64_t real_exponent = exponent - lz; + if (simdjson_unlikely(real_exponent <= 0)) { // we have a subnormal? + // Here have that real_exponent <= 0 so -real_exponent >= 0 + if(-real_exponent + 1 >= 64) { // if we have more than 64 bits below the minimum exponent, you have a zero for sure. + d = 0.0; + return true; + } + // next line is safe because -real_exponent + 1 < 0 + mantissa >>= -real_exponent + 1; + // Thankfully, we can't have both "round-to-even" and subnormals because + // "round-to-even" only occurs for powers close to 0. + mantissa += (mantissa & 1); // round up + mantissa >>= 1; + // There is a weird scenario where we don't have a subnormal but just. + // Suppose we start with 2.2250738585072013e-308, we end up + // with 0x3fffffffffffff x 2^-1023-53 which is technically subnormal + // whereas 0x40000000000000 x 2^-1023-53 is normal. Now, we need to round + // up 0x3fffffffffffff x 2^-1023-53 and once we do, we are no longer + // subnormal, but we can only know this after rounding. + // So we only declare a subnormal if we are smaller than the threshold. + real_exponent = (mantissa < (uint64_t(1) << 52)) ? 0 : 1; + d = to_double(mantissa, real_exponent, negative); + return true; + } + // We have to round to even. The "to even" part + // is only a problem when we are right in between two floats + // which we guard against. + // If we have lots of trailing zeros, we may fall right between two + // floating-point values. + // + // The round-to-even cases take the form of a number 2m+1 which is in (2^53,2^54] + // times a power of two. That is, it is right between a number with binary significand + // m and another number with binary significand m+1; and it must be the case + // that it cannot be represented by a float itself. + // + // We must have that w * 10 ^q == (2m+1) * 2^p for some power of two 2^p. + // Recall that 10^q = 5^q * 2^q. + // When q >= 0, we must have that (2m+1) is divible by 5^q, so 5^q <= 2^54. We have that + // 5^23 <= 2^54 and it is the last power of five to qualify, so q <= 23. + // When q<0, we have w >= (2m+1) x 5^{-q}. We must have that w<2^{64} so + // (2m+1) x 5^{-q} < 2^{64}. We have that 2m+1>2^{53}. Hence, we must have + // 2^{53} x 5^{-q} < 2^{64}. + // Hence we have 5^{-q} < 2^{11}$ or q>= -4. + // + // We require lower <= 1 and not lower == 0 because we could not prove that + // that lower == 0 is implied; but we could prove that lower <= 1 is a necessary and sufficient test. + if (simdjson_unlikely((lower <= 1) && (power >= -4) && (power <= 23) && ((mantissa & 3) == 1))) { + if((mantissa << (upperbit + 64 - 53 - 2)) == upper) { + mantissa &= ~1; // flip it so that we do not round up + } + } + + mantissa += mantissa & 1; + mantissa >>= 1; + + // Here we have mantissa < (1<<53), unless there was an overflow + if (mantissa >= (1ULL << 53)) { + ////////// + // This will happen when parsing values such as 7.2057594037927933e+16 + //////// + mantissa = (1ULL << 52); + real_exponent++; + } + mantissa &= ~(1ULL << 52); + // we have to check that real_exponent is in range, otherwise we bail out + if (simdjson_unlikely(real_exponent > 2046)) { + // We have an infinte value!!! We could actually throw an error here if we could. + return false; + } + d = to_double(mantissa, real_exponent, negative); + return true; +} + +// We call a fallback floating-point parser that might be slow. Note +// it will accept JSON numbers, but the JSON spec. is more restrictive so +// before you call parse_float_fallback, you need to have validated the input +// string with the JSON grammar. +// It will return an error (false) if the parsed number is infinite. +// The string parsing itself always succeeds. We know that there is at least +// one digit. +static bool parse_float_fallback(const uint8_t *ptr, double *outDouble) { + *outDouble = simdjson::internal::from_chars((const char *)ptr); + // We do not accept infinite values. + + // Detecting finite values in a portable manner is ridiculously hard, ideally + // we would want to do: + // return !std::isfinite(*outDouble); + // but that mysteriously fails under legacy/old libc++ libraries, see + // https://github.com/simdjson/simdjson/issues/1286 + // + // Therefore, fall back to this solution (the extra parens are there + // to handle that max may be a macro on windows). + return !(*outDouble > (std::numeric_limits::max)() || *outDouble < std::numeric_limits::lowest()); +} + +// check quickly whether the next 8 chars are made of digits +// at a glance, it looks better than Mula's +// http://0x80.pl/articles/swar-digits-validate.html +simdjson_really_inline bool is_made_of_eight_digits_fast(const uint8_t *chars) { + uint64_t val; + // this can read up to 7 bytes beyond the buffer size, but we require + // SIMDJSON_PADDING of padding + static_assert(7 <= SIMDJSON_PADDING, "SIMDJSON_PADDING must be bigger than 7"); + std::memcpy(&val, chars, 8); + // a branchy method might be faster: + // return (( val & 0xF0F0F0F0F0F0F0F0 ) == 0x3030303030303030) + // && (( (val + 0x0606060606060606) & 0xF0F0F0F0F0F0F0F0 ) == + // 0x3030303030303030); + return (((val & 0xF0F0F0F0F0F0F0F0) | + (((val + 0x0606060606060606) & 0xF0F0F0F0F0F0F0F0) >> 4)) == + 0x3333333333333333); +} + +template +error_code slow_float_parsing(simdjson_unused const uint8_t * src, W writer) { + double d; + if (parse_float_fallback(src, &d)) { + writer.append_double(d); + return SUCCESS; + } + return INVALID_NUMBER(src); +} + +template +NO_SANITIZE_UNDEFINED // We deliberately allow overflow here and check later +simdjson_really_inline bool parse_digit(const uint8_t c, I &i) { + const uint8_t digit = static_cast(c - '0'); + if (digit > 9) { + return false; + } + // PERF NOTE: multiplication by 10 is cheaper than arbitrary integer multiplication + i = 10 * i + digit; // might overflow, we will handle the overflow later + return true; +} + +simdjson_really_inline error_code parse_decimal(simdjson_unused const uint8_t *const src, const uint8_t *&p, uint64_t &i, int64_t &exponent) { + // we continue with the fiction that we have an integer. If the + // floating point number is representable as x * 10^z for some integer + // z that fits in 53 bits, then we will be able to convert back the + // the integer into a float in a lossless manner. + const uint8_t *const first_after_period = p; + +#ifdef SWAR_NUMBER_PARSING + // this helps if we have lots of decimals! + // this turns out to be frequent enough. + if (is_made_of_eight_digits_fast(p)) { + i = i * 100000000 + parse_eight_digits_unrolled(p); + p += 8; + } +#endif + // Unrolling the first digit makes a small difference on some implementations (e.g. westmere) + if (parse_digit(*p, i)) { ++p; } + while (parse_digit(*p, i)) { p++; } + exponent = first_after_period - p; + // Decimal without digits (123.) is illegal + if (exponent == 0) { + return INVALID_NUMBER(src); + } + return SUCCESS; +} + +simdjson_really_inline error_code parse_exponent(simdjson_unused const uint8_t *const src, const uint8_t *&p, int64_t &exponent) { + // Exp Sign: -123.456e[-]78 + bool neg_exp = ('-' == *p); + if (neg_exp || '+' == *p) { p++; } // Skip + as well + + // Exponent: -123.456e-[78] + auto start_exp = p; + int64_t exp_number = 0; + while (parse_digit(*p, exp_number)) { ++p; } + // It is possible for parse_digit to overflow. + // In particular, it could overflow to INT64_MIN, and we cannot do - INT64_MIN. + // Thus we *must* check for possible overflow before we negate exp_number. + + // Performance notes: it may seem like combining the two "simdjson_unlikely checks" below into + // a single simdjson_unlikely path would be faster. The reasoning is sound, but the compiler may + // not oblige and may, in fact, generate two distinct paths in any case. It might be + // possible to do uint64_t(p - start_exp - 1) >= 18 but it could end up trading off + // instructions for a simdjson_likely branch, an unconclusive gain. + + // If there were no digits, it's an error. + if (simdjson_unlikely(p == start_exp)) { + return INVALID_NUMBER(src); + } + // We have a valid positive exponent in exp_number at this point, except that + // it may have overflowed. + + // If there were more than 18 digits, we may have overflowed the integer. We have to do + // something!!!! + if (simdjson_unlikely(p > start_exp+18)) { + // Skip leading zeroes: 1e000000000000000000001 is technically valid and doesn't overflow + while (*start_exp == '0') { start_exp++; } + // 19 digits could overflow int64_t and is kind of absurd anyway. We don't + // support exponents smaller than -999,999,999,999,999,999 and bigger + // than 999,999,999,999,999,999. + // We can truncate. + // Note that 999999999999999999 is assuredly too large. The maximal ieee64 value before + // infinity is ~1.8e308. The smallest subnormal is ~5e-324. So, actually, we could + // truncate at 324. + // Note that there is no reason to fail per se at this point in time. + // E.g., 0e999999999999999999999 is a fine number. + if (p > start_exp+18) { exp_number = 999999999999999999; } + } + // At this point, we know that exp_number is a sane, positive, signed integer. + // It is <= 999,999,999,999,999,999. As long as 'exponent' is in + // [-8223372036854775808, 8223372036854775808], we won't overflow. Because 'exponent' + // is bounded in magnitude by the size of the JSON input, we are fine in this universe. + // To sum it up: the next line should never overflow. + exponent += (neg_exp ? -exp_number : exp_number); + return SUCCESS; +} + +simdjson_really_inline int significant_digits(const uint8_t * start_digits, int digit_count) { + // It is possible that the integer had an overflow. + // We have to handle the case where we have 0.0000somenumber. + const uint8_t *start = start_digits; + while ((*start == '0') || (*start == '.')) { + start++; + } + // we over-decrement by one when there is a '.' + return digit_count - int(start - start_digits); +} + +template +simdjson_really_inline error_code write_float(const uint8_t *const src, bool negative, uint64_t i, const uint8_t * start_digits, int digit_count, int64_t exponent, W &writer) { + // If we frequently had to deal with long strings of digits, + // we could extend our code by using a 128-bit integer instead + // of a 64-bit integer. However, this is uncommon in practice. + // + // 9999999999999999999 < 2**64 so we can accomodate 19 digits. + // If we have a decimal separator, then digit_count - 1 is the number of digits, but we + // may not have a decimal separator! + if (simdjson_unlikely(digit_count > 19 && significant_digits(start_digits, digit_count) > 19)) { + // Ok, chances are good that we had an overflow! + // this is almost never going to get called!!! + // we start anew, going slowly!!! + // This will happen in the following examples: + // 10000000000000000000000000000000000000000000e+308 + // 3.1415926535897932384626433832795028841971693993751 + // + // NOTE: This makes a *copy* of the writer and passes it to slow_float_parsing. This happens + // because slow_float_parsing is a non-inlined function. If we passed our writer reference to + // it, it would force it to be stored in memory, preventing the compiler from picking it apart + // and putting into registers. i.e. if we pass it as reference, it gets slow. + // This is what forces the skip_double, as well. + error_code error = slow_float_parsing(src, writer); + writer.skip_double(); + return error; + } + // NOTE: it's weird that the simdjson_unlikely() only wraps half the if, but it seems to get slower any other + // way we've tried: https://github.com/simdjson/simdjson/pull/990#discussion_r448497331 + // To future reader: we'd love if someone found a better way, or at least could explain this result! + if (simdjson_unlikely(exponent < simdjson::internal::smallest_power) || (exponent > simdjson::internal::largest_power)) { + // + // Important: smallest_power is such that it leads to a zero value. + // Observe that 18446744073709551615e-343 == 0, i.e. (2**64 - 1) e -343 is zero + // so something x 10^-343 goes to zero, but not so with something x 10^-342. + static_assert(simdjson::internal::smallest_power <= -342, "smallest_power is not small enough"); + // + if((exponent < simdjson::internal::smallest_power) || (i == 0)) { + WRITE_DOUBLE(0, src, writer); + return SUCCESS; + } else { // (exponent > largest_power) and (i != 0) + // We have, for sure, an infinite value and simdjson refuses to parse infinite values. + return INVALID_NUMBER(src); + } + } + double d; + if (!compute_float_64(exponent, i, negative, d)) { + // we are almost never going to get here. + if (!parse_float_fallback(src, &d)) { return INVALID_NUMBER(src); } + } + WRITE_DOUBLE(d, src, writer); + return SUCCESS; +} + +// for performance analysis, it is sometimes useful to skip parsing +#ifdef SIMDJSON_SKIPNUMBERPARSING + +template +simdjson_really_inline error_code parse_number(const uint8_t *const, W &writer) { + writer.append_s64(0); // always write zero + return SUCCESS; // always succeeds +} + +simdjson_unused simdjson_really_inline simdjson_result parse_unsigned(const uint8_t * const src) noexcept { return 0; } +simdjson_unused simdjson_really_inline simdjson_result parse_integer(const uint8_t * const src) noexcept { return 0; } +simdjson_unused simdjson_really_inline simdjson_result parse_double(const uint8_t * const src) noexcept { return 0; } + +#else + +// parse the number at src +// define JSON_TEST_NUMBERS for unit testing +// +// It is assumed that the number is followed by a structural ({,},],[) character +// or a white space character. If that is not the case (e.g., when the JSON +// document is made of a single number), then it is necessary to copy the +// content and append a space before calling this function. +// +// Our objective is accurate parsing (ULP of 0) at high speed. +template +simdjson_really_inline error_code parse_number(const uint8_t *const src, W &writer) { + + // + // Check for minus sign + // + bool negative = (*src == '-'); + const uint8_t *p = src + negative; + + // + // Parse the integer part. + // + // PERF NOTE: we don't use is_made_of_eight_digits_fast because large integers like 123456789 are rare + const uint8_t *const start_digits = p; + uint64_t i = 0; + while (parse_digit(*p, i)) { p++; } + + // If there were no digits, or if the integer starts with 0 and has more than one digit, it's an error. + int digit_count = int(p - start_digits); + if (digit_count == 0 || ('0' == *start_digits && digit_count > 1)) { return INVALID_NUMBER(src); } + + // + // Handle floats if there is a . or e (or both) + // + int64_t exponent = 0; + bool is_float = false; + if ('.' == *p) { + is_float = true; + ++p; + SIMDJSON_TRY( parse_decimal(src, p, i, exponent) ); + digit_count = int(p - start_digits); // used later to guard against overflows + } + if (('e' == *p) || ('E' == *p)) { + is_float = true; + ++p; + SIMDJSON_TRY( parse_exponent(src, p, exponent) ); + } + if (is_float) { + const bool clean_end = jsoncharutils::is_structural_or_whitespace(*p); + SIMDJSON_TRY( write_float(src, negative, i, start_digits, digit_count, exponent, writer) ); + if (!clean_end) { return INVALID_NUMBER(src); } + return SUCCESS; + } + + // The longest negative 64-bit number is 19 digits. + // The longest positive 64-bit number is 20 digits. + // We do it this way so we don't trigger this branch unless we must. + int longest_digit_count = negative ? 19 : 20; + if (digit_count > longest_digit_count) { return INVALID_NUMBER(src); } + if (digit_count == longest_digit_count) { + if (negative) { + // Anything negative above INT64_MAX+1 is invalid + if (i > uint64_t(INT64_MAX)+1) { return INVALID_NUMBER(src); } + WRITE_INTEGER(~i+1, src, writer); + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return INVALID_NUMBER(src); } + return SUCCESS; + // Positive overflow check: + // - A 20 digit number starting with 2-9 is overflow, because 18,446,744,073,709,551,615 is the + // biggest uint64_t. + // - A 20 digit number starting with 1 is overflow if it is less than INT64_MAX. + // If we got here, it's a 20 digit number starting with the digit "1". + // - If a 20 digit number starting with 1 overflowed (i*10+digit), the result will be smaller + // than 1,553,255,926,290,448,384. + // - That is smaller than the smallest possible 20-digit number the user could write: + // 10,000,000,000,000,000,000. + // - Therefore, if the number is positive and lower than that, it's overflow. + // - The value we are looking at is less than or equal to 9,223,372,036,854,775,808 (INT64_MAX). + // + } else if (src[0] != uint8_t('1') || i <= uint64_t(INT64_MAX)) { return INVALID_NUMBER(src); } + } + + // Write unsigned if it doesn't fit in a signed integer. + if (i > uint64_t(INT64_MAX)) { + WRITE_UNSIGNED(i, src, writer); + } else { + WRITE_INTEGER(negative ? (~i+1) : i, src, writer); + } + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return INVALID_NUMBER(src); } + return SUCCESS; +} + +// SAX functions +namespace { +// Parse any number from 0 to 18,446,744,073,709,551,615 +simdjson_unused simdjson_really_inline simdjson_result parse_unsigned(const uint8_t * const src) noexcept { + const uint8_t *p = src; + + // + // Parse the integer part. + // + // PERF NOTE: we don't use is_made_of_eight_digits_fast because large integers like 123456789 are rare + const uint8_t *const start_digits = p; + uint64_t i = 0; + while (parse_digit(*p, i)) { p++; } + + // If there were no digits, or if the integer starts with 0 and has more than one digit, it's an error. + int digit_count = int(p - start_digits); + if (digit_count == 0 || ('0' == *start_digits && digit_count > 1)) { return NUMBER_ERROR; } + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return NUMBER_ERROR; } + + // The longest positive 64-bit number is 20 digits. + // We do it this way so we don't trigger this branch unless we must. + if (digit_count > 20) { return NUMBER_ERROR; } + if (digit_count == 20) { + // Positive overflow check: + // - A 20 digit number starting with 2-9 is overflow, because 18,446,744,073,709,551,615 is the + // biggest uint64_t. + // - A 20 digit number starting with 1 is overflow if it is less than INT64_MAX. + // If we got here, it's a 20 digit number starting with the digit "1". + // - If a 20 digit number starting with 1 overflowed (i*10+digit), the result will be smaller + // than 1,553,255,926,290,448,384. + // - That is smaller than the smallest possible 20-digit number the user could write: + // 10,000,000,000,000,000,000. + // - Therefore, if the number is positive and lower than that, it's overflow. + // - The value we are looking at is less than or equal to 9,223,372,036,854,775,808 (INT64_MAX). + // + if (src[0] != uint8_t('1') || i <= uint64_t(INT64_MAX)) { return NUMBER_ERROR; } + } + + return i; +} + +// Parse any number from -9,223,372,036,854,775,808 to 9,223,372,036,854,775,807 +simdjson_unused simdjson_really_inline simdjson_result parse_integer(const uint8_t *src) noexcept { + // + // Check for minus sign + // + bool negative = (*src == '-'); + const uint8_t *p = src + negative; + + // + // Parse the integer part. + // + // PERF NOTE: we don't use is_made_of_eight_digits_fast because large integers like 123456789 are rare + const uint8_t *const start_digits = p; + uint64_t i = 0; + while (parse_digit(*p, i)) { p++; } + + // If there were no digits, or if the integer starts with 0 and has more than one digit, it's an error. + int digit_count = int(p - start_digits); + if (digit_count == 0 || ('0' == *start_digits && digit_count > 1)) { return NUMBER_ERROR; } + if (!jsoncharutils::is_structural_or_whitespace(*p)) { return NUMBER_ERROR; } + + // The longest negative 64-bit number is 19 digits. + // The longest positive 64-bit number is 20 digits. + // We do it this way so we don't trigger this branch unless we must. + int longest_digit_count = negative ? 19 : 20; + if (digit_count > longest_digit_count) { return NUMBER_ERROR; } + if (digit_count == longest_digit_count) { + if(negative) { + // Anything negative above INT64_MAX+1 is invalid + if (i > uint64_t(INT64_MAX)+1) { return NUMBER_ERROR; } + return ~i+1; + + // Positive overflow check: + // - A 20 digit number starting with 2-9 is overflow, because 18,446,744,073,709,551,615 is the + // biggest uint64_t. + // - A 20 digit number starting with 1 is overflow if it is less than INT64_MAX. + // If we got here, it's a 20 digit number starting with the digit "1". + // - If a 20 digit number starting with 1 overflowed (i*10+digit), the result will be smaller + // than 1,553,255,926,290,448,384. + // - That is smaller than the smallest possible 20-digit number the user could write: + // 10,000,000,000,000,000,000. + // - Therefore, if the number is positive and lower than that, it's overflow. + // - The value we are looking at is less than or equal to 9,223,372,036,854,775,808 (INT64_MAX). + // + } else if (src[0] != uint8_t('1') || i <= uint64_t(INT64_MAX)) { return NUMBER_ERROR; } + } + + return negative ? (~i+1) : i; +} + +simdjson_unused simdjson_really_inline simdjson_result parse_double(const uint8_t * src) noexcept { + // + // Check for minus sign + // + bool negative = (*src == '-'); + src += negative; + + // + // Parse the integer part. + // + uint64_t i = 0; + const uint8_t *p = src; + p += parse_digit(*p, i); + bool leading_zero = (i == 0); + while (parse_digit(*p, i)) { p++; } + // no integer digits, or 0123 (zero must be solo) + if ( p == src || (leading_zero && p != src+1)) { return NUMBER_ERROR; } + + // + // Parse the decimal part. + // + int64_t exponent = 0; + bool overflow; + if (simdjson_likely(*p == '.')) { + p++; + const uint8_t *start_decimal_digits = p; + if (!parse_digit(*p, i)) { return NUMBER_ERROR; } // no decimal digits + p++; + while (parse_digit(*p, i)) { p++; } + exponent = -(p - start_decimal_digits); + + // Overflow check. More than 19 digits (minus the decimal) may be overflow. + overflow = p-src-1 > 19; + if (simdjson_unlikely(overflow && leading_zero)) { + // Skip leading 0.00000 and see if it still overflows + const uint8_t *start_digits = src + 2; + while (*start_digits == '0') { start_digits++; } + overflow = start_digits-src > 19; + } + } else { + overflow = p-src > 19; + } + + // + // Parse the exponent + // + if (*p == 'e' || *p == 'E') { + p++; + bool exp_neg = *p == '-'; + p += exp_neg || *p == '+'; + + uint64_t exp = 0; + const uint8_t *start_exp_digits = p; + while (parse_digit(*p, exp)) { p++; } + // no exp digits, or 20+ exp digits + if (p-start_exp_digits == 0 || p-start_exp_digits > 19) { return NUMBER_ERROR; } + + exponent += exp_neg ? 0-exp : exp; + } + + if (jsoncharutils::is_not_structural_or_whitespace(*p)) { return NUMBER_ERROR; } + + overflow = overflow || exponent < simdjson::internal::smallest_power || exponent > simdjson::internal::largest_power; + + // + // Assemble (or slow-parse) the float + // + double d; + if (simdjson_likely(!overflow)) { + if (compute_float_64(exponent, i, negative, d)) { return d; } + } + if (!parse_float_fallback(src-negative, &d)) { + return NUMBER_ERROR; + } + return d; +} +} //namespace {} +#endif // SIMDJSON_SKIPNUMBERPARSING + +} // namespace numberparsing +} // unnamed namespace +} // namespace fallback +} // namespace simdjson +/* end file include/simdjson/generic/numberparsing.h */ + +#endif // SIMDJSON_FALLBACK_NUMBERPARSING_H +/* end file include/simdjson/fallback/numberparsing.h */ +/* begin file include/simdjson/generic/implementation_simdjson_result_base.h */ +namespace simdjson { +namespace fallback { + +// This is a near copy of include/error.h's implementation_simdjson_result_base, except it doesn't use std::pair +// so we can avoid inlining errors +// TODO reconcile these! +/** + * The result of a simdjson operation that could fail. + * + * Gives the option of reading error codes, or throwing an exception by casting to the desired result. + * + * This is a base class for implementations that want to add functions to the result type for + * chaining. + * + * Override like: + * + * struct simdjson_result : public internal::implementation_simdjson_result_base { + * simdjson_result() noexcept : internal::implementation_simdjson_result_base() {} + * simdjson_result(error_code error) noexcept : internal::implementation_simdjson_result_base(error) {} + * simdjson_result(T &&value) noexcept : internal::implementation_simdjson_result_base(std::forward(value)) {} + * simdjson_result(T &&value, error_code error) noexcept : internal::implementation_simdjson_result_base(value, error) {} + * // Your extra methods here + * } + * + * Then any method returning simdjson_result will be chainable with your methods. + */ +template +struct implementation_simdjson_result_base { + + /** + * Create a new empty result with error = UNINITIALIZED. + */ + simdjson_really_inline implementation_simdjson_result_base() noexcept = default; + + /** + * Create a new error result. + */ + simdjson_really_inline implementation_simdjson_result_base(error_code error) noexcept; + + /** + * Create a new successful result. + */ + simdjson_really_inline implementation_simdjson_result_base(T &&value) noexcept; + + /** + * Create a new result with both things (use if you don't want to branch when creating the result). + */ + simdjson_really_inline implementation_simdjson_result_base(T &&value, error_code error) noexcept; + + /** + * Move the value and the error to the provided variables. + * + * @param value The variable to assign the value to. May not be set if there is an error. + * @param error The variable to assign the error to. Set to SUCCESS if there is no error. + */ + simdjson_really_inline void tie(T &value, error_code &error) && noexcept; + + /** + * Move the value to the provided variable. + * + * @param value The variable to assign the value to. May not be set if there is an error. + */ + simdjson_really_inline error_code get(T &value) && noexcept; + + /** + * The error. + */ + simdjson_really_inline error_code error() const noexcept; + +#if SIMDJSON_EXCEPTIONS + + /** + * Get the result value. + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T& value() & noexcept(false); + + /** + * Take the result value (move it). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T&& value() && noexcept(false); + + /** + * Take the result value (move it). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline T&& take_value() && noexcept(false); + + /** + * Cast to the value (will throw on error). + * + * @throw simdjson_error if there was an error. + */ + simdjson_really_inline operator T&&() && noexcept(false); + +#endif // SIMDJSON_EXCEPTIONS + + T first{}; + error_code second{UNINITIALIZED}; +}; // struct implementation_simdjson_result_base + +} // namespace fallback +} // namespace simdjson +/* end file include/simdjson/generic/implementation_simdjson_result_base.h */ +/* begin file include/simdjson/generic/ondemand.h */ +namespace simdjson { +namespace fallback { +/** + * A fast, simple, DOM-like interface that parses JSON as you use it. + * + * Designed for maximum speed and a lower memory profile. + */ +namespace ondemand { + +/** Represents the depth of a JSON value (number of nested arrays/objects). */ +using depth_t = int32_t; + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +/* begin file include/simdjson/generic/ondemand/token_position.h */ +namespace simdjson { +namespace fallback { +namespace ondemand { + +/** @private Position in the JSON buffer indexes */ +using token_position = const uint32_t *; + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/token_position.h */ +/* begin file include/simdjson/generic/ondemand/logger.h */ +namespace simdjson { +namespace fallback { +namespace ondemand { + +class json_iterator; +class value_iterator; + +namespace logger { + +#if SIMDJSON_VERBOSE_LOGGING + static constexpr const bool LOG_ENABLED = true; +#else + static constexpr const bool LOG_ENABLED = false; +#endif + +static simdjson_really_inline void log_headers() noexcept; +static simdjson_really_inline void log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept; +static simdjson_really_inline void log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept; +static simdjson_really_inline void log_event(const json_iterator &iter, const char *type, std::string_view detail="", int delta=0, int depth_delta=0) noexcept; +static simdjson_really_inline void log_value(const json_iterator &iter, const char *type, std::string_view detail="", int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_value(const json_iterator &iter, token_position index, depth_t depth, const char *type, std::string_view detail="") noexcept; +static simdjson_really_inline void log_start_value(const json_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_end_value(const json_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_error(const json_iterator &iter, const char *error, const char *detail="", int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_error(const json_iterator &iter, token_position index, depth_t depth, const char *error, const char *detail="") noexcept; + +static simdjson_really_inline void log_event(const value_iterator &iter, const char *type, std::string_view detail="", int delta=0, int depth_delta=0) noexcept; +static simdjson_really_inline void log_value(const value_iterator &iter, const char *type, std::string_view detail="", int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_start_value(const value_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_end_value(const value_iterator &iter, const char *type, int delta=-1, int depth_delta=0) noexcept; +static simdjson_really_inline void log_error(const value_iterator &iter, const char *error, const char *detail="", int delta=-1, int depth_delta=0) noexcept; + +} // namespace logger +} // namespace ondemand +} // namespace fallback +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/logger.h */ +/* begin file include/simdjson/generic/ondemand/raw_json_string.h */ + +namespace simdjson { +namespace fallback { +namespace ondemand { + +class object; +class parser; +class json_iterator; + +/** + * A string escaped per JSON rules, terminated with quote ("). They are used to represent + * unescaped keys inside JSON documents. + * + * (In other words, a pointer to the beginning of a string, just after the start quote, inside a + * JSON file.) + * + * This class is deliberately simplistic and has little functionality. You can + * compare two raw_json_string instances, or compare a raw_json_string with a string_view, but + * that is pretty much all you can do. + * + * They originate typically from field instance which in turn represent key-value pairs from + * object instances. From a field instance, you get the raw_json_string instance by calling key(). + * You can, if you want a more usable string_view instance, call the unescaped_key() method + * on the field instance. + */ +class raw_json_string { +public: + /** + * Create a new invalid raw_json_string. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline raw_json_string() noexcept = default; + + /** + * Create a new invalid raw_json_string pointed at the given location in the JSON. + * + * The given location must be just *after* the beginning quote (") in the JSON file. + * + * It *must* be terminated by a ", and be a valid JSON string. + */ + simdjson_really_inline raw_json_string(const uint8_t * _buf) noexcept; + /** + * Get the raw pointer to the beginning of the string in the JSON (just after the "). + * + * It is possible for this function to return a null pointer if the instance + * has outlived its existence. + */ + simdjson_really_inline const char * raw() const noexcept; + +private: + /** + * This will set the inner pointer to zero, effectively making + * this instance unusable. + */ + simdjson_really_inline void consume() noexcept { buf = nullptr; } + + /** + * Checks whether the inner pointer is non-null and thus usable. + */ + simdjson_really_inline simdjson_warn_unused bool alive() const noexcept { return buf != nullptr; } + + /** + * Unescape this JSON string, replacing \\ with \, \n with newline, etc. + * + * ## IMPORTANT: string_view lifetime + * + * The string_view is only valid as long as the bytes in dst. + * + * @param dst A pointer to a buffer at least large enough to write this string as well as a \0. + * dst will be updated to the next unused location (just after the \0 written out at + * the end of this string). + * @return A string_view pointing at the unescaped string in dst + * @error STRING_ERROR if escapes are incorrect. + */ + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(uint8_t *&dst) const noexcept; + /** + * Unescape this JSON string, replacing \\ with \, \n with newline, etc. + * + * ## IMPORTANT: string_view lifetime + * + * The string_view is only valid until the next parse() call on the parser. + * + * @param iter A json_iterator, which contains a buffer where the string will be written. + */ + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(json_iterator &iter) const noexcept; + + const uint8_t * buf{}; + friend class object; + friend class field; + friend struct simdjson_result; +}; + +simdjson_unused simdjson_really_inline bool operator==(const raw_json_string &a, std::string_view b) noexcept; +simdjson_unused simdjson_really_inline bool operator==(std::string_view a, const raw_json_string &b) noexcept; +simdjson_unused simdjson_really_inline bool operator!=(const raw_json_string &a, std::string_view b) noexcept; +simdjson_unused simdjson_really_inline bool operator!=(std::string_view a, const raw_json_string &b) noexcept; + +simdjson_unused simdjson_really_inline std::ostream &operator<<(std::ostream &, const raw_json_string &) noexcept; + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public fallback::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(fallback::ondemand::raw_json_string &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + simdjson_really_inline ~simdjson_result() noexcept = default; ///< @private + + simdjson_really_inline simdjson_result raw() const noexcept; + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(uint8_t *&dst) const noexcept; + simdjson_really_inline simdjson_warn_unused simdjson_result unescape(fallback::ondemand::json_iterator &iter) const noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/raw_json_string.h */ +/* begin file include/simdjson/generic/ondemand/token_iterator.h */ +namespace simdjson { +namespace fallback { +namespace ondemand { + +/** + * Iterates through JSON tokens (`{` `}` `[` `]` `,` `:` `""` `123` `true` `false` `null`) + * detected by stage 1. + * + * @private This is not intended for external use. + */ +class token_iterator { +public: + /** + * Create a new invalid token_iterator. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline token_iterator() noexcept = default; + simdjson_really_inline token_iterator(token_iterator &&other) noexcept = default; + simdjson_really_inline token_iterator &operator=(token_iterator &&other) noexcept = default; + simdjson_really_inline token_iterator(const token_iterator &other) noexcept = default; + simdjson_really_inline token_iterator &operator=(const token_iterator &other) noexcept = default; + + /** + * Advance to the next token (returning the current one). + * + * Does not check or update depth/expect_value. Caller is responsible for that. + */ + simdjson_really_inline const uint8_t *advance() noexcept; + + /** + * Get the JSON text for a given token (relative). + * + * This is not null-terminated; it is a view into the JSON. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = current token, + * 1 = next token, -1 = prev token. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(int32_t delta=0) const noexcept; + /** + * Get the maximum length of the JSON text for a given token. + * + * The length will include any whitespace at the end of the token. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = current token, + * 1 = next token, -1 = prev token. + */ + simdjson_really_inline uint32_t peek_length(int32_t delta=0) const noexcept; + + /** + * Get the JSON text for a given token. + * + * This is not null-terminated; it is a view into the JSON. + * + * @param position The position of the token. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(token_position position) const noexcept; + /** + * Get the maximum length of the JSON text for a given token. + * + * The length will include any whitespace at the end of the token. + * + * @param position The position of the token. + */ + simdjson_really_inline uint32_t peek_length(token_position position) const noexcept; + + /** + * Save the current index to be restored later. + */ + simdjson_really_inline token_position position() const noexcept; + /** + * Reset to a previously saved index. + */ + simdjson_really_inline void set_position(token_position target_checkpoint) noexcept; + + // NOTE: we don't support a full C++ iterator interface, because we expect people to make + // different calls to advance the iterator based on *their own* state. + + simdjson_really_inline bool operator==(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator!=(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator>(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator>=(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator<(const token_iterator &other) const noexcept; + simdjson_really_inline bool operator<=(const token_iterator &other) const noexcept; + +protected: + simdjson_really_inline token_iterator(const uint8_t *buf, token_position index) noexcept; + + /** + * Get the index of the JSON text for a given token (relative). + * + * This is not null-terminated; it is a view into the JSON. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = current token, + * 1 = next token, -1 = prev token. + */ + simdjson_really_inline uint32_t peek_index(int32_t delta=0) const noexcept; + /** + * Get the index of the JSON text for a given token. + * + * This is not null-terminated; it is a view into the JSON. + * + * @param position The position of the token. + * + */ + simdjson_really_inline uint32_t peek_index(token_position position) const noexcept; + + const uint8_t *buf{}; + token_position index{}; + + friend class json_iterator; + friend class value_iterator; + friend class object; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept; +}; + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public fallback::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(fallback::ondemand::token_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + simdjson_really_inline ~simdjson_result() noexcept = default; ///< @private +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/token_iterator.h */ +/* begin file include/simdjson/generic/ondemand/json_iterator.h */ +namespace simdjson { +namespace fallback { +namespace ondemand { + +class document; +class object; +class array; +class value; +class raw_json_string; +class parser; + +/** + * Iterates through JSON tokens, keeping track of depth and string buffer. + * + * @private This is not intended for external use. + */ +class json_iterator { +protected: + token_iterator token{}; + ondemand::parser *parser{}; + /** + * Next free location in the string buffer. + * + * Used by raw_json_string::unescape() to have a place to unescape strings to. + */ + uint8_t *_string_buf_loc{}; + /** + * JSON error, if there is one. + * + * INCORRECT_TYPE and NO_SUCH_FIELD are *not* stored here, ever. + * + * PERF NOTE: we *hope* this will be elided into control flow, as it is only used (a) in the first + * iteration of the loop, or (b) for the final iteration after a missing comma is found in ++. If + * this is not elided, we should make sure it's at least not using up a register. Failing that, + * we should store it in document so there's only one of them. + */ + error_code error{SUCCESS}; + /** + * Depth of the current token in the JSON. + * + * - 0 = finished with document + * - 1 = document root value (could be [ or {, not yet known) + * - 2 = , or } inside root array/object + * - 3 = key or value inside root array/object. + */ + depth_t _depth{}; + +public: + simdjson_really_inline json_iterator() noexcept = default; + simdjson_really_inline json_iterator(json_iterator &&other) noexcept; + simdjson_really_inline json_iterator &operator=(json_iterator &&other) noexcept; + simdjson_really_inline json_iterator(const json_iterator &other) noexcept = delete; + simdjson_really_inline json_iterator &operator=(const json_iterator &other) noexcept = delete; + + /** + * Skips a JSON value, whether it is a scalar, array or object. + */ + simdjson_warn_unused simdjson_really_inline error_code skip_child(depth_t parent_depth) noexcept; + + /** + * Tell whether the iterator is still at the start + */ + simdjson_really_inline bool at_root() const noexcept; + + /** + * Get the root value iterator + */ + simdjson_really_inline token_position root_checkpoint() const noexcept; + + /** + * Assert if the iterator is not at the start + */ + simdjson_really_inline void assert_at_root() const noexcept; + + /** + * Tell whether the iterator is at the EOF mark + */ + simdjson_really_inline bool at_eof() const noexcept; + + /** + * Tell whether the iterator is live (has not been moved). + */ + simdjson_really_inline bool is_alive() const noexcept; + + /** + * Abandon this iterator, setting depth to 0 (as if the document is finished). + */ + simdjson_really_inline void abandon() noexcept; + + /** + * Advance the current token. + */ + simdjson_really_inline const uint8_t *advance() noexcept; + + /** + * Get the JSON text for a given token (relative). + * + * This is not null-terminated; it is a view into the JSON. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = next token, -1 = prev token. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(int32_t delta=0) const noexcept; + /** + * Get the maximum length of the JSON text for the current token (or relative). + * + * The length will include any whitespace at the end of the token. + * + * @param delta The relative position of the token to retrieve. e.g. 0 = next token, -1 = prev token. + */ + simdjson_really_inline uint32_t peek_length(int32_t delta=0) const noexcept; + /** + * Get the JSON text for a given token. + * + * This is not null-terminated; it is a view into the JSON. + * + * @param index The position of the token to retrieve. + * + * TODO consider a string_view, assuming the length will get stripped out by the optimizer when + * it isn't used ... + */ + simdjson_really_inline const uint8_t *peek(token_position position) const noexcept; + /** + * Get the maximum length of the JSON text for the current token (or relative). + * + * The length will include any whitespace at the end of the token. + * + * @param index The position of the token to retrieve. + */ + simdjson_really_inline uint32_t peek_length(token_position position) const noexcept; + + /** + * Ascend one level. + * + * Validates that the depth - 1 == parent_depth. + * + * @param parent_depth the expected parent depth. + */ + simdjson_really_inline void ascend_to(depth_t parent_depth) noexcept; + + /** + * Descend one level. + * + * Validates that the new depth == child_depth. + * + * @param child_depth the expected child depth. + */ + simdjson_really_inline void descend_to(depth_t parent_depth) noexcept; + + /** + * Get current depth. + */ + simdjson_really_inline depth_t depth() const noexcept; + + /** + * Get current (writeable) location in the string buffer. + */ + simdjson_really_inline uint8_t *&string_buf_loc() noexcept; + + /** + * Report an error, preventing further iteration. + * + * @param error The error to report. Must not be SUCCESS, UNINITIALIZED, INCORRECT_TYPE, or NO_SUCH_FIELD. + * @param message An error message to report with the error. + */ + simdjson_really_inline error_code report_error(error_code error, const char *message) noexcept; + + /** + * Log error, but don't stop iteration. + * @param error The error to report. Must be INCORRECT_TYPE, or NO_SUCH_FIELD. + * @param message An error message to report with the error. + */ + simdjson_really_inline error_code optional_error(error_code error, const char *message) noexcept; + + template simdjson_warn_unused simdjson_really_inline bool copy_to_buffer(const uint8_t *json, uint32_t max_len, uint8_t (&tmpbuf)[N]) noexcept; + template simdjson_warn_unused simdjson_really_inline bool peek_to_buffer(uint8_t (&tmpbuf)[N]) noexcept; + template simdjson_warn_unused simdjson_really_inline bool advance_to_buffer(uint8_t (&tmpbuf)[N]) noexcept; + + simdjson_really_inline token_position position() const noexcept; + simdjson_really_inline void set_position(token_position target_checkpoint) noexcept; + +protected: + simdjson_really_inline json_iterator(const uint8_t *buf, ondemand::parser *parser) noexcept; + + friend class document; + friend class object; + friend class array; + friend class value; + friend class raw_json_string; + friend class parser; + friend class value_iterator; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept; + friend simdjson_really_inline void logger::log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept; +}; // json_iterator + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public fallback::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(fallback::ondemand::json_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + + simdjson_really_inline simdjson_result() noexcept = default; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/json_iterator.h */ +/* begin file include/simdjson/generic/ondemand/value_iterator.h */ +namespace simdjson { +namespace fallback { +namespace ondemand { + +class document; +class object; +class array; +class value; +class raw_json_string; +class parser; + +/** + * Iterates through a single JSON value at a particular depth. + * + * Does not keep track of the type of value: provides methods for objects, arrays and scalars and expects + * the caller to call the right ones. + * + * @private This is not intended for external use. + */ +class value_iterator { +protected: + /** The underlying JSON iterator */ + json_iterator *_json_iter{}; + /** The depth of this value */ + depth_t _depth{}; + /** + * The starting token index for this value + * + * PERF NOTE: this is a safety check; we expect this to be elided in release builds. + */ + token_position _start_position{}; + +public: + simdjson_really_inline value_iterator() noexcept = default; + + /** + * Denote that we're starting a document. + */ + simdjson_really_inline void start_document() noexcept; + + /** + * Skips a non-iterated or partially-iterated JSON value, whether it is a scalar, array or object. + * + * Optimized for scalars. + */ + simdjson_warn_unused simdjson_really_inline error_code skip_child() noexcept; + + /** + * Tell whether the iterator is at the EOF mark + */ + simdjson_really_inline bool at_eof() const noexcept; + + /** + * Tell whether the iterator is at the start of the value + */ + simdjson_really_inline bool at_start() const noexcept; + + /** + * Tell whether the value is open--if the value has not been used, or the array/object is still open. + */ + simdjson_really_inline bool is_open() const noexcept; + + /** + * Tell whether the value is at an object's first field (just after the {). + */ + simdjson_really_inline bool at_first_field() const noexcept; + + /** + * Abandon all iteration. + */ + simdjson_really_inline void abandon() noexcept; + + /** + * Get the child value as a value_iterator. + */ + simdjson_really_inline value_iterator child_value() const noexcept; + + /** + * Get the depth of this value. + */ + simdjson_really_inline depth_t depth() const noexcept; + + /** + * @addtogroup object Object iteration + * + * Methods to iterate and find object fields. These methods generally *assume* the value is + * actually an object; the caller is responsible for keeping track of that fact. + * + * @{ + */ + + /** + * Start an object iteration. + * + * @returns Whether the object had any fields (returns false for empty). + * @error INCORRECT_TYPE if there is no opening { + */ + simdjson_warn_unused simdjson_really_inline simdjson_result start_object() noexcept; + /** + * Check for an opening { and start an object iteration. + * + * @returns Whether the object had any fields (returns false for empty). + * @error INCORRECT_TYPE if there is no opening { + */ + simdjson_warn_unused simdjson_really_inline simdjson_result try_start_object() noexcept; + + /** + * Start an object iteration after the user has already checked and moved past the {. + * + * Does not move the iterator. + * + * @returns Whether the object had any fields (returns false for empty). + */ + simdjson_warn_unused simdjson_really_inline bool started_object() noexcept; + + /** + * Moves to the next field in an object. + * + * Looks for , and }. If } is found, the object is finished and the iterator advances past it. + * Otherwise, it advances to the next value. + * + * @return whether there is another field in the object. + * @error TAPE_ERROR If there is a comma missing between fields. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result has_next_field() noexcept; + + /** + * Get the current field's key. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result field_key() noexcept; + + /** + * Pass the : in the field and move to its value. + */ + simdjson_warn_unused simdjson_really_inline error_code field_value() noexcept; + + /** + * Find the next field with the given key. + * + * Assumes you have called next_field() or otherwise matched the previous value. + * + * This means the iterator must be sitting at the next key: + * + * ``` + * { "a": 1, "b": 2 } + * ^ + * ``` + * + * Key is *raw JSON,* meaning it will be matched against the verbatim JSON without attempting to + * unescape it. This works well for typical ASCII and UTF-8 keys (almost all of them), but may + * fail to match some keys with escapes (\u, \n, etc.). + */ + simdjson_warn_unused simdjson_really_inline error_code find_field(const std::string_view key) noexcept; + + /** + * Find the next field with the given key, *without* unescaping. This assumes object order: it + * will not find the field if it was already passed when looking for some *other* field. + * + * Assumes you have called next_field() or otherwise matched the previous value. + * + * This means the iterator must be sitting at the next key: + * + * ``` + * { "a": 1, "b": 2 } + * ^ + * ``` + * + * Key is *raw JSON,* meaning it will be matched against the verbatim JSON without attempting to + * unescape it. This works well for typical ASCII and UTF-8 keys (almost all of them), but may + * fail to match some keys with escapes (\u, \n, etc.). + */ + simdjson_warn_unused simdjson_really_inline simdjson_result find_field_raw(const std::string_view key) noexcept; + + /** + * Find the field with the given key without regard to order, and *without* unescaping. + * + * This is an unordered object lookup: if the field is not found initially, it will cycle around and scan from the beginning. + * + * Assumes you have called next_field() or otherwise matched the previous value. + * + * This means the iterator must be sitting at the next key: + * + * ``` + * { "a": 1, "b": 2 } + * ^ + * ``` + * + * Key is *raw JSON,* meaning it will be matched against the verbatim JSON without attempting to + * unescape it. This works well for typical ASCII and UTF-8 keys (almost all of them), but may + * fail to match some keys with escapes (\u, \n, etc.). + */ + simdjson_warn_unused simdjson_really_inline simdjson_result find_field_unordered_raw(const std::string_view key) noexcept; + + /** @} */ + + /** + * @addtogroup array Array iteration + * Methods to iterate over array elements. These methods generally *assume* the value is actually + * an object; the caller is responsible for keeping track of that fact. + * @{ + */ + + /** + * Check for an opening [ and start an array iteration. + * + * @param json A pointer to the potential [. + * @returns Whether the array had any elements (returns false for empty). + * @error INCORRECT_TYPE If there is no [. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result start_array() noexcept; + /** + * Check for an opening [ and start an array iteration. + * + * @returns Whether the array had any elements (returns false for empty). + * @error INCORRECT_TYPE If there is no [. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result try_start_array() noexcept; + + /** + * Start an array iteration after the user has already checked and moved past the [. + * + * Does not move the iterator. + * + * @returns Whether the array had any elements (returns false for empty). + */ + simdjson_warn_unused simdjson_really_inline bool started_array() noexcept; + + /** + * Moves to the next element in an array. + * + * Looks for , and ]. If ] is found, the array is finished and the iterator advances past it. + * Otherwise, it advances to the next value. + * + * @return Whether there is another element in the array. + * @error TAPE_ERROR If there is a comma missing between elements. + */ + simdjson_warn_unused simdjson_really_inline simdjson_result has_next_element() noexcept; + + /** + * Get a child value iterator. + */ + simdjson_warn_unused simdjson_really_inline value_iterator child() const noexcept; + + /** @} */ + + /** + * @defgroup scalar Scalar values + * @addtogroup scalar + * @{ + */ + + simdjson_warn_unused simdjson_really_inline simdjson_result get_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_uint64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_int64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_double() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_bool() noexcept; + simdjson_really_inline bool is_null() noexcept; + + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_raw_json_string() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_uint64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_int64() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_double() noexcept; + simdjson_warn_unused simdjson_really_inline simdjson_result get_root_bool() noexcept; + simdjson_really_inline bool is_root_null() noexcept; + + simdjson_really_inline error_code error() const noexcept; + simdjson_really_inline uint8_t *&string_buf_loc() noexcept; + simdjson_really_inline const json_iterator &json_iter() const noexcept; + simdjson_really_inline json_iterator &json_iter() noexcept; + + /** @} */ + +protected: + simdjson_really_inline value_iterator(json_iterator *json_iter, depth_t depth, token_position start_index) noexcept; + + simdjson_really_inline bool parse_null(const uint8_t *json) const noexcept; + simdjson_really_inline simdjson_result parse_bool(const uint8_t *json) const noexcept; + + simdjson_really_inline const uint8_t *peek_scalar() const noexcept; + simdjson_really_inline uint32_t peek_scalar_length() const noexcept; + simdjson_really_inline const uint8_t *advance_scalar(const char *type) const noexcept; + simdjson_really_inline const uint8_t *advance_root_scalar(const char *type) const noexcept; + simdjson_really_inline const uint8_t *advance_non_root_scalar(const char *type) const noexcept; + + simdjson_really_inline error_code incorrect_type_error(const char *message) const noexcept; + + simdjson_really_inline bool is_at_start() const noexcept; + simdjson_really_inline void assert_at_start() const noexcept; + simdjson_really_inline void assert_at_root() const noexcept; + simdjson_really_inline void assert_at_child() const noexcept; + simdjson_really_inline void assert_at_next() const noexcept; + simdjson_really_inline void assert_at_non_root_start() const noexcept; + + friend class document; + friend class object; + friend class array; + friend class value; +}; // value_iterator + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public fallback::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(fallback::ondemand::value_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value_iterator.h */ +/* begin file include/simdjson/generic/ondemand/array_iterator.h */ + +namespace simdjson { +namespace fallback { +namespace ondemand { + +class array; +class value; +class document; + +/** + * A forward-only JSON array. + * + * This is an input_iterator, meaning: + * - It is forward-only + * - * must be called exactly once per element. + * - ++ must be called exactly once in between each * (*, ++, *, ++, * ...) + */ +class array_iterator { +public: + /** Create a new, invalid array iterator. */ + simdjson_really_inline array_iterator() noexcept = default; + + // + // Iterator interface + // + + /** + * Get the current element. + * + * Part of the std::iterator interface. + */ + simdjson_really_inline simdjson_result operator*() noexcept; // MUST ONLY BE CALLED ONCE PER ITERATION. + /** + * Check if we are at the end of the JSON. + * + * Part of the std::iterator interface. + * + * @return true if there are no more elements in the JSON array. + */ + simdjson_really_inline bool operator==(const array_iterator &) const noexcept; + /** + * Check if there are more elements in the JSON array. + * + * Part of the std::iterator interface. + * + * @return true if there are more elements in the JSON array. + */ + simdjson_really_inline bool operator!=(const array_iterator &) const noexcept; + /** + * Move to the next element. + * + * Part of the std::iterator interface. + */ + simdjson_really_inline array_iterator &operator++() noexcept; + +private: + value_iterator iter{}; + + simdjson_really_inline array_iterator(const value_iterator &iter) noexcept; + + friend class array; + friend class value; + friend struct simdjson_result; +}; + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public fallback::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(fallback::ondemand::array_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + // + // Iterator interface + // + + simdjson_really_inline simdjson_result operator*() noexcept; // MUST ONLY BE CALLED ONCE PER ITERATION. + simdjson_really_inline bool operator==(const simdjson_result &) const noexcept; + simdjson_really_inline bool operator!=(const simdjson_result &) const noexcept; + simdjson_really_inline simdjson_result &operator++() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array_iterator.h */ +/* begin file include/simdjson/generic/ondemand/object_iterator.h */ + +namespace simdjson { +namespace fallback { +namespace ondemand { + +class field; + +class object_iterator { +public: + /** + * Create a new invalid object_iterator. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline object_iterator() noexcept = default; + + // + // Iterator interface + // + + // Reads key and value, yielding them to the user. + // MUST ONLY BE CALLED ONCE PER ITERATION. + simdjson_really_inline simdjson_result operator*() noexcept; + // Assumes it's being compared with the end. true if depth < iter->depth. + simdjson_really_inline bool operator==(const object_iterator &) const noexcept; + // Assumes it's being compared with the end. true if depth >= iter->depth. + simdjson_really_inline bool operator!=(const object_iterator &) const noexcept; + // Checks for ']' and ',' + simdjson_really_inline object_iterator &operator++() noexcept; + +private: + /** + * The underlying JSON iterator. + * + * PERF NOTE: expected to be elided in favor of the parent document: this is set when the object + * is first used, and never changes afterwards. + */ + value_iterator iter{}; + + simdjson_really_inline object_iterator(const value_iterator &iter) noexcept; + friend struct simdjson_result; + friend class object; +}; + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public fallback::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(fallback::ondemand::object_iterator &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + // + // Iterator interface + // + + // Reads key and value, yielding them to the user. + simdjson_really_inline simdjson_result operator*() noexcept; // MUST ONLY BE CALLED ONCE PER ITERATION. + // Assumes it's being compared with the end. true if depth < iter->depth. + simdjson_really_inline bool operator==(const simdjson_result &) const noexcept; + // Assumes it's being compared with the end. true if depth >= iter->depth. + simdjson_really_inline bool operator!=(const simdjson_result &) const noexcept; + // Checks for ']' and ',' + simdjson_really_inline simdjson_result &operator++() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object_iterator.h */ +/* begin file include/simdjson/generic/ondemand/array.h */ + +namespace simdjson { +namespace fallback { +namespace ondemand { + +class value; +class document; + +/** + * A forward-only JSON array. + */ +class array { +public: + /** + * Create a new invalid array. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline array() noexcept = default; + + /** + * Begin array iteration. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline array_iterator begin() noexcept; + /** + * Sentinel representing the end of the array. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline array_iterator end() noexcept; + +protected: + /** + * Begin array iteration. + * + * @param iter The iterator. Must be where the initial [ is expected. Will be *moved* into the + * resulting array. + * @error INCORRECT_TYPE if the iterator is not at [. + */ + static simdjson_really_inline simdjson_result start(value_iterator &iter) noexcept; + /** + * Begin array iteration. + * + * @param iter The iterator. Must be where the initial [ is expected. Will be *moved* into the + * resulting array. + * @error INCORRECT_TYPE if the iterator is not at [. + */ + static simdjson_really_inline simdjson_result try_start(value_iterator &iter) noexcept; + /** + * Begin array iteration. + * + * This version of the method should be called after the initial [ has been verified, and is + * intended for use by switch statements that check the type of a value. + * + * @param iter The iterator. Must be after the initial [. Will be *moved* into the resulting array. + */ + static simdjson_really_inline array started(value_iterator &iter) noexcept; + + /** + * Create an array at the given Internal array creation. Call array::start() or array::started() instead of this. + * + * @param iter The iterator. Must either be at the start of the first element with iter.is_alive() + * == true, or past the [] with is_alive() == false if the array is empty. Will be *moved* + * into the resulting array. + */ + simdjson_really_inline array(const value_iterator &iter) noexcept; + + /** + * Iterator marking current position. + * + * iter.is_alive() == false indicates iteration is complete. + */ + value_iterator iter{}; + + friend class value; + friend struct simdjson_result; + friend struct simdjson_result; + friend class array_iterator; +}; + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public fallback::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(fallback::ondemand::array &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result begin() noexcept; + simdjson_really_inline simdjson_result end() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array.h */ +/* begin file include/simdjson/generic/ondemand/document.h */ + +namespace simdjson { +namespace fallback { +namespace ondemand { + +class parser; +class array; +class object; +class value; +class raw_json_string; +class array_iterator; + +/** + * A JSON document iteration. + * + * Used by tokens to get text, and string buffer location. + * + * You must keep the document around during iteration. + */ +class document { +public: + /** + * Create a new invalid document. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline document() noexcept = default; + simdjson_really_inline document(const document &other) noexcept = delete; + simdjson_really_inline document(document &&other) noexcept = default; + simdjson_really_inline document &operator=(const document &other) noexcept = delete; + simdjson_really_inline document &operator=(document &&other) noexcept = default; + + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @returns INCORRECT_TYPE If the JSON value is not an array. + */ + simdjson_really_inline simdjson_result get_array() & noexcept; + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @returns INCORRECT_TYPE If the JSON value is not an object. + */ + simdjson_really_inline simdjson_result get_object() & noexcept; + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline simdjson_result get_uint64() noexcept; + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline simdjson_result get_int64() noexcept; + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @returns INCORRECT_TYPE If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline simdjson_result get_double() noexcept; + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_string() noexcept; + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @returns INCORRECT_TYPE if the JSON value is not true or false. + */ + simdjson_really_inline simdjson_result get_bool() noexcept; + /** + * Checks if this JSON value is null. + * + * @returns Whether the value is null. + */ + simdjson_really_inline bool is_null() noexcept; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @returns A value of the given type, parsed from the JSON. + * @returns INCORRECT_TYPE If the JSON value is not the given type. + */ + template simdjson_really_inline simdjson_result get() & noexcept; + /** @overload template simdjson_result get() & noexcept */ + template simdjson_really_inline simdjson_result get() && noexcept; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @param out This is set to a value of the given type, parsed from the JSON. If there is an error, this may not be initialized. + * @returns INCORRECT_TYPE If the JSON value is not an object. + * @returns SUCCESS If the parse succeeded and the out parameter was set to the value. + */ + template simdjson_really_inline error_code get(T &out) & noexcept; + /** @overload template error_code get(T &out) & noexcept */ + template simdjson_really_inline error_code get(T &out) && noexcept; + +#if SIMDJSON_EXCEPTIONS + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an array. + */ + simdjson_really_inline operator array() & noexcept(false); + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an object. + */ + simdjson_really_inline operator object() & noexcept(false); + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline operator uint64_t() noexcept(false); + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline operator int64_t() noexcept(false); + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline operator double() noexcept(false); + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator std::string_view() noexcept(false); + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator raw_json_string() noexcept(false); + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not true or false. + */ + simdjson_really_inline operator bool() noexcept(false); +#endif + + /** + * Begin array iteration. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline simdjson_result begin() & noexcept; + /** + * Sentinel representing the end of the array. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline simdjson_result end() & noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + +protected: + simdjson_really_inline document(ondemand::json_iterator &&iter) noexcept; + simdjson_really_inline const uint8_t *text(uint32_t idx) const noexcept; + + simdjson_really_inline value_iterator resume_value_iterator() noexcept; + simdjson_really_inline value_iterator get_root_value_iterator() noexcept; + simdjson_really_inline value resume_value() noexcept; + simdjson_really_inline value get_root_value() noexcept; + static simdjson_really_inline document start(ondemand::json_iterator &&iter) noexcept; + + // + // Fields + // + json_iterator iter{}; ///< Current position in the document + static constexpr depth_t DOCUMENT_DEPTH = 0; ///< document depth is always 0 + + friend struct simdjson_result; + friend class array_iterator; + friend class value; + friend class ondemand::parser; + friend class object; + friend class array; + friend class field; + friend class token; +}; + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public fallback::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(fallback::ondemand::document &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result get_array() & noexcept; + simdjson_really_inline simdjson_result get_object() & noexcept; + simdjson_really_inline simdjson_result get_uint64() noexcept; + simdjson_really_inline simdjson_result get_int64() noexcept; + simdjson_really_inline simdjson_result get_double() noexcept; + simdjson_really_inline simdjson_result get_string() noexcept; + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + simdjson_really_inline simdjson_result get_bool() noexcept; + simdjson_really_inline bool is_null() noexcept; + + template simdjson_really_inline simdjson_result get() & noexcept; + template simdjson_really_inline simdjson_result get() && noexcept; + + template simdjson_really_inline error_code get(T &out) & noexcept; + template simdjson_really_inline error_code get(T &out) && noexcept; + +#if SIMDJSON_EXCEPTIONS + simdjson_really_inline operator fallback::ondemand::array() & noexcept(false); + simdjson_really_inline operator fallback::ondemand::object() & noexcept(false); + simdjson_really_inline operator uint64_t() noexcept(false); + simdjson_really_inline operator int64_t() noexcept(false); + simdjson_really_inline operator double() noexcept(false); + simdjson_really_inline operator std::string_view() noexcept(false); + simdjson_really_inline operator fallback::ondemand::raw_json_string() noexcept(false); + simdjson_really_inline operator bool() noexcept(false); +#endif + + simdjson_really_inline simdjson_result begin() & noexcept; + simdjson_really_inline simdjson_result end() & noexcept; + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/document.h */ +/* begin file include/simdjson/generic/ondemand/value.h */ + +namespace simdjson { +namespace fallback { +namespace ondemand { + +class array; +class document; +class field; +class object; +class raw_json_string; + +/** + * An ephemeral JSON value returned during iteration. + */ +class value { +public: + /** + * Create a new invalid value. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline value() noexcept = default; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @returns A value of the given type, parsed from the JSON. + * @returns INCORRECT_TYPE If the JSON value is not the given type. + */ + template simdjson_really_inline simdjson_result get() & noexcept; + /** @overload template simdjson_result get() & noexcept */ + template simdjson_really_inline simdjson_result get() && noexcept; + + /** + * Get this value as the given type. + * + * Supported types: object, array, raw_json_string, string_view, uint64_t, int64_t, double, bool + * + * @param out This is set to a value of the given type, parsed from the JSON. If there is an error, this may not be initialized. + * @returns INCORRECT_TYPE If the JSON value is not an object. + * @returns SUCCESS If the parse succeeded and the out parameter was set to the value. + */ + template simdjson_really_inline error_code get(T &out) & noexcept; + /** @overload template error_code get(T &out) & noexcept */ + template simdjson_really_inline error_code get(T &out) && noexcept; + + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @returns INCORRECT_TYPE If the JSON value is not an array. + */ + simdjson_really_inline simdjson_result get_array() && noexcept; + /** @overload simdjson_really_inline operator get_array() && noexcept(false); */ + simdjson_really_inline simdjson_result get_array() & noexcept; + + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @returns INCORRECT_TYPE If the JSON value is not an object. + */ + simdjson_really_inline simdjson_result get_object() && noexcept; + /** @overload simdjson_really_inline operator object() && noexcept(false); */ + simdjson_really_inline simdjson_result get_object() & noexcept; + + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline simdjson_result get_uint64() noexcept; + + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @returns INCORRECT_TYPE If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline simdjson_result get_int64() noexcept; + + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @returns INCORRECT_TYPE If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline simdjson_result get_double() noexcept; + + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_string() noexcept; + + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @returns INCORRECT_TYPE if the JSON value is not a string. + */ + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @returns INCORRECT_TYPE if the JSON value is not true or false. + */ + simdjson_really_inline simdjson_result get_bool() noexcept; + + /** + * Checks if this JSON value is null. + * + * @returns Whether the value is null. + */ + simdjson_really_inline bool is_null() noexcept; + +#if SIMDJSON_EXCEPTIONS + /** + * Cast this JSON value to an array. + * + * @returns An object that can be used to iterate the array. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an array. + */ + simdjson_really_inline operator array() && noexcept(false); + /** @overload simdjson_really_inline operator array() && noexcept(false); */ + simdjson_really_inline operator array() & noexcept(false); + /** + * Cast this JSON value to an object. + * + * @returns An object that can be used to look up or iterate fields. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not an object. + */ + simdjson_really_inline operator object() && noexcept(false); + /** @overload simdjson_really_inline operator object() && noexcept(false); */ + simdjson_really_inline operator object() & noexcept(false); + /** + * Cast this JSON value to an unsigned integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit unsigned integer. + */ + simdjson_really_inline operator uint64_t() noexcept(false); + /** + * Cast this JSON value to a signed integer. + * + * @returns A signed 64-bit integer. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a 64-bit integer. + */ + simdjson_really_inline operator int64_t() noexcept(false); + /** + * Cast this JSON value to a double. + * + * @returns A double. + * @exception simdjson_error(INCORRECT_TYPE) If the JSON value is not a valid floating-point number. + */ + simdjson_really_inline operator double() noexcept(false); + /** + * Cast this JSON value to a string. + * + * The string is guaranteed to be valid UTF-8. + * + * Equivalent to get(). + * + * @returns An UTF-8 string. The string is stored in the parser and will be invalidated the next + * time it parses a document or when it is destroyed. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator std::string_view() noexcept(false); + /** + * Cast this JSON value to a raw_json_string. + * + * The string is guaranteed to be valid UTF-8, and may have escapes in it (e.g. \\ or \n). + * + * @returns A pointer to the raw JSON for the given string. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not a string. + */ + simdjson_really_inline operator raw_json_string() noexcept(false); + /** + * Cast this JSON value to a bool. + * + * @returns A bool value. + * @exception simdjson_error(INCORRECT_TYPE) if the JSON value is not true or false. + */ + simdjson_really_inline operator bool() noexcept(false); +#endif + + /** + * Begin array iteration. + * + * Part of the std::iterable interface. + * + * @returns INCORRECT_TYPE If the JSON value is not an array. + */ + simdjson_really_inline simdjson_result begin() & noexcept; + /** + * Sentinel representing the end of the array. + * + * Part of the std::iterable interface. + */ + simdjson_really_inline simdjson_result end() & noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) && noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) && noexcept; + +protected: + /** + * Create a value. + */ + simdjson_really_inline value(const value_iterator &iter) noexcept; + + /** + * Skip this value, allowing iteration to continue. + */ + simdjson_really_inline void skip() noexcept; + + /** + * Start a value at the current position. + * + * (It should already be started; this is just a self-documentation method.) + */ + static simdjson_really_inline value start(const value_iterator &iter) noexcept; + + /** + * Resume a value. + */ + static simdjson_really_inline value resume(const value_iterator &iter) noexcept; + + /** + * Get the object, starting or resuming it as necessary + */ + simdjson_really_inline simdjson_result start_or_resume_object() & noexcept; + /** @overload simdjson_really_inline simdjson_result start_or_resume_object() & noexcept; */ + simdjson_really_inline simdjson_result start_or_resume_object() && noexcept; + + // simdjson_really_inline void log_value(const char *type) const noexcept; + // simdjson_really_inline void log_error(const char *message) const noexcept; + + value_iterator iter{}; + + friend class document; + friend class array_iterator; + friend class field; + friend class object; + friend struct simdjson_result; + friend struct simdjson_result; + friend struct simdjson_result; +}; + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public fallback::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(fallback::ondemand::value &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result get_array() && noexcept; + simdjson_really_inline simdjson_result get_array() & noexcept; + + simdjson_really_inline simdjson_result get_object() && noexcept; + simdjson_really_inline simdjson_result get_object() & noexcept; + + simdjson_really_inline simdjson_result get_uint64() noexcept; + simdjson_really_inline simdjson_result get_int64() noexcept; + simdjson_really_inline simdjson_result get_double() noexcept; + simdjson_really_inline simdjson_result get_string() noexcept; + simdjson_really_inline simdjson_result get_raw_json_string() noexcept; + simdjson_really_inline simdjson_result get_bool() noexcept; + simdjson_really_inline bool is_null() noexcept; + + template simdjson_really_inline simdjson_result get() & noexcept; + template simdjson_really_inline simdjson_result get() && noexcept; + + template simdjson_really_inline error_code get(T &out) & noexcept; + template simdjson_really_inline error_code get(T &out) && noexcept; + +#if SIMDJSON_EXCEPTIONS + simdjson_really_inline operator fallback::ondemand::array() && noexcept(false); + simdjson_really_inline operator fallback::ondemand::array() & noexcept(false); + simdjson_really_inline operator fallback::ondemand::object() && noexcept(false); + simdjson_really_inline operator fallback::ondemand::object() & noexcept(false); + simdjson_really_inline operator uint64_t() noexcept(false); + simdjson_really_inline operator int64_t() noexcept(false); + simdjson_really_inline operator double() noexcept(false); + simdjson_really_inline operator std::string_view() noexcept(false); + simdjson_really_inline operator fallback::ondemand::raw_json_string() noexcept(false); + simdjson_really_inline operator bool() noexcept(false); +#endif + + simdjson_really_inline simdjson_result begin() & noexcept; + simdjson_really_inline simdjson_result end() & noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(const char *key) && noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(const char *key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](const char *key) && noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value.h */ +/* begin file include/simdjson/generic/ondemand/field.h */ + +namespace simdjson { +namespace fallback { +namespace ondemand { + +/** + * A JSON field (key/value pair) in an object. + * + * Returned from object iteration. + * + * Extends from std::pair so you can use C++ algorithms that rely on pairs. + */ +class field : public std::pair { +public: + /** + * Create a new invalid field. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline field() noexcept; + + /** + * Get the key as a string_view (for higher speed, consider raw_key). + * We deliberately use a more cumbersome name (unescaped_key) to force users + * to think twice about using it. + * + * This consumes the key: once you have called unescaped_key(), you cannot + * call it again nor can you call key(). + */ + simdjson_really_inline simdjson_warn_unused simdjson_result unescaped_key() noexcept; + /** + * Get the key as a raw_json_string: this is fast and allows straight comparisons. + * We want this to be the default for most users. + */ + simdjson_really_inline raw_json_string key() const noexcept; + /** + * Get the field value. + */ + simdjson_really_inline ondemand::value &value() & noexcept; + /** + * @overload ondemand::value &ondemand::value() & noexcept + */ + simdjson_really_inline ondemand::value value() && noexcept; + +protected: + simdjson_really_inline field(raw_json_string key, ondemand::value &&value) noexcept; + static simdjson_really_inline simdjson_result start(value_iterator &parent_iter) noexcept; + static simdjson_really_inline simdjson_result start(const value_iterator &parent_iter, raw_json_string key) noexcept; + friend struct simdjson_result; + friend class object_iterator; +}; + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public fallback::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(fallback::ondemand::field &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result unescaped_key() noexcept; + simdjson_really_inline simdjson_result key() noexcept; + simdjson_really_inline simdjson_result value() noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/field.h */ +/* begin file include/simdjson/generic/ondemand/object.h */ + +namespace simdjson { +namespace fallback { +namespace ondemand { + +/** + * A forward-only JSON object field iterator. + */ +class object { +public: + /** + * Create a new invalid object. + * + * Exists so you can declare a variable and later assign to it before use. + */ + simdjson_really_inline object() noexcept = default; + + simdjson_really_inline object_iterator begin() noexcept; + simdjson_really_inline object_iterator end() noexcept; + + /** + * Look up a field by name on an object (order-sensitive). + * + * The following code reads z, then y, then x, and thus will not retrieve x or y if fed the + * JSON `{ "x": 1, "y": 2, "z": 3 }`: + * + * ```c++ + * simdjson::ondemand::parser parser; + * auto obj = parser.parse(R"( { "x": 1, "y": 2, "z": 3 } )"_padded); + * double z = obj.find_field("z"); + * double y = obj.find_field("y"); + * double x = obj.find_field("x"); + * ``` + * + * **Raw Keys:** The lookup will be done against the *raw* key, and will not unescape keys. + * e.g. `object["a"]` will match `{ "a": 1 }`, but will *not* match `{ "\u0061": 1 }`. + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + + /** + * Look up a field by name on an object, without regard to key order. + * + * **Performance Notes:** This is a bit less performant than find_field(), though its effect varies + * and often appears negligible. It starts out normally, starting out at the last field; but if + * the field is not found, it scans from the beginning of the object to see if it missed it. That + * missing case has a non-cache-friendly bump and lots of extra scanning, especially if the object + * in question is large. The fact that the extra code is there also bumps the executable size. + * + * It is the default, however, because it would be highly surprising (and hard to debug) if the + * default behavior failed to look up a field just because it was in the wrong order--and many + * APIs assume this. Therefore, you must be explicit if you want to treat objects as out of order. + * + * Use find_field() if you are sure fields will be in order (or are willing to treat it as if the + * field wasn't there when they aren't). + * + * @param key The key to look up. + * @returns The value of the field, or NO_SUCH_FIELD if the field is not in the object. + */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + /** @overload simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; */ + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; + +protected: + static simdjson_really_inline simdjson_result start(value_iterator &iter) noexcept; + static simdjson_really_inline simdjson_result try_start(value_iterator &iter) noexcept; + static simdjson_really_inline object started(value_iterator &iter) noexcept; + static simdjson_really_inline object resume(const value_iterator &iter) noexcept; + simdjson_really_inline object(const value_iterator &iter) noexcept; + + simdjson_warn_unused simdjson_really_inline error_code find_field_raw(const std::string_view key) noexcept; + + value_iterator iter{}; + + friend class value; + friend class document; + friend struct simdjson_result; +}; + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public fallback::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(fallback::ondemand::object &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; + + simdjson_really_inline simdjson_result begin() noexcept; + simdjson_really_inline simdjson_result end() noexcept; + simdjson_really_inline simdjson_result find_field(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field(std::string_view key) && noexcept; + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) & noexcept; + simdjson_really_inline simdjson_result find_field_unordered(std::string_view key) && noexcept; + simdjson_really_inline simdjson_result operator[](std::string_view key) & noexcept; + simdjson_really_inline simdjson_result operator[](std::string_view key) && noexcept; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object.h */ +/* begin file include/simdjson/generic/ondemand/parser.h */ + +namespace simdjson { +namespace fallback { +namespace ondemand { + +class array; +class object; +class value; +class raw_json_string; + +/** + * A JSON fragment iterator. + * + * This holds the actual iterator as well as the buffer for writing strings. + */ +class parser { +public: + /** + * Create a JSON parser. + * + * The new parser will have zero capacity. + */ + inline parser() noexcept = default; + + inline parser(parser &&other) noexcept = default; + simdjson_really_inline parser(const parser &other) = delete; + simdjson_really_inline parser &operator=(const parser &other) = delete; + + /** Deallocate the JSON parser. */ + inline ~parser() noexcept = default; + + /** + * Start iterating an on-demand JSON document. + * + * ondemand::parser parser; + * document doc = parser.iterate(json); + * + * ### IMPORTANT: Buffer Lifetime + * + * Because parsing is done while you iterate, you *must* keep the JSON buffer around at least as + * long as the document iteration. + * + * ### IMPORTANT: Document Lifetime + * + * Only one iteration at a time can happen per parser, and the parser *must* be kept alive during + * iteration to ensure intermediate buffers can be accessed. Any document must be destroyed before + * you call parse() again or destroy the parser. + * + * ### REQUIRED: Buffer Padding + * + * The buffer must have at least SIMDJSON_PADDING extra allocated bytes. It does not matter what + * those bytes are initialized to, as long as they are allocated. + * + * @param json The JSON to parse. + * + * @return The document, or an error: + * - MEMALLOC if realloc_if_needed the parser does not have enough capacity, and memory + * allocation fails. + * - EMPTY if the document is all whitespace. + * - UTF8_ERROR if the document is not valid UTF-8. + * - UNESCAPED_CHARS if a string contains control characters that must be escaped + * - UNCLOSED_STRING if there is an unclosed string in the document. + */ + simdjson_warn_unused simdjson_result iterate(const padded_string &json) & noexcept; + simdjson_warn_unused simdjson_result iterate(const simdjson_result &json) & noexcept; + simdjson_warn_unused simdjson_result iterate(padded_string &&json) & noexcept = delete; + simdjson_warn_unused simdjson_result iterate(const std::string_view &json) & noexcept = delete; + simdjson_warn_unused simdjson_result iterate(const std::string &json) & noexcept = delete; + /** + * @private + * + * Start iterating an on-demand JSON document. + * + * ondemand::parser parser; + * json_iterator doc = parser.iterate(json); + * + * ### IMPORTANT: Buffer Lifetime + * + * Because parsing is done while you iterate, you *must* keep the JSON buffer around at least as + * long as the document iteration. + * + * ### IMPORTANT: Document Lifetime + * + * Only one iteration at a time can happen per parser, and the parser *must* be kept alive during + * iteration to ensure intermediate buffers can be accessed. Any document must be destroyed before + * you call parse() again or destroy the parser. + * + * ### REQUIRED: Buffer Padding + * + * The buffer must have at least SIMDJSON_PADDING extra allocated bytes. It does not matter what + * those bytes are initialized to, as long as they are allocated. + * + * @param json The JSON to parse. + * + * @return The iterator, or an error: + * - MEMALLOC if realloc_if_needed the parser does not have enough capacity, and memory + * allocation fails. + * - EMPTY if the document is all whitespace. + * - UTF8_ERROR if the document is not valid UTF-8. + * - UNESCAPED_CHARS if a string contains control characters that must be escaped + * - UNCLOSED_STRING if there is an unclosed string in the document. + */ + simdjson_warn_unused simdjson_result iterate_raw(const padded_string &json) & noexcept; + +private: + /** @private [for benchmarking access] The implementation to use */ + std::unique_ptr dom_parser{}; + size_t _capacity{0}; + size_t _max_depth{0}; + std::unique_ptr string_buf{}; + + /** + * Ensure this parser has enough memory to process JSON documents up to `capacity` bytes in length + * and `max_depth` depth. + * + * @param capacity The new capacity. + * @param max_depth The new max_depth. Defaults to DEFAULT_MAX_DEPTH. + * @return The error, if there is one. + */ + simdjson_warn_unused error_code allocate(size_t capacity, size_t max_depth=DEFAULT_MAX_DEPTH) noexcept; + + friend class json_iterator; +}; + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +template<> +struct simdjson_result : public fallback::implementation_simdjson_result_base { +public: + simdjson_really_inline simdjson_result(fallback::ondemand::parser &&value) noexcept; ///< @private + simdjson_really_inline simdjson_result(error_code error) noexcept; ///< @private + simdjson_really_inline simdjson_result() noexcept = default; +}; + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/parser.h */ +/* end file include/simdjson/generic/ondemand.h */ + +// Inline definitions +/* begin file include/simdjson/generic/implementation_simdjson_result_base-inl.h */ +namespace simdjson { +namespace fallback { + +// +// internal::implementation_simdjson_result_base inline implementation +// + +template +simdjson_really_inline void implementation_simdjson_result_base::tie(T &value, error_code &error) && noexcept { + // on the clang compiler that comes with current macOS (Apple clang version 11.0.0), + // tie(width, error) = size["w"].get(); + // fails with "error: no viable overloaded '='"" + error = this->second; + if (!error) { + value = std::forward>(*this).first; + } +} + +template +simdjson_warn_unused simdjson_really_inline error_code implementation_simdjson_result_base::get(T &value) && noexcept { + error_code error; + std::forward>(*this).tie(value, error); + return error; +} + +template +simdjson_really_inline error_code implementation_simdjson_result_base::error() const noexcept { + return this->second; +} + +#if SIMDJSON_EXCEPTIONS + +template +simdjson_really_inline T& implementation_simdjson_result_base::value() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return this->first; +} + +template +simdjson_really_inline T&& implementation_simdjson_result_base::value() && noexcept(false) { + return std::forward>(*this).take_value(); +} + +template +simdjson_really_inline T&& implementation_simdjson_result_base::take_value() && noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return std::forward(this->first); +} + +template +simdjson_really_inline implementation_simdjson_result_base::operator T&&() && noexcept(false) { + return std::forward>(*this).take_value(); +} + +#endif // SIMDJSON_EXCEPTIONS + +template +simdjson_really_inline implementation_simdjson_result_base::implementation_simdjson_result_base(T &&value, error_code error) noexcept + : first{std::forward(value)}, second{error} {} +template +simdjson_really_inline implementation_simdjson_result_base::implementation_simdjson_result_base(error_code error) noexcept + : implementation_simdjson_result_base(T{}, error) {} +template +simdjson_really_inline implementation_simdjson_result_base::implementation_simdjson_result_base(T &&value) noexcept + : implementation_simdjson_result_base(std::forward(value), SUCCESS) {} + +} // namespace fallback +} // namespace simdjson +/* end file include/simdjson/generic/implementation_simdjson_result_base-inl.h */ +/* begin file include/simdjson/generic/ondemand-inl.h */ +/* begin file include/simdjson/generic/ondemand/logger-inl.h */ +namespace simdjson { +namespace fallback { +namespace ondemand { +namespace logger { + +static constexpr const char * DASHES = "----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------"; +static constexpr const int LOG_EVENT_LEN = 20; +static constexpr const int LOG_BUFFER_LEN = 30; +static constexpr const int LOG_SMALL_BUFFER_LEN = 10; +static int log_depth = 0; // Not threadsafe. Log only. + +// Helper to turn unprintable or newline characters into spaces +static simdjson_really_inline char printable_char(char c) { + if (c >= 0x20) { + return c; + } else { + return ' '; + } +} + +simdjson_really_inline void log_event(const json_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_line(iter, "", type, detail, delta, depth_delta); +} +simdjson_really_inline void log_value(const json_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_line(iter, "", type, detail, delta, depth_delta); +} +simdjson_really_inline void log_value(const json_iterator &iter, token_position index, depth_t depth, const char *type, std::string_view detail) noexcept { + log_line(iter, index, depth, "", type, detail); +} +simdjson_really_inline void log_start_value(const json_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_line(iter, "+", type, "", delta, depth_delta); + log_depth++; +} +simdjson_really_inline void log_end_value(const json_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_depth--; + log_line(iter, "-", type, "", delta, depth_delta); +} +simdjson_really_inline void log_error(const json_iterator &iter, const char *error, const char *detail, int delta, int depth_delta) noexcept { + log_line(iter, "ERROR: ", error, detail, delta, depth_delta); +} +simdjson_really_inline void log_error(const json_iterator &iter, token_position index, depth_t depth, const char *error, const char *detail) noexcept { + log_line(iter, index, depth, "ERROR: ", error, detail); +} + +simdjson_really_inline void log_event(const value_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_event(iter.json_iter(), type, detail, delta, depth_delta); +} +simdjson_really_inline void log_value(const value_iterator &iter, const char *type, std::string_view detail, int delta, int depth_delta) noexcept { + log_value(iter.json_iter(), type, detail, delta, depth_delta); +} +simdjson_really_inline void log_start_value(const value_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_start_value(iter.json_iter(), type, delta, depth_delta); +} +simdjson_really_inline void log_end_value(const value_iterator &iter, const char *type, int delta, int depth_delta) noexcept { + log_end_value(iter.json_iter(), type, delta, depth_delta); +} +simdjson_really_inline void log_error(const value_iterator &iter, const char *error, const char *detail, int delta, int depth_delta) noexcept { + log_error(iter.json_iter(), error, detail, delta, depth_delta); +} + +simdjson_really_inline void log_headers() noexcept { + log_depth = 0; + if (LOG_ENABLED) { + printf("\n"); + printf("| %-*s ", LOG_EVENT_LEN, "Event"); + printf("| %-*s ", LOG_BUFFER_LEN, "Buffer"); + printf("| %-*s ", LOG_SMALL_BUFFER_LEN, "Next"); + // printf("| %-*s ", 5, "Next#"); + printf("| %-*s ", 5, "Depth"); + printf("| Detail "); + printf("|\n"); + + printf("|%.*s", LOG_EVENT_LEN+2, DASHES); + printf("|%.*s", LOG_BUFFER_LEN+2, DASHES); + printf("|%.*s", LOG_SMALL_BUFFER_LEN+2, DASHES); + // printf("|%.*s", 5+2, DASHES); + printf("|%.*s", 5+2, DASHES); + printf("|--------"); + printf("|\n"); + fflush(stdout); + } +} + +simdjson_really_inline void log_line(const json_iterator &iter, const char *title_prefix, const char *title, std::string_view detail, int delta, int depth_delta) noexcept { + log_line(iter, iter.token.index+delta, depth_t(iter.depth()+depth_delta), title_prefix, title, detail); +} +simdjson_really_inline void log_line(const json_iterator &iter, token_position index, depth_t depth, const char *title_prefix, const char *title, std::string_view detail) noexcept { + if (LOG_ENABLED) { + const int indent = depth*2; + const auto buf = iter.token.buf; + printf("| %*s%s%-*s ", + indent, "", + title_prefix, + LOG_EVENT_LEN - indent - int(strlen(title_prefix)), title + ); + { + // Print the current structural. + printf("| "); + auto current_structural = &buf[*index]; + for (int i=0;i raw_json_string::unescape(uint8_t *&dst) const noexcept { + uint8_t *end = stringparsing::parse_string(buf, dst); + if (!end) { return STRING_ERROR; } + std::string_view result((const char *)dst, end-dst); + dst = end; + return result; +} + +simdjson_really_inline simdjson_warn_unused simdjson_result raw_json_string::unescape(json_iterator &iter) const noexcept { + return unescape(iter.string_buf_loc()); +} + +simdjson_unused simdjson_really_inline bool operator==(const raw_json_string &a, std::string_view b) noexcept { + return !memcmp(a.raw(), b.data(), b.size()); +} + +simdjson_unused simdjson_really_inline bool operator==(std::string_view a, const raw_json_string &b) noexcept { + return b == a; +} + +simdjson_unused simdjson_really_inline bool operator!=(const raw_json_string &a, std::string_view b) noexcept { + return !(a == b); +} + +simdjson_unused simdjson_really_inline bool operator!=(std::string_view a, const raw_json_string &b) noexcept { + return !(a == b); +} + +simdjson_unused simdjson_really_inline std::ostream &operator<<(std::ostream &out, const raw_json_string &str) noexcept { + bool in_escape = false; + const char *s = str.raw(); + while (true) { + switch (*s) { + case '\\': in_escape = !in_escape; break; + case '"': if (in_escape) { in_escape = false; } else { return out; } break; + default: if (in_escape) { in_escape = false; } + } + out << *s; + s++; + } +} + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(fallback::ondemand::raw_json_string &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +simdjson_really_inline simdjson_result simdjson_result::raw() const noexcept { + if (error()) { return error(); } + return first.raw(); +} +simdjson_really_inline simdjson_warn_unused simdjson_result simdjson_result::unescape(uint8_t *&dst) const noexcept { + if (error()) { return error(); } + return first.unescape(dst); +} +simdjson_really_inline simdjson_warn_unused simdjson_result simdjson_result::unescape(fallback::ondemand::json_iterator &iter) const noexcept { + if (error()) { return error(); } + return first.unescape(iter); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/raw_json_string-inl.h */ +/* begin file include/simdjson/generic/ondemand/token_iterator-inl.h */ +namespace simdjson { +namespace fallback { +namespace ondemand { + +simdjson_really_inline token_iterator::token_iterator(const uint8_t *_buf, token_position _index) noexcept + : buf{_buf}, index{_index} +{ +} + +simdjson_really_inline const uint8_t *token_iterator::advance() noexcept { + return &buf[*(index++)]; +} + +simdjson_really_inline const uint8_t *token_iterator::peek(token_position position) const noexcept { + return &buf[*position]; +} +simdjson_really_inline uint32_t token_iterator::peek_index(token_position position) const noexcept { + return *position; +} +simdjson_really_inline uint32_t token_iterator::peek_length(token_position position) const noexcept { + return *(position+1) - *position; +} + +simdjson_really_inline const uint8_t *token_iterator::peek(int32_t delta) const noexcept { + return &buf[*(index+delta)]; +} +simdjson_really_inline uint32_t token_iterator::peek_index(int32_t delta) const noexcept { + return *(index+delta); +} +simdjson_really_inline uint32_t token_iterator::peek_length(int32_t delta) const noexcept { + return *(index+delta+1) - *(index+delta); +} + +simdjson_really_inline token_position token_iterator::position() const noexcept { + return index; +} +simdjson_really_inline void token_iterator::set_position(token_position target_checkpoint) noexcept { + index = target_checkpoint; +} + +simdjson_really_inline bool token_iterator::operator==(const token_iterator &other) const noexcept { + return index == other.index; +} +simdjson_really_inline bool token_iterator::operator!=(const token_iterator &other) const noexcept { + return index != other.index; +} +simdjson_really_inline bool token_iterator::operator>(const token_iterator &other) const noexcept { + return index > other.index; +} +simdjson_really_inline bool token_iterator::operator>=(const token_iterator &other) const noexcept { + return index >= other.index; +} +simdjson_really_inline bool token_iterator::operator<(const token_iterator &other) const noexcept { + return index < other.index; +} +simdjson_really_inline bool token_iterator::operator<=(const token_iterator &other) const noexcept { + return index <= other.index; +} + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(fallback::ondemand::token_iterator &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/token_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/json_iterator-inl.h */ +namespace simdjson { +namespace fallback { +namespace ondemand { + +simdjson_really_inline json_iterator::json_iterator(json_iterator &&other) noexcept + : token(std::forward(other.token)), + parser{other.parser}, + _string_buf_loc{other._string_buf_loc}, + _depth{other._depth} +{ + other.parser = nullptr; +} +simdjson_really_inline json_iterator &json_iterator::operator=(json_iterator &&other) noexcept { + token = other.token; + parser = other.parser; + _string_buf_loc = other._string_buf_loc; + _depth = other._depth; + other.parser = nullptr; + return *this; +} + +simdjson_really_inline json_iterator::json_iterator(const uint8_t *buf, ondemand::parser *_parser) noexcept + : token(buf, _parser->dom_parser->structural_indexes.get()), + parser{_parser}, + _string_buf_loc{parser->string_buf.get()}, + _depth{1} +{ + // Release the string buf so it can be reused by the next document + logger::log_headers(); +} + +// GCC 7 warns when the first line of this function is inlined away into oblivion due to the caller +// relating depth and parent_depth, which is a desired effect. The warning does not show up if the +// skip_child() function is not marked inline). +SIMDJSON_PUSH_DISABLE_WARNINGS +SIMDJSON_DISABLE_STRICT_OVERFLOW_WARNING +simdjson_warn_unused simdjson_really_inline error_code json_iterator::skip_child(depth_t parent_depth) noexcept { + if (depth() <= parent_depth) { return SUCCESS; } + + switch (*advance()) { + // TODO consider whether matching braces is a requirement: if non-matching braces indicates + // *missing* braces, then future lookups are not in the object/arrays they think they are, + // violating the rule "validate enough structure that the user can be confident they are + // looking at the right values." + // PERF TODO we can eliminate the switch here with a lookup of how much to add to depth + + // For the first open array/object in a value, we've already incremented depth, so keep it the same + // We never stop at colon, but if we did, it wouldn't affect depth + case '[': case '{': case ':': + logger::log_start_value(*this, "skip"); + break; + // If there is a comma, we have just finished a value in an array/object, and need to get back in + case ',': + logger::log_value(*this, "skip"); + break; + // ] or } means we just finished a value and need to jump out of the array/object + case ']': case '}': + logger::log_end_value(*this, "skip"); + _depth--; + if (depth() <= parent_depth) { return SUCCESS; } + break; + // Anything else must be a scalar value + default: + // For the first scalar, we will have incremented depth already, so we decrement it here. + logger::log_value(*this, "skip"); + _depth--; + if (depth() <= parent_depth) { return SUCCESS; } + break; + } + + // Now that we've considered the first value, we only increment/decrement for arrays/objects + auto end = &parser->dom_parser->structural_indexes[parser->dom_parser->n_structural_indexes]; + while (token.index <= end) { + switch (*advance()) { + case '[': case '{': + logger::log_start_value(*this, "skip"); + _depth++; + break; + // TODO consider whether matching braces is a requirement: if non-matching braces indicates + // *missing* braces, then future lookups are not in the object/arrays they think they are, + // violating the rule "validate enough structure that the user can be confident they are + // looking at the right values." + // PERF TODO we can eliminate the switch here with a lookup of how much to add to depth + case ']': case '}': + logger::log_end_value(*this, "skip"); + _depth--; + if (depth() <= parent_depth) { return SUCCESS; } + break; + default: + logger::log_value(*this, "skip", ""); + break; + } + } + + return report_error(TAPE_ERROR, "not enough close braces"); +} + +SIMDJSON_POP_DISABLE_WARNINGS + +simdjson_really_inline bool json_iterator::at_root() const noexcept { + return token.position() == root_checkpoint(); +} + +simdjson_really_inline token_position json_iterator::root_checkpoint() const noexcept { + return parser->dom_parser->structural_indexes.get(); +} + +simdjson_really_inline void json_iterator::assert_at_root() const noexcept { + SIMDJSON_ASSUME( _depth == 1 ); + // Visual Studio Clang treats unique_ptr.get() as "side effecting." +#ifndef SIMDJSON_CLANG_VISUAL_STUDIO + SIMDJSON_ASSUME( token.index == parser->dom_parser->structural_indexes.get() ); +#endif +} + +simdjson_really_inline bool json_iterator::at_eof() const noexcept { + return token.index == &parser->dom_parser->structural_indexes[parser->dom_parser->n_structural_indexes]; +} + +simdjson_really_inline bool json_iterator::is_alive() const noexcept { + return parser; +} + +simdjson_really_inline void json_iterator::abandon() noexcept { + parser = nullptr; + _depth = 0; +} + +simdjson_really_inline const uint8_t *json_iterator::advance() noexcept { + return token.advance(); +} + +simdjson_really_inline const uint8_t *json_iterator::peek(int32_t delta) const noexcept { + return token.peek(delta); +} + +simdjson_really_inline uint32_t json_iterator::peek_length(int32_t delta) const noexcept { + return token.peek_length(delta); +} + +simdjson_really_inline const uint8_t *json_iterator::peek(token_position position) const noexcept { + return token.peek(position); +} + +simdjson_really_inline uint32_t json_iterator::peek_length(token_position position) const noexcept { + return token.peek_length(position); +} + +simdjson_really_inline void json_iterator::ascend_to(depth_t parent_depth) noexcept { + SIMDJSON_ASSUME(parent_depth >= 0 && parent_depth < INT32_MAX - 1); + SIMDJSON_ASSUME(_depth == parent_depth + 1); + _depth = parent_depth; +} + +simdjson_really_inline void json_iterator::descend_to(depth_t child_depth) noexcept { + SIMDJSON_ASSUME(child_depth >= 1 && child_depth < INT32_MAX); + SIMDJSON_ASSUME(_depth == child_depth - 1); + _depth = child_depth; +} + +simdjson_really_inline depth_t json_iterator::depth() const noexcept { + return _depth; +} + +simdjson_really_inline uint8_t *&json_iterator::string_buf_loc() noexcept { + return _string_buf_loc; +} + +simdjson_really_inline error_code json_iterator::report_error(error_code _error, const char *message) noexcept { + SIMDJSON_ASSUME(_error != SUCCESS && _error != UNINITIALIZED && _error != INCORRECT_TYPE && _error != NO_SUCH_FIELD); + logger::log_error(*this, message); + error = _error; + return error; +} + +simdjson_really_inline token_position json_iterator::position() const noexcept { + return token.position(); +} +simdjson_really_inline void json_iterator::set_position(token_position target_checkpoint) noexcept { + token.set_position(target_checkpoint); +} + + +simdjson_really_inline error_code json_iterator::optional_error(error_code _error, const char *message) noexcept { + SIMDJSON_ASSUME(_error == INCORRECT_TYPE || _error == NO_SUCH_FIELD); + logger::log_error(*this, message); + return _error; +} + +template +simdjson_warn_unused simdjson_really_inline bool json_iterator::copy_to_buffer(const uint8_t *json, uint32_t max_len, uint8_t (&tmpbuf)[N]) noexcept { + // Truncate whitespace to fit the buffer. + if (max_len > N-1) { + if (jsoncharutils::is_not_structural_or_whitespace(json[N-1])) { return false; } + max_len = N-1; + } + + // Copy to the buffer. + std::memcpy(tmpbuf, json, max_len); + tmpbuf[max_len] = ' '; + return true; +} + +template +simdjson_warn_unused simdjson_really_inline bool json_iterator::peek_to_buffer(uint8_t (&tmpbuf)[N]) noexcept { + auto max_len = token.peek_length(); + auto json = token.peek(); + return copy_to_buffer(json, max_len, tmpbuf); +} + +template +simdjson_warn_unused simdjson_really_inline bool json_iterator::advance_to_buffer(uint8_t (&tmpbuf)[N]) noexcept { + auto max_len = peek_length(); + auto json = advance(); + return copy_to_buffer(json, max_len, tmpbuf); +} + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(fallback::ondemand::json_iterator &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/json_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/value_iterator-inl.h */ +namespace simdjson { +namespace fallback { +namespace ondemand { + +simdjson_really_inline value_iterator::value_iterator(json_iterator *json_iter, depth_t depth, token_position start_index) noexcept + : _json_iter{json_iter}, + _depth{depth}, + _start_position{start_index} +{ +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::start_object() noexcept { + assert_at_start(); + + if (*_json_iter->advance() != '{') { logger::log_error(*_json_iter, "Not an object"); return INCORRECT_TYPE; } + return started_object(); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::try_start_object() noexcept { + assert_at_start(); + + if (*_json_iter->peek() != '{') { logger::log_error(*_json_iter, "Not an object"); return INCORRECT_TYPE; } + _json_iter->advance(); + return started_object(); +} + +simdjson_warn_unused simdjson_really_inline bool value_iterator::started_object() noexcept { + if (*_json_iter->peek() == '}') { + logger::log_value(*_json_iter, "empty object"); + _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return false; + } + _json_iter->descend_to(depth()+1); + logger::log_start_value(*_json_iter, "object"); + return true; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::has_next_field() noexcept { + assert_at_next(); + + switch (*_json_iter->advance()) { + case '}': + logger::log_end_value(*_json_iter, "object"); + _json_iter->ascend_to(depth()-1); + return false; + case ',': + _json_iter->descend_to(depth()+1); + return true; + default: + return _json_iter->report_error(TAPE_ERROR, "Missing comma between object fields"); + } +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::find_field_raw(const std::string_view key) noexcept { + error_code error; + bool has_value; + + // + // Initially, the object can be in one of a few different places: + // + // 1. The start of the object, at the first field: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2, index 1) + // ``` + // + // 2. When a previous search did not yield a value or the object is empty: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 0) + // { } + // ^ (depth 0, index 2) + // ``` + // + if (!is_open()) { return false; } + if (at_first_field()) { + has_value = true; + + // 3. When a previous search found a field or an iterator yielded a value: + // + // ``` + // // When a field was not fully consumed (or not even touched at all) + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2) + // // When a field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // // When the last field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // ``` + // + } else { + if ((error = skip_child() )) { abandon(); return error; } + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + while (has_value) { + // Get the key and colon, stopping at the value. + raw_json_string actual_key; + if ((error = field_key().get(actual_key) )) { abandon(); return error; }; + if ((error = field_value() )) { abandon(); return error; } + + // If it matches, stop and return + if (actual_key == key) { + logger::log_event(*this, "match", key, -2); + return true; + } + + // No match: skip the value and see if , or } is next + logger::log_event(*this, "no match", key, -2); + SIMDJSON_TRY( skip_child() ); // Skip the value entirely + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + + // If the loop ended, we're out of fields to look at. + return false; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::find_field_unordered_raw(const std::string_view key) noexcept { + error_code error; + bool has_value; + + // + // Initially, the object can be in one of a few different places: + // + // 1. The start of the object, at the first field: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2, index 1) + // ``` + // + if (at_first_field()) { + // If we're at the beginning of the object, we definitely have a field + has_value = true; + + // 2. When a previous search did not yield a value or the object is empty: + // + // ``` + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 0) + // { } + // ^ (depth 0, index 2) + // ``` + // + } else if (!is_open()) { + has_value = false; + + // 3. When a previous search found a field or an iterator yielded a value: + // + // ``` + // // When a field was not fully consumed (or not even touched at all) + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 2) + // // When a field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // // When the last field was fully consumed + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // ``` + // + } else { + // Finish the previous value and see if , or } is next + if ((error = skip_child() )) { abandon(); return error; } + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + + // After initial processing, we will be in one of two states: + // + // ``` + // // At the beginning of a field + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 1) + // // At the end of the object + // { "a": [ 1, 2 ], "b": [ 3, 4 ] } + // ^ (depth 0) + // ``` + // + + // First, we scan from that point to the end. + // If we don't find a match, we loop back around, and scan from the beginning to that point. + token_position search_start = _json_iter->position(); + + // Next, we find a match starting from the current position. + while (has_value) { + SIMDJSON_ASSUME( _json_iter->_depth == _depth + 1 ); // We must be at the start of a field + + // Get the key and colon, stopping at the value. + raw_json_string actual_key; + if ((error = field_key().get(actual_key) )) { abandon(); return error; }; + if ((error = field_value() )) { abandon(); return error; } + + // If it matches, stop and return + if (actual_key == key) { + logger::log_event(*this, "match", key, -2); + return true; + } + + // No match: skip the value and see if , or } is next + logger::log_event(*this, "no match", key, -2); + SIMDJSON_TRY( skip_child() ); + if ((error = has_next_field().get(has_value) )) { abandon(); return error; } + } + + // If we reach the end without finding a match, search the rest of the fields starting at the + // beginning of the object. + // (We have already run through the object before, so we've already validated its structure. We + // don't check errors in this bit.) + _json_iter->set_position(_start_position + 1); + _json_iter->descend_to(_depth); + + has_value = started_object(); + while (_json_iter->position() < search_start) { + SIMDJSON_ASSUME(has_value); // we should reach search_start before ever reaching the end of the object + SIMDJSON_ASSUME( _json_iter->_depth == _depth + 1 ); // We must be at the start of a field + + // Get the key and colon, stopping at the value. + raw_json_string actual_key; + error = field_key().get(actual_key); SIMDJSON_ASSUME(!error); + error = field_value(); SIMDJSON_ASSUME(!error); + + // If it matches, stop and return + if (actual_key == key) { + logger::log_event(*this, "match", key, -2); + return true; + } + + // No match: skip the value and see if , or } is next + logger::log_event(*this, "no match", key, -2); + SIMDJSON_TRY( skip_child() ); + error = has_next_field().get(has_value); SIMDJSON_ASSUME(!error); + } + + // If the loop ended, we're out of fields to look at. + return false; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::field_key() noexcept { + assert_at_child(); + + const uint8_t *key = _json_iter->advance(); + if (*(key++) != '"') { return _json_iter->report_error(TAPE_ERROR, "Object key is not a string"); } + return raw_json_string(key); +} + +simdjson_warn_unused simdjson_really_inline error_code value_iterator::field_value() noexcept { + assert_at_child(); + + if (*_json_iter->advance() != ':') { return _json_iter->report_error(TAPE_ERROR, "Missing colon in object field"); } + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::start_array() noexcept { + assert_at_start(); + + if (*_json_iter->advance() != '[') { logger::log_error(*_json_iter, "Not an array"); return INCORRECT_TYPE; } + return started_array(); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::try_start_array() noexcept { + assert_at_start(); + + if (*_json_iter->peek() != '[') { logger::log_error(*_json_iter, "Not an array"); return INCORRECT_TYPE; } + _json_iter->advance(); + return started_array(); +} + +simdjson_warn_unused simdjson_really_inline bool value_iterator::started_array() noexcept { + if (*_json_iter->peek() == ']') { + logger::log_value(*_json_iter, "empty array"); + _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return false; + } + logger::log_start_value(*_json_iter, "array"); + _json_iter->descend_to(depth()+1); + return true; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::has_next_element() noexcept { + assert_at_next(); + + switch (*_json_iter->advance()) { + case ']': + logger::log_end_value(*_json_iter, "array"); + _json_iter->ascend_to(depth()-1); + return false; + case ',': + _json_iter->descend_to(depth()+1); + return true; + default: + return _json_iter->report_error(TAPE_ERROR, "Missing comma between array elements"); + } +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::parse_bool(const uint8_t *json) const noexcept { + auto not_true = atomparsing::str4ncmp(json, "true"); + auto not_false = atomparsing::str4ncmp(json, "fals") | (json[4] ^ 'e'); + bool error = (not_true && not_false) || jsoncharutils::is_not_structural_or_whitespace(json[not_true ? 5 : 4]); + if (error) { return incorrect_type_error("Not a boolean"); } + return simdjson_result(!not_true); +} +simdjson_really_inline bool value_iterator::parse_null(const uint8_t *json) const noexcept { + return !atomparsing::str4ncmp(json, "null") && jsoncharutils::is_structural_or_whitespace(json[4]); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_string() noexcept { + return get_raw_json_string().unescape(_json_iter->string_buf_loc()); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_raw_json_string() noexcept { + auto json = advance_scalar("string"); + if (*json != '"') { return incorrect_type_error("Not a string"); } + return raw_json_string(json+1); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_uint64() noexcept { + return numberparsing::parse_unsigned(advance_non_root_scalar("uint64")); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_int64() noexcept { + return numberparsing::parse_integer(advance_non_root_scalar("int64")); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_double() noexcept { + return numberparsing::parse_double(advance_non_root_scalar("double")); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_bool() noexcept { + return parse_bool(advance_non_root_scalar("bool")); +} +simdjson_really_inline bool value_iterator::is_null() noexcept { + return parse_null(advance_non_root_scalar("null")); +} + +constexpr const uint32_t MAX_INT_LENGTH = 1024; + +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_string() noexcept { + return get_string(); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_raw_json_string() noexcept { + return get_raw_json_string(); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_uint64() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("uint64"); + uint8_t tmpbuf[20+1]; // <20 digits> is the longest possible unsigned integer + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { logger::log_error(*_json_iter, _start_position, depth(), "Root number more than 20 characters"); return NUMBER_ERROR; } + return numberparsing::parse_unsigned(tmpbuf); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_int64() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("int64"); + uint8_t tmpbuf[20+1]; // -<19 digits> is the longest possible integer + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { logger::log_error(*_json_iter, _start_position, depth(), "Root number more than 20 characters"); return NUMBER_ERROR; } + return numberparsing::parse_integer(tmpbuf); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_double() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("double"); + // Per https://www.exploringbinary.com/maximum-number-of-decimal-digits-in-binary-floating-point-numbers/, 1074 is the maximum number of significant fractional digits. Add 8 more digits for the biggest number: -0.e-308. + uint8_t tmpbuf[1074+8+1]; + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { logger::log_error(*_json_iter, _start_position, depth(), "Root number more than 1082 characters"); return NUMBER_ERROR; } + return numberparsing::parse_double(tmpbuf); +} +simdjson_warn_unused simdjson_really_inline simdjson_result value_iterator::get_root_bool() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("bool"); + uint8_t tmpbuf[5+1]; + if (!_json_iter->copy_to_buffer(json, max_len, tmpbuf)) { return incorrect_type_error("Not a boolean"); } + return parse_bool(tmpbuf); +} +simdjson_really_inline bool value_iterator::is_root_null() noexcept { + auto max_len = peek_scalar_length(); + auto json = advance_root_scalar("null"); + return max_len >= 4 && !atomparsing::str4ncmp(json, "null") && + (max_len == 4 || jsoncharutils::is_structural_or_whitespace(json[5])); +} + +simdjson_warn_unused simdjson_really_inline error_code value_iterator::skip_child() noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth >= _depth ); + + return _json_iter->skip_child(depth()); +} + +simdjson_really_inline value_iterator value_iterator::child() const noexcept { + assert_at_child(); + return { _json_iter, depth()+1, _json_iter->token.position() }; +} + +simdjson_really_inline bool value_iterator::is_open() const noexcept { + return _json_iter->depth() >= depth(); +} + +simdjson_really_inline bool value_iterator::at_eof() const noexcept { + return _json_iter->at_eof(); +} + +simdjson_really_inline bool value_iterator::at_start() const noexcept { + return _json_iter->token.index == _start_position; +} + +simdjson_really_inline bool value_iterator::at_first_field() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + return _json_iter->token.index == _start_position + 1; +} + +simdjson_really_inline void value_iterator::abandon() noexcept { + _json_iter->abandon(); +} + + +simdjson_warn_unused simdjson_really_inline depth_t value_iterator::depth() const noexcept { + return _depth; +} +simdjson_warn_unused simdjson_really_inline error_code value_iterator::error() const noexcept { + return _json_iter->error; +} +simdjson_warn_unused simdjson_really_inline uint8_t *&value_iterator::string_buf_loc() noexcept { + return _json_iter->string_buf_loc(); +} +simdjson_warn_unused simdjson_really_inline const json_iterator &value_iterator::json_iter() const noexcept { + return *_json_iter; +} +simdjson_warn_unused simdjson_really_inline json_iterator &value_iterator::json_iter() noexcept { + return *_json_iter; +} + +simdjson_really_inline const uint8_t *value_iterator::peek_scalar() const noexcept { + return _json_iter->peek(_start_position); +} +simdjson_really_inline uint32_t value_iterator::peek_scalar_length() const noexcept { + return _json_iter->peek_length(_start_position); +} + +simdjson_really_inline const uint8_t *value_iterator::advance_scalar(const char *type) const noexcept { + logger::log_value(*_json_iter, _start_position, depth(), type); + // If we're not at the position anymore, we don't want to advance the cursor. + if (!is_at_start()) { return peek_scalar(); } + + // Get the JSON and advance the cursor, decreasing depth to signify that we have retrieved the value. + assert_at_start(); + auto result = _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return result; +} +simdjson_really_inline const uint8_t *value_iterator::advance_root_scalar(const char *type) const noexcept { + logger::log_value(*_json_iter, _start_position, depth(), type); + if (!is_at_start()) { return peek_scalar(); } + + assert_at_root(); + auto result = _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return result; +} +simdjson_really_inline const uint8_t *value_iterator::advance_non_root_scalar(const char *type) const noexcept { + logger::log_value(*_json_iter, _start_position, depth(), type); + if (!is_at_start()) { return peek_scalar(); } + + assert_at_non_root_start(); + auto result = _json_iter->advance(); + _json_iter->ascend_to(depth()-1); + return result; +} + +simdjson_really_inline error_code value_iterator::incorrect_type_error(const char *message) const noexcept { + logger::log_error(*_json_iter, _start_position, depth(), message); + return INCORRECT_TYPE; +} + +simdjson_really_inline bool value_iterator::is_at_start() const noexcept { + return _json_iter->token.index == _start_position; +} + +simdjson_really_inline void value_iterator::assert_at_start() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index == _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth == _depth ); + SIMDJSON_ASSUME( _depth > 0 ); +} + +simdjson_really_inline void value_iterator::assert_at_next() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth == _depth ); + SIMDJSON_ASSUME( _depth > 0 ); +} + +simdjson_really_inline void value_iterator::assert_at_child() const noexcept { + SIMDJSON_ASSUME( _json_iter->token.index > _start_position ); + SIMDJSON_ASSUME( _json_iter->_depth == _depth + 1 ); + SIMDJSON_ASSUME( _depth > 0 ); +} + +simdjson_really_inline void value_iterator::assert_at_root() const noexcept { + assert_at_start(); + SIMDJSON_ASSUME( _depth == 1 ); +} + +simdjson_really_inline void value_iterator::assert_at_non_root_start() const noexcept { + assert_at_start(); + SIMDJSON_ASSUME( _depth > 1 ); +} + + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(fallback::ondemand::value_iterator &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/array_iterator-inl.h */ +namespace simdjson { +namespace fallback { +namespace ondemand { + +simdjson_really_inline array_iterator::array_iterator(const value_iterator &_iter) noexcept + : iter{_iter} +{} + +simdjson_really_inline simdjson_result array_iterator::operator*() noexcept { + if (iter.error()) { iter.abandon(); return iter.error(); } + return value(iter.child()); +} +simdjson_really_inline bool array_iterator::operator==(const array_iterator &other) const noexcept { + return !(*this != other); +} +simdjson_really_inline bool array_iterator::operator!=(const array_iterator &) const noexcept { + return iter.is_open(); +} +simdjson_really_inline array_iterator &array_iterator::operator++() noexcept { + error_code error; + // PERF NOTE this is a safety rail ... users should exit loops as soon as they receive an error, so we'll never get here. + // However, it does not seem to make a perf difference, so we add it out of an abundance of caution. + if ((error = iter.error()) ) { return *this; } + if ((error = iter.skip_child() )) { return *this; } + if ((error = iter.has_next_element().error() )) { return *this; } + return *this; +} + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + fallback::ondemand::array_iterator &&value +) noexcept + : fallback::implementation_simdjson_result_base(std::forward(value)) +{ +} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : fallback::implementation_simdjson_result_base({}, error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::operator*() noexcept { + if (this->error()) { this->second = SUCCESS; return this->error(); } + return *this->first; +} +simdjson_really_inline bool simdjson_result::operator==(const simdjson_result &other) const noexcept { + if (this->error()) { return true; } + return this->first == other.first; +} +simdjson_really_inline bool simdjson_result::operator!=(const simdjson_result &other) const noexcept { + if (this->error()) { return false; } + return this->first != other.first; +} +simdjson_really_inline simdjson_result &simdjson_result::operator++() noexcept { + if (this->error()) { return *this; } + ++(this->first); + return *this; +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/object_iterator-inl.h */ +namespace simdjson { +namespace fallback { +namespace ondemand { + +// +// object_iterator +// + +simdjson_really_inline object_iterator::object_iterator(const value_iterator &_iter) noexcept + : iter{_iter} +{} + +simdjson_really_inline simdjson_result object_iterator::operator*() noexcept { + error_code error = iter.error(); + if (error) { iter.abandon(); return error; } + auto result = field::start(iter); + // TODO this is a safety rail ... users should exit loops as soon as they receive an error. + // Nonetheless, let's see if performance is OK with this if statement--the compiler may give it to us for free. + if (result.error()) { iter.abandon(); } + return result; +} +simdjson_really_inline bool object_iterator::operator==(const object_iterator &other) const noexcept { + return !(*this != other); +} +simdjson_really_inline bool object_iterator::operator!=(const object_iterator &) const noexcept { + return iter.is_open(); +} +simdjson_really_inline object_iterator &object_iterator::operator++() noexcept { + // TODO this is a safety rail ... users should exit loops as soon as they receive an error. + // Nonetheless, let's see if performance is OK with this if statement--the compiler may give it to us for free. + if (!iter.is_open()) { return *this; } // Iterator will be released if there is an error + + simdjson_unused error_code error; + if ((error = iter.skip_child() )) { return *this; } + + simdjson_unused bool has_value; + if ((error = iter.has_next_field().get(has_value) )) { return *this; }; + return *this; +} + +// +// ### Live States +// +// While iterating or looking up values, depth >= iter.depth. at_start may vary. Error is +// always SUCCESS: +// +// - Start: This is the state when the object is first found and the iterator is just past the {. +// In this state, at_start == true. +// - Next: After we hand a scalar value to the user, or an array/object which they then fully +// iterate over, the iterator is at the , or } before the next value. In this state, +// depth == iter.depth, at_start == false, and error == SUCCESS. +// - Unfinished Business: When we hand an array/object to the user which they do not fully +// iterate over, we need to finish that iteration by skipping child values until we reach the +// Next state. In this state, depth > iter.depth, at_start == false, and error == SUCCESS. +// +// ## Error States +// +// In error states, we will yield exactly one more value before stopping. iter.depth == depth +// and at_start is always false. We decrement after yielding the error, moving to the Finished +// state. +// +// - Chained Error: When the object iterator is part of an error chain--for example, in +// `for (auto tweet : doc["tweets"])`, where the tweet field may be missing or not be an +// object--we yield that error in the loop, exactly once. In this state, error != SUCCESS and +// iter.depth == depth, and at_start == false. We decrement depth when we yield the error. +// - Missing Comma Error: When the iterator ++ method discovers there is no comma between fields, +// we flag that as an error and treat it exactly the same as a Chained Error. In this state, +// error == TAPE_ERROR, iter.depth == depth, and at_start == false. +// +// Errors that occur while reading a field to give to the user (such as when the key is not a +// string or the field is missing a colon) are yielded immediately. Depth is then decremented, +// moving to the Finished state without transitioning through an Error state at all. +// +// ## Terminal State +// +// The terminal state has iter.depth < depth. at_start is always false. +// +// - Finished: When we have reached a }, we are finished. We signal this by decrementing depth. +// In this state, iter.depth < depth, at_start == false, and error == SUCCESS. +// + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + fallback::ondemand::object_iterator &&value +) noexcept + : implementation_simdjson_result_base(std::forward(value)) +{ +} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base({}, error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::operator*() noexcept { + if (error()) { second = SUCCESS; return error(); } + return *first; +} +// Assumes it's being compared with the end. true if depth < iter->depth. +simdjson_really_inline bool simdjson_result::operator==(const simdjson_result &other) const noexcept { + if (error()) { return true; } + return first == other.first; +} +// Assumes it's being compared with the end. true if depth >= iter->depth. +simdjson_really_inline bool simdjson_result::operator!=(const simdjson_result &other) const noexcept { + if (error()) { return false; } + return first != other.first; +} +// Checks for ']' and ',' +simdjson_really_inline simdjson_result &simdjson_result::operator++() noexcept { + if (error()) { return *this; } + ++first; + return *this; +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object_iterator-inl.h */ +/* begin file include/simdjson/generic/ondemand/array-inl.h */ +namespace simdjson { +namespace fallback { +namespace ondemand { + +// +// ### Live States +// +// While iterating or looking up values, depth >= iter->depth. at_start may vary. Error is +// always SUCCESS: +// +// - Start: This is the state when the array is first found and the iterator is just past the `{`. +// In this state, at_start == true. +// - Next: After we hand a scalar value to the user, or an array/object which they then fully +// iterate over, the iterator is at the `,` before the next value (or `]`). In this state, +// depth == iter->depth, at_start == false, and error == SUCCESS. +// - Unfinished Business: When we hand an array/object to the user which they do not fully +// iterate over, we need to finish that iteration by skipping child values until we reach the +// Next state. In this state, depth > iter->depth, at_start == false, and error == SUCCESS. +// +// ## Error States +// +// In error states, we will yield exactly one more value before stopping. iter->depth == depth +// and at_start is always false. We decrement after yielding the error, moving to the Finished +// state. +// +// - Chained Error: When the array iterator is part of an error chain--for example, in +// `for (auto tweet : doc["tweets"])`, where the tweet element may be missing or not be an +// array--we yield that error in the loop, exactly once. In this state, error != SUCCESS and +// iter->depth == depth, and at_start == false. We decrement depth when we yield the error. +// - Missing Comma Error: When the iterator ++ method discovers there is no comma between elements, +// we flag that as an error and treat it exactly the same as a Chained Error. In this state, +// error == TAPE_ERROR, iter->depth == depth, and at_start == false. +// +// ## Terminal State +// +// The terminal state has iter->depth < depth. at_start is always false. +// +// - Finished: When we have reached a `]` or have reported an error, we are finished. We signal this +// by decrementing depth. In this state, iter->depth < depth, at_start == false, and +// error == SUCCESS. +// + +simdjson_really_inline array::array(const value_iterator &_iter) noexcept + : iter{_iter} +{ +} + +simdjson_really_inline simdjson_result array::start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.start_array().get(has_value) ); + return array(iter); +} +simdjson_really_inline simdjson_result array::try_start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.try_start_array().get(has_value) ); + return array(iter); +} +simdjson_really_inline array array::started(value_iterator &iter) noexcept { + simdjson_unused bool has_value = iter.started_array(); + return array(iter); +} + +simdjson_really_inline array_iterator array::begin() noexcept { + return iter; +} +simdjson_really_inline array_iterator array::end() noexcept { + return {}; +} + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + fallback::ondemand::array &&value +) noexcept + : implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept + : implementation_simdjson_result_base(error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::begin() noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() noexcept { + if (error()) { return error(); } + return first.end(); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/array-inl.h */ +/* begin file include/simdjson/generic/ondemand/document-inl.h */ +namespace simdjson { +namespace fallback { +namespace ondemand { + +simdjson_really_inline document::document(ondemand::json_iterator &&_iter) noexcept + : iter{std::forward(_iter)} +{ + logger::log_start_value(iter, "document"); +} + +simdjson_really_inline document document::start(json_iterator &&iter) noexcept { + return document(std::forward(iter)); +} + +simdjson_really_inline value_iterator document::resume_value_iterator() noexcept { + return value_iterator(&iter, 1, iter.root_checkpoint()); +} +simdjson_really_inline value_iterator document::get_root_value_iterator() noexcept { + return resume_value_iterator(); +} +simdjson_really_inline value document::resume_value() noexcept { + return resume_value_iterator(); +} +simdjson_really_inline value document::get_root_value() noexcept { + return get_root_value_iterator(); +} + +simdjson_really_inline simdjson_result document::get_array() & noexcept { + return get_root_value().get_array(); +} +simdjson_really_inline simdjson_result document::get_object() & noexcept { + return get_root_value().get_object(); +} +simdjson_really_inline simdjson_result document::get_uint64() noexcept { + return get_root_value_iterator().get_root_uint64(); +} +simdjson_really_inline simdjson_result document::get_int64() noexcept { + return get_root_value_iterator().get_root_int64(); +} +simdjson_really_inline simdjson_result document::get_double() noexcept { + return get_root_value_iterator().get_root_double(); +} +simdjson_really_inline simdjson_result document::get_string() noexcept { + return get_root_value_iterator().get_root_string(); +} +simdjson_really_inline simdjson_result document::get_raw_json_string() noexcept { + return get_root_value_iterator().get_root_raw_json_string(); +} +simdjson_really_inline simdjson_result document::get_bool() noexcept { + return get_root_value_iterator().get_root_bool(); +} +simdjson_really_inline bool document::is_null() noexcept { + return get_root_value_iterator().is_root_null(); +} + +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_array(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_object(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_string(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_double(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_uint64(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_int64(); } +template<> simdjson_really_inline simdjson_result document::get() & noexcept { return get_bool(); } + +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return get_string(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_double(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_uint64(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_int64(); } +template<> simdjson_really_inline simdjson_result document::get() && noexcept { return std::forward(*this).get_bool(); } + +template simdjson_really_inline error_code document::get(T &out) & noexcept { + return get().get(out); +} +template simdjson_really_inline error_code document::get(T &out) && noexcept { + return std::forward(*this).get().get(out); +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline document::operator array() & noexcept(false) { return get_array(); } +simdjson_really_inline document::operator object() & noexcept(false) { return get_object(); } +simdjson_really_inline document::operator uint64_t() noexcept(false) { return get_uint64(); } +simdjson_really_inline document::operator int64_t() noexcept(false) { return get_int64(); } +simdjson_really_inline document::operator double() noexcept(false) { return get_double(); } +simdjson_really_inline document::operator std::string_view() noexcept(false) { return get_string(); } +simdjson_really_inline document::operator raw_json_string() noexcept(false) { return get_raw_json_string(); } +simdjson_really_inline document::operator bool() noexcept(false) { return get_bool(); } +#endif + +simdjson_really_inline simdjson_result document::begin() & noexcept { + return get_array().begin(); +} +simdjson_really_inline simdjson_result document::end() & noexcept { + return {}; +} + +simdjson_really_inline simdjson_result document::find_field(std::string_view key) & noexcept { + return resume_value().find_field(key); +} +simdjson_really_inline simdjson_result document::find_field(const char *key) & noexcept { + return resume_value().find_field(key); +} +simdjson_really_inline simdjson_result document::find_field_unordered(std::string_view key) & noexcept { + return resume_value().find_field_unordered(key); +} +simdjson_really_inline simdjson_result document::find_field_unordered(const char *key) & noexcept { + return resume_value().find_field_unordered(key); +} +simdjson_really_inline simdjson_result document::operator[](std::string_view key) & noexcept { + return resume_value()[key]; +} +simdjson_really_inline simdjson_result document::operator[](const char *key) & noexcept { + return resume_value()[key]; +} + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + fallback::ondemand::document &&value +) noexcept : + implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept : + implementation_simdjson_result_base( + error + ) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::begin() & noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() & noexcept { + return {}; +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](const char *key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::get_array() & noexcept { + if (error()) { return error(); } + return first.get_array(); +} +simdjson_really_inline simdjson_result simdjson_result::get_object() & noexcept { + if (error()) { return error(); } + return first.get_object(); +} +simdjson_really_inline simdjson_result simdjson_result::get_uint64() noexcept { + if (error()) { return error(); } + return first.get_uint64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_int64() noexcept { + if (error()) { return error(); } + return first.get_int64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_double() noexcept { + if (error()) { return error(); } + return first.get_double(); +} +simdjson_really_inline simdjson_result simdjson_result::get_string() noexcept { + if (error()) { return error(); } + return first.get_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_raw_json_string() noexcept { + if (error()) { return error(); } + return first.get_raw_json_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_bool() noexcept { + if (error()) { return error(); } + return first.get_bool(); +} +simdjson_really_inline bool simdjson_result::is_null() noexcept { + if (error()) { return error(); } + return first.is_null(); +} + +template +simdjson_really_inline simdjson_result simdjson_result::get() & noexcept { + if (error()) { return error(); } + return first.get(); +} +template +simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first).get(); +} +template +simdjson_really_inline error_code simdjson_result::get(T &out) & noexcept { + if (error()) { return error(); } + return first.get(out); +} +template +simdjson_really_inline error_code simdjson_result::get(T &out) && noexcept { + if (error()) { return error(); } + return std::forward(first).get(out); +} + +template<> simdjson_really_inline simdjson_result simdjson_result::get() & noexcept = delete; +template<> simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first); +} +template<> simdjson_really_inline error_code simdjson_result::get(fallback::ondemand::document &out) & noexcept = delete; +template<> simdjson_really_inline error_code simdjson_result::get(fallback::ondemand::document &out) && noexcept { + if (error()) { return error(); } + out = std::forward(first); + return SUCCESS; +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline simdjson_result::operator fallback::ondemand::array() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator fallback::ondemand::object() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator uint64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator int64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator double() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator std::string_view() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator fallback::ondemand::raw_json_string() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator bool() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +#endif + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/document-inl.h */ +/* begin file include/simdjson/generic/ondemand/value-inl.h */ +namespace simdjson { +namespace fallback { +namespace ondemand { + +simdjson_really_inline value::value(const value_iterator &_iter) noexcept + : iter{_iter} +{ +} +simdjson_really_inline value value::start(const value_iterator &iter) noexcept { + return iter; +} +simdjson_really_inline value value::resume(const value_iterator &iter) noexcept { + return iter; +} + +simdjson_really_inline simdjson_result value::get_array() && noexcept { + return array::start(iter); +} +simdjson_really_inline simdjson_result value::get_array() & noexcept { + return array::try_start(iter); +} +simdjson_really_inline simdjson_result value::get_object() && noexcept { + return object::start(iter); +} +simdjson_really_inline simdjson_result value::get_object() & noexcept { + return object::try_start(iter); +} +simdjson_really_inline simdjson_result value::start_or_resume_object() & noexcept { + if (iter.at_start()) { + return get_object(); + } else { + return object::resume(iter); + } +} +simdjson_really_inline simdjson_result value::start_or_resume_object() && noexcept { + if (iter.at_start()) { + return get_object(); + } else { + return object::resume(iter); + } +} + +simdjson_really_inline simdjson_result value::get_raw_json_string() noexcept { + return iter.get_raw_json_string(); +} +simdjson_really_inline simdjson_result value::get_string() noexcept { + return iter.get_string(); +} +simdjson_really_inline simdjson_result value::get_double() noexcept { + return iter.get_double(); +} +simdjson_really_inline simdjson_result value::get_uint64() noexcept { + return iter.get_uint64(); +} +simdjson_really_inline simdjson_result value::get_int64() noexcept { + return iter.get_int64(); +} +simdjson_really_inline simdjson_result value::get_bool() noexcept { + return iter.get_bool(); +} +simdjson_really_inline bool value::is_null() noexcept { + return iter.is_null(); +} + +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_array(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_object(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_string(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_double(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_uint64(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_int64(); } +template<> simdjson_really_inline simdjson_result value::get() & noexcept { return get_bool(); } + +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_array(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_object(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_raw_json_string(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_string(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_double(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_uint64(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_int64(); } +template<> simdjson_really_inline simdjson_result value::get() && noexcept { return std::forward(*this).get_bool(); } + +template simdjson_really_inline error_code value::get(T &out) & noexcept { + return get().get(out); +} +template simdjson_really_inline error_code value::get(T &out) && noexcept { + return std::forward(*this).get().get(out); +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline value::operator array() && noexcept(false) { + return std::forward(*this).get_array(); +} +simdjson_really_inline value::operator array() & noexcept(false) { + return std::forward(*this).get_array(); +} +simdjson_really_inline value::operator object() && noexcept(false) { + return std::forward(*this).get_object(); +} +simdjson_really_inline value::operator object() & noexcept(false) { + return std::forward(*this).get_object(); +} +simdjson_really_inline value::operator uint64_t() noexcept(false) { + return get_uint64(); +} +simdjson_really_inline value::operator int64_t() noexcept(false) { + return get_int64(); +} +simdjson_really_inline value::operator double() noexcept(false) { + return get_double(); +} +simdjson_really_inline value::operator std::string_view() noexcept(false) { + return get_string(); +} +simdjson_really_inline value::operator raw_json_string() noexcept(false) { + return get_raw_json_string(); +} +simdjson_really_inline value::operator bool() noexcept(false) { + return get_bool(); +} +#endif + +simdjson_really_inline simdjson_result value::begin() & noexcept { + return get_array().begin(); +} +simdjson_really_inline simdjson_result value::end() & noexcept { + return {}; +} + +simdjson_really_inline simdjson_result value::find_field(std::string_view key) & noexcept { + return start_or_resume_object().find_field(key); +} +simdjson_really_inline simdjson_result value::find_field(std::string_view key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field(key); +} +simdjson_really_inline simdjson_result value::find_field(const char *key) & noexcept { + return start_or_resume_object().find_field(key); +} +simdjson_really_inline simdjson_result value::find_field(const char *key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field(key); +} + +simdjson_really_inline simdjson_result value::find_field_unordered(std::string_view key) & noexcept { + return start_or_resume_object().find_field_unordered(key); +} +simdjson_really_inline simdjson_result value::find_field_unordered(std::string_view key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field_unordered(key); +} +simdjson_really_inline simdjson_result value::find_field_unordered(const char *key) & noexcept { + return start_or_resume_object().find_field_unordered(key); +} +simdjson_really_inline simdjson_result value::find_field_unordered(const char *key) && noexcept { + return std::forward(*this).start_or_resume_object().find_field_unordered(key); +} + +simdjson_really_inline simdjson_result value::operator[](std::string_view key) & noexcept { + return start_or_resume_object()[key]; +} +simdjson_really_inline simdjson_result value::operator[](std::string_view key) && noexcept { + return std::forward(*this).start_or_resume_object()[key]; +} +simdjson_really_inline simdjson_result value::operator[](const char *key) & noexcept { + return start_or_resume_object()[key]; +} +simdjson_really_inline simdjson_result value::operator[](const char *key) && noexcept { + return std::forward(*this).start_or_resume_object()[key]; +} + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + fallback::ondemand::value &&value +) noexcept : + implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept : + implementation_simdjson_result_base(error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::begin() & noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() & noexcept { + if (error()) { return error(); } + return {}; +} + +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(const char *key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field(key); +} + +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(const char *key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(const char *key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field_unordered(key); +} + +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first)[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](const char *key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](const char *key) && noexcept { + if (error()) { return error(); } + return std::forward(first)[key]; +} + +simdjson_really_inline simdjson_result simdjson_result::get_array() & noexcept { + if (error()) { return error(); } + return first.get_array(); +} +simdjson_really_inline simdjson_result simdjson_result::get_array() && noexcept { + if (error()) { return error(); } + return std::forward(first).get_array(); +} +simdjson_really_inline simdjson_result simdjson_result::get_object() & noexcept { + if (error()) { return error(); } + return first.get_object(); +} +simdjson_really_inline simdjson_result simdjson_result::get_object() && noexcept { + if (error()) { return error(); } + return std::forward(first).get_object(); +} +simdjson_really_inline simdjson_result simdjson_result::get_uint64() noexcept { + if (error()) { return error(); } + return first.get_uint64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_int64() noexcept { + if (error()) { return error(); } + return first.get_int64(); +} +simdjson_really_inline simdjson_result simdjson_result::get_double() noexcept { + if (error()) { return error(); } + return first.get_double(); +} +simdjson_really_inline simdjson_result simdjson_result::get_string() noexcept { + if (error()) { return error(); } + return first.get_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_raw_json_string() noexcept { + if (error()) { return error(); } + return first.get_raw_json_string(); +} +simdjson_really_inline simdjson_result simdjson_result::get_bool() noexcept { + if (error()) { return error(); } + return first.get_bool(); +} +simdjson_really_inline bool simdjson_result::is_null() noexcept { + if (error()) { return false; } + return first.is_null(); +} + +template simdjson_really_inline simdjson_result simdjson_result::get() & noexcept { + if (error()) { return error(); } + return first.get(); +} +template simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first).get(); +} +template simdjson_really_inline error_code simdjson_result::get(T &out) & noexcept { + if (error()) { return error(); } + return first.get(out); +} +template simdjson_really_inline error_code simdjson_result::get(T &out) && noexcept { + if (error()) { return error(); } + return std::forward(first).get(out); +} + +template<> simdjson_really_inline simdjson_result simdjson_result::get() & noexcept { + if (error()) { return error(); } + return std::move(first); +} +template<> simdjson_really_inline simdjson_result simdjson_result::get() && noexcept { + if (error()) { return error(); } + return std::forward(first); +} +template<> simdjson_really_inline error_code simdjson_result::get(fallback::ondemand::value &out) & noexcept { + if (error()) { return error(); } + out = first; + return SUCCESS; +} +template<> simdjson_really_inline error_code simdjson_result::get(fallback::ondemand::value &out) && noexcept { + if (error()) { return error(); } + out = std::forward(first); + return SUCCESS; +} + +#if SIMDJSON_EXCEPTIONS +simdjson_really_inline simdjson_result::operator fallback::ondemand::array() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator fallback::ondemand::array() && noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return std::forward(first); +} +simdjson_really_inline simdjson_result::operator fallback::ondemand::object() & noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator fallback::ondemand::object() && noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return std::forward(first); +} +simdjson_really_inline simdjson_result::operator uint64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator int64_t() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator double() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator std::string_view() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator fallback::ondemand::raw_json_string() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +simdjson_really_inline simdjson_result::operator bool() noexcept(false) { + if (error()) { throw simdjson_error(error()); } + return first; +} +#endif + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/value-inl.h */ +/* begin file include/simdjson/generic/ondemand/field-inl.h */ +namespace simdjson { +namespace fallback { +namespace ondemand { + +// clang 6 doesn't think the default constructor can be noexcept, so we make it explicit +simdjson_really_inline field::field() noexcept : std::pair() {} + +simdjson_really_inline field::field(raw_json_string key, ondemand::value &&value) noexcept + : std::pair(key, std::forward(value)) +{ +} + +simdjson_really_inline simdjson_result field::start(value_iterator &parent_iter) noexcept { + raw_json_string key; + SIMDJSON_TRY( parent_iter.field_key().get(key) ); + SIMDJSON_TRY( parent_iter.field_value() ); + return field::start(parent_iter, key); +} + +simdjson_really_inline simdjson_result field::start(const value_iterator &parent_iter, raw_json_string key) noexcept { + return field(key, parent_iter.child()); +} + +simdjson_really_inline simdjson_warn_unused simdjson_result field::unescaped_key() noexcept { + SIMDJSON_ASSUME(first.buf != nullptr); // We would like to call .alive() by Visual Studio won't let us. + simdjson_result answer = first.unescape(second.iter.string_buf_loc()); + first.consume(); + return answer; +} + +simdjson_really_inline raw_json_string field::key() const noexcept { + SIMDJSON_ASSUME(first.buf != nullptr); // We would like to call .alive() by Visual Studio won't let us. + return first; +} + +simdjson_really_inline value &field::value() & noexcept { + return second; +} + +simdjson_really_inline value field::value() && noexcept { + return std::forward(*this).second; +} + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result( + fallback::ondemand::field &&value +) noexcept : + implementation_simdjson_result_base( + std::forward(value) + ) +{ +} +simdjson_really_inline simdjson_result::simdjson_result( + error_code error +) noexcept : + implementation_simdjson_result_base(error) +{ +} + +simdjson_really_inline simdjson_result simdjson_result::key() noexcept { + if (error()) { return error(); } + return first.key(); +} +simdjson_really_inline simdjson_result simdjson_result::unescaped_key() noexcept { + if (error()) { return error(); } + return first.unescaped_key(); +} +simdjson_really_inline simdjson_result simdjson_result::value() noexcept { + if (error()) { return error(); } + return std::move(first.value()); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/field-inl.h */ +/* begin file include/simdjson/generic/ondemand/object-inl.h */ +namespace simdjson { +namespace fallback { +namespace ondemand { + +simdjson_really_inline simdjson_result object::find_field_unordered(const std::string_view key) & noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_unordered_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} +simdjson_really_inline simdjson_result object::find_field_unordered(const std::string_view key) && noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_unordered_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} +simdjson_really_inline simdjson_result object::operator[](const std::string_view key) & noexcept { + return find_field_unordered(key); +} +simdjson_really_inline simdjson_result object::operator[](const std::string_view key) && noexcept { + return std::forward(*this).find_field_unordered(key); +} +simdjson_really_inline simdjson_result object::find_field(const std::string_view key) & noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} +simdjson_really_inline simdjson_result object::find_field(const std::string_view key) && noexcept { + bool has_value; + SIMDJSON_TRY( iter.find_field_raw(key).get(has_value) ); + if (!has_value) { return NO_SUCH_FIELD; } + return value(iter.child()); +} + +simdjson_really_inline simdjson_result object::start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.start_object().get(has_value) ); + return object(iter); +} +simdjson_really_inline simdjson_result object::try_start(value_iterator &iter) noexcept { + simdjson_unused bool has_value; + SIMDJSON_TRY( iter.try_start_object().get(has_value) ); + return object(iter); +} +simdjson_really_inline object object::started(value_iterator &iter) noexcept { + simdjson_unused bool has_value = iter.started_object(); + return iter; +} +simdjson_really_inline object object::resume(const value_iterator &iter) noexcept { + return iter; +} + +simdjson_really_inline object::object(const value_iterator &_iter) noexcept + : iter{_iter} +{ +} + +simdjson_really_inline object_iterator object::begin() noexcept { + // Expanded version of SIMDJSON_ASSUME( iter.at_field_start() || !iter.is_open() ) + SIMDJSON_ASSUME( (iter._json_iter->token.index == iter._start_position + 1) || (iter._json_iter->_depth < iter._depth) ); + return iter; +} +simdjson_really_inline object_iterator object::end() noexcept { + return {}; +} + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(fallback::ondemand::object &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +simdjson_really_inline simdjson_result simdjson_result::begin() noexcept { + if (error()) { return error(); } + return first.begin(); +} +simdjson_really_inline simdjson_result simdjson_result::end() noexcept { + if (error()) { return error(); } + return first.end(); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field_unordered(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field_unordered(key); +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) & noexcept { + if (error()) { return error(); } + return first[key]; +} +simdjson_really_inline simdjson_result simdjson_result::operator[](std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first)[key]; +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) & noexcept { + if (error()) { return error(); } + return first.find_field(key); +} +simdjson_really_inline simdjson_result simdjson_result::find_field(std::string_view key) && noexcept { + if (error()) { return error(); } + return std::forward(first).find_field(key); +} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/object-inl.h */ +/* begin file include/simdjson/generic/ondemand/parser-inl.h */ +namespace simdjson { +namespace fallback { +namespace ondemand { + +simdjson_warn_unused simdjson_really_inline error_code parser::allocate(size_t new_capacity, size_t new_max_depth) noexcept { + if (string_buf && new_capacity == _capacity && new_max_depth == _max_depth) { return SUCCESS; } + + // string_capacity copied from document::allocate + _capacity = 0; + _max_depth = 0; + size_t string_capacity = SIMDJSON_ROUNDUP_N(5 * new_capacity / 3 + SIMDJSON_PADDING, 64); + string_buf.reset(new (std::nothrow) uint8_t[string_capacity]); + if (dom_parser) { + SIMDJSON_TRY( dom_parser->set_capacity(new_capacity) ); + SIMDJSON_TRY( dom_parser->set_max_depth(new_max_depth) ); + } else { + SIMDJSON_TRY( simdjson::active_implementation->create_dom_parser_implementation(new_capacity, new_max_depth, dom_parser) ); + } + _capacity = new_capacity; + _max_depth = new_max_depth; + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline simdjson_result parser::iterate(const padded_string &buf) & noexcept { + // Allocate if needed + if (_capacity < buf.size() || !string_buf) { + SIMDJSON_TRY( allocate(buf.size(), _max_depth) ); + } + + // Run stage 1. + SIMDJSON_TRY( dom_parser->stage1((const uint8_t *)buf.data(), buf.size(), false) ); + return document::start({ (const uint8_t *)buf.data(), this }); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result parser::iterate(const simdjson_result &result) & noexcept { + // We don't presently have a way to temporarily get a const T& from a simdjson_result without throwing an exception + SIMDJSON_TRY( result.error() ); + const padded_string &buf = result.value_unsafe(); + return iterate(buf); +} + +simdjson_warn_unused simdjson_really_inline simdjson_result parser::iterate_raw(const padded_string &buf) & noexcept { + // Allocate if needed + if (_capacity < buf.size()) { + SIMDJSON_TRY( allocate(buf.size(), _max_depth) ); + } + + // Run stage 1. + SIMDJSON_TRY( dom_parser->stage1((const uint8_t *)buf.data(), buf.size(), false) ); + return json_iterator((const uint8_t *)buf.data(), this); +} + +} // namespace ondemand +} // namespace fallback +} // namespace simdjson + +namespace simdjson { + +simdjson_really_inline simdjson_result::simdjson_result(fallback::ondemand::parser &&value) noexcept + : implementation_simdjson_result_base(std::forward(value)) {} +simdjson_really_inline simdjson_result::simdjson_result(error_code error) noexcept + : implementation_simdjson_result_base(error) {} + +} // namespace simdjson +/* end file include/simdjson/generic/ondemand/parser-inl.h */ +/* end file include/simdjson/generic/ondemand-inl.h */ + +/* begin file include/simdjson/fallback/end.h */ +#undef fallback +/* end file include/simdjson/fallback/end.h */ + +#endif // SIMDJSON_IMPLEMENTATION_FALLBACK +#endif // SIMDJSON_FALLBACK_H +/* end file include/simdjson/fallback.h */ +/* begin file include/simdjson/builtin.h */ +#ifndef SIMDJSON_BUILTIN_H +#define SIMDJSON_BUILTIN_H + + +#ifndef SIMDJSON_BUILTIN_IMPLEMENTATION +#if SIMDJSON_CAN_ALWAYS_RUN_HASWELL +#define SIMDJSON_BUILTIN_IMPLEMENTATION haswell +#elif SIMDJSON_CAN_ALWAYS_RUN_WESTMERE +#define SIMDJSON_BUILTIN_IMPLEMENTATION westmere +#elif SIMDJSON_CAN_ALWAYS_RUN_ARM64 +#define SIMDJSON_BUILTIN_IMPLEMENTATION arm64 +#elif SIMDJSON_CAN_ALWAYS_RUN_PPC64 +#define SIMDJSON_BUILTIN_IMPLEMENTATION ppc64 +#elif SIMDJSON_CAN_ALWAYS_RUN_FALLBACK +#define SIMDJSON_BUILTIN_IMPLEMENTATION fallback +#else +#error "All possible implementations (including fallback) have been disabled! simdjson will not run." +#endif +#endif // SIMDJSON_BUILTIN_IMPLEMENTATION + +namespace simdjson { + /** + * Represents the best statically linked simdjson implementation that can be used by the compiling + * program. + * + * Detects what options the program is compiled against, and picks the minimum implementation that + * will work on any computer that can run the program. For example, if you compile with g++ + * -march=westmere, it will pick the westmere implementation. The haswell implementation will + * still be available, and can be selected at runtime, but the builtin implementation (and any + * code that uses it) will use westmere. + */ + namespace builtin = SIMDJSON_BUILTIN_IMPLEMENTATION; + /** + * @overload simdjson::SIMDJSON_BUILTIN_IMPLEMENTATION::ondemand + */ + namespace ondemand = SIMDJSON_BUILTIN_IMPLEMENTATION::ondemand; + /** + * Function which returns a pointer to an implementation matching the "builtin" implementation. + * The builtin implementation is the best statically linked simdjson implementation that can be used by the compiling + * program. If you compile with g++ -march=haswell, this will return the haswell implementation. + * It is handy to be able to check what builtin was used: builtin_implementation()->name(). + */ + const implementation * builtin_implementation(); +} // namespace simdjson + +#endif // SIMDJSON_BUILTIN_H +/* end file include/simdjson/builtin.h */ + +SIMDJSON_POP_DISABLE_WARNINGS + +#endif // SIMDJSON_H +/* end file include/simdjson.h */ diff --git a/src/simdjson.cpp b/src/simdjson.cpp new file mode 100644 index 0000000..cda8f22 --- /dev/null +++ b/src/simdjson.cpp @@ -0,0 +1,11984 @@ +/* auto-generated on 2021-01-20 13:20:49 -0500. Do not edit! */ +/* begin file src/simdjson.cpp */ +#include "../include/simdjson.h" + +SIMDJSON_PUSH_DISABLE_WARNINGS +SIMDJSON_DISABLE_UNDESIRED_WARNINGS + +/* begin file src/to_chars.cpp */ +#include +#include +#include +namespace simdjson { +namespace internal { +/*! +implements the Grisu2 algorithm for binary to decimal floating-point +conversion. +Adapted from JSON for Modern C++ + +This implementation is a slightly modified version of the reference +implementation which may be obtained from +http://florian.loitsch.com/publications (bench.tar.gz). +The code is distributed under the MIT license, Copyright (c) 2009 Florian +Loitsch. For a detailed description of the algorithm see: [1] Loitsch, "Printing +Floating-Point Numbers Quickly and Accurately with Integers", Proceedings of the +ACM SIGPLAN 2010 Conference on Programming Language Design and Implementation, +PLDI 2010 [2] Burger, Dybvig, "Printing Floating-Point Numbers Quickly and +Accurately", Proceedings of the ACM SIGPLAN 1996 Conference on Programming +Language Design and Implementation, PLDI 1996 +*/ +namespace dtoa_impl { + +template +Target reinterpret_bits(const Source source) { + static_assert(sizeof(Target) == sizeof(Source), "size mismatch"); + + Target target; + std::memcpy(&target, &source, sizeof(Source)); + return target; +} + +struct diyfp // f * 2^e +{ + static constexpr int kPrecision = 64; // = q + + std::uint64_t f = 0; + int e = 0; + + constexpr diyfp(std::uint64_t f_, int e_) noexcept : f(f_), e(e_) {} + + /*! + @brief returns x - y + @pre x.e == y.e and x.f >= y.f + */ + static diyfp sub(const diyfp &x, const diyfp &y) noexcept { + + return {x.f - y.f, x.e}; + } + + /*! + @brief returns x * y + @note The result is rounded. (Only the upper q bits are returned.) + */ + static diyfp mul(const diyfp &x, const diyfp &y) noexcept { + static_assert(kPrecision == 64, "internal error"); + + // Computes: + // f = round((x.f * y.f) / 2^q) + // e = x.e + y.e + q + + // Emulate the 64-bit * 64-bit multiplication: + // + // p = u * v + // = (u_lo + 2^32 u_hi) (v_lo + 2^32 v_hi) + // = (u_lo v_lo ) + 2^32 ((u_lo v_hi ) + (u_hi v_lo )) + + // 2^64 (u_hi v_hi ) = (p0 ) + 2^32 ((p1 ) + (p2 )) + // + 2^64 (p3 ) = (p0_lo + 2^32 p0_hi) + 2^32 ((p1_lo + + // 2^32 p1_hi) + (p2_lo + 2^32 p2_hi)) + 2^64 (p3 ) = + // (p0_lo ) + 2^32 (p0_hi + p1_lo + p2_lo ) + 2^64 (p1_hi + + // p2_hi + p3) = (p0_lo ) + 2^32 (Q ) + 2^64 (H ) = (p0_lo ) + + // 2^32 (Q_lo + 2^32 Q_hi ) + 2^64 (H ) + // + // (Since Q might be larger than 2^32 - 1) + // + // = (p0_lo + 2^32 Q_lo) + 2^64 (Q_hi + H) + // + // (Q_hi + H does not overflow a 64-bit int) + // + // = p_lo + 2^64 p_hi + + const std::uint64_t u_lo = x.f & 0xFFFFFFFFu; + const std::uint64_t u_hi = x.f >> 32u; + const std::uint64_t v_lo = y.f & 0xFFFFFFFFu; + const std::uint64_t v_hi = y.f >> 32u; + + const std::uint64_t p0 = u_lo * v_lo; + const std::uint64_t p1 = u_lo * v_hi; + const std::uint64_t p2 = u_hi * v_lo; + const std::uint64_t p3 = u_hi * v_hi; + + const std::uint64_t p0_hi = p0 >> 32u; + const std::uint64_t p1_lo = p1 & 0xFFFFFFFFu; + const std::uint64_t p1_hi = p1 >> 32u; + const std::uint64_t p2_lo = p2 & 0xFFFFFFFFu; + const std::uint64_t p2_hi = p2 >> 32u; + + std::uint64_t Q = p0_hi + p1_lo + p2_lo; + + // The full product might now be computed as + // + // p_hi = p3 + p2_hi + p1_hi + (Q >> 32) + // p_lo = p0_lo + (Q << 32) + // + // But in this particular case here, the full p_lo is not required. + // Effectively we only need to add the highest bit in p_lo to p_hi (and + // Q_hi + 1 does not overflow). + + Q += std::uint64_t{1} << (64u - 32u - 1u); // round, ties up + + const std::uint64_t h = p3 + p2_hi + p1_hi + (Q >> 32u); + + return {h, x.e + y.e + 64}; + } + + /*! + @brief normalize x such that the significand is >= 2^(q-1) + @pre x.f != 0 + */ + static diyfp normalize(diyfp x) noexcept { + + while ((x.f >> 63u) == 0) { + x.f <<= 1u; + x.e--; + } + + return x; + } + + /*! + @brief normalize x such that the result has the exponent E + @pre e >= x.e and the upper e - x.e bits of x.f must be zero. + */ + static diyfp normalize_to(const diyfp &x, + const int target_exponent) noexcept { + const int delta = x.e - target_exponent; + + return {x.f << delta, target_exponent}; + } +}; + +struct boundaries { + diyfp w; + diyfp minus; + diyfp plus; +}; + +/*! +Compute the (normalized) diyfp representing the input number 'value' and its +boundaries. +@pre value must be finite and positive +*/ +template boundaries compute_boundaries(FloatType value) { + + // Convert the IEEE representation into a diyfp. + // + // If v is denormal: + // value = 0.F * 2^(1 - bias) = ( F) * 2^(1 - bias - (p-1)) + // If v is normalized: + // value = 1.F * 2^(E - bias) = (2^(p-1) + F) * 2^(E - bias - (p-1)) + + static_assert(std::numeric_limits::is_iec559, + "internal error: dtoa_short requires an IEEE-754 " + "floating-point implementation"); + + constexpr int kPrecision = + std::numeric_limits::digits; // = p (includes the hidden bit) + constexpr int kBias = + std::numeric_limits::max_exponent - 1 + (kPrecision - 1); + constexpr int kMinExp = 1 - kBias; + constexpr std::uint64_t kHiddenBit = std::uint64_t{1} + << (kPrecision - 1); // = 2^(p-1) + + using bits_type = typename std::conditional::type; + + const std::uint64_t bits = reinterpret_bits(value); + const std::uint64_t E = bits >> (kPrecision - 1); + const std::uint64_t F = bits & (kHiddenBit - 1); + + const bool is_denormal = E == 0; + const diyfp v = is_denormal + ? diyfp(F, kMinExp) + : diyfp(F + kHiddenBit, static_cast(E) - kBias); + + // Compute the boundaries m- and m+ of the floating-point value + // v = f * 2^e. + // + // Determine v- and v+, the floating-point predecessor and successor if v, + // respectively. + // + // v- = v - 2^e if f != 2^(p-1) or e == e_min (A) + // = v - 2^(e-1) if f == 2^(p-1) and e > e_min (B) + // + // v+ = v + 2^e + // + // Let m- = (v- + v) / 2 and m+ = (v + v+) / 2. All real numbers _strictly_ + // between m- and m+ round to v, regardless of how the input rounding + // algorithm breaks ties. + // + // ---+-------------+-------------+-------------+-------------+--- (A) + // v- m- v m+ v+ + // + // -----------------+------+------+-------------+-------------+--- (B) + // v- m- v m+ v+ + + const bool lower_boundary_is_closer = F == 0 && E > 1; + const diyfp m_plus = diyfp(2 * v.f + 1, v.e - 1); + const diyfp m_minus = lower_boundary_is_closer + ? diyfp(4 * v.f - 1, v.e - 2) // (B) + : diyfp(2 * v.f - 1, v.e - 1); // (A) + + // Determine the normalized w+ = m+. + const diyfp w_plus = diyfp::normalize(m_plus); + + // Determine w- = m- such that e_(w-) = e_(w+). + const diyfp w_minus = diyfp::normalize_to(m_minus, w_plus.e); + + return {diyfp::normalize(v), w_minus, w_plus}; +} + +// Given normalized diyfp w, Grisu needs to find a (normalized) cached +// power-of-ten c, such that the exponent of the product c * w = f * 2^e lies +// within a certain range [alpha, gamma] (Definition 3.2 from [1]) +// +// alpha <= e = e_c + e_w + q <= gamma +// +// or +// +// f_c * f_w * 2^alpha <= f_c 2^(e_c) * f_w 2^(e_w) * 2^q +// <= f_c * f_w * 2^gamma +// +// Since c and w are normalized, i.e. 2^(q-1) <= f < 2^q, this implies +// +// 2^(q-1) * 2^(q-1) * 2^alpha <= c * w * 2^q < 2^q * 2^q * 2^gamma +// +// or +// +// 2^(q - 2 + alpha) <= c * w < 2^(q + gamma) +// +// The choice of (alpha,gamma) determines the size of the table and the form of +// the digit generation procedure. Using (alpha,gamma)=(-60,-32) works out well +// in practice: +// +// The idea is to cut the number c * w = f * 2^e into two parts, which can be +// processed independently: An integral part p1, and a fractional part p2: +// +// f * 2^e = ( (f div 2^-e) * 2^-e + (f mod 2^-e) ) * 2^e +// = (f div 2^-e) + (f mod 2^-e) * 2^e +// = p1 + p2 * 2^e +// +// The conversion of p1 into decimal form requires a series of divisions and +// modulos by (a power of) 10. These operations are faster for 32-bit than for +// 64-bit integers, so p1 should ideally fit into a 32-bit integer. This can be +// achieved by choosing +// +// -e >= 32 or e <= -32 := gamma +// +// In order to convert the fractional part +// +// p2 * 2^e = p2 / 2^-e = d[-1] / 10^1 + d[-2] / 10^2 + ... +// +// into decimal form, the fraction is repeatedly multiplied by 10 and the digits +// d[-i] are extracted in order: +// +// (10 * p2) div 2^-e = d[-1] +// (10 * p2) mod 2^-e = d[-2] / 10^1 + ... +// +// The multiplication by 10 must not overflow. It is sufficient to choose +// +// 10 * p2 < 16 * p2 = 2^4 * p2 <= 2^64. +// +// Since p2 = f mod 2^-e < 2^-e, +// +// -e <= 60 or e >= -60 := alpha + +constexpr int kAlpha = -60; +constexpr int kGamma = -32; + +struct cached_power // c = f * 2^e ~= 10^k +{ + std::uint64_t f; + int e; + int k; +}; + +/*! +For a normalized diyfp w = f * 2^e, this function returns a (normalized) cached +power-of-ten c = f_c * 2^e_c, such that the exponent of the product w * c +satisfies (Definition 3.2 from [1]) + alpha <= e_c + e + q <= gamma. +*/ +inline cached_power get_cached_power_for_binary_exponent(int e) { + // Now + // + // alpha <= e_c + e + q <= gamma (1) + // ==> f_c * 2^alpha <= c * 2^e * 2^q + // + // and since the c's are normalized, 2^(q-1) <= f_c, + // + // ==> 2^(q - 1 + alpha) <= c * 2^(e + q) + // ==> 2^(alpha - e - 1) <= c + // + // If c were an exact power of ten, i.e. c = 10^k, one may determine k as + // + // k = ceil( log_10( 2^(alpha - e - 1) ) ) + // = ceil( (alpha - e - 1) * log_10(2) ) + // + // From the paper: + // "In theory the result of the procedure could be wrong since c is rounded, + // and the computation itself is approximated [...]. In practice, however, + // this simple function is sufficient." + // + // For IEEE double precision floating-point numbers converted into + // normalized diyfp's w = f * 2^e, with q = 64, + // + // e >= -1022 (min IEEE exponent) + // -52 (p - 1) + // -52 (p - 1, possibly normalize denormal IEEE numbers) + // -11 (normalize the diyfp) + // = -1137 + // + // and + // + // e <= +1023 (max IEEE exponent) + // -52 (p - 1) + // -11 (normalize the diyfp) + // = 960 + // + // This binary exponent range [-1137,960] results in a decimal exponent + // range [-307,324]. One does not need to store a cached power for each + // k in this range. For each such k it suffices to find a cached power + // such that the exponent of the product lies in [alpha,gamma]. + // This implies that the difference of the decimal exponents of adjacent + // table entries must be less than or equal to + // + // floor( (gamma - alpha) * log_10(2) ) = 8. + // + // (A smaller distance gamma-alpha would require a larger table.) + + // NB: + // Actually this function returns c, such that -60 <= e_c + e + 64 <= -34. + + constexpr int kCachedPowersMinDecExp = -300; + constexpr int kCachedPowersDecStep = 8; + + static constexpr std::array kCachedPowers = {{ + {0xAB70FE17C79AC6CA, -1060, -300}, {0xFF77B1FCBEBCDC4F, -1034, -292}, + {0xBE5691EF416BD60C, -1007, -284}, {0x8DD01FAD907FFC3C, -980, -276}, + {0xD3515C2831559A83, -954, -268}, {0x9D71AC8FADA6C9B5, -927, -260}, + {0xEA9C227723EE8BCB, -901, -252}, {0xAECC49914078536D, -874, -244}, + {0x823C12795DB6CE57, -847, -236}, {0xC21094364DFB5637, -821, -228}, + {0x9096EA6F3848984F, -794, -220}, {0xD77485CB25823AC7, -768, -212}, + {0xA086CFCD97BF97F4, -741, -204}, {0xEF340A98172AACE5, -715, -196}, + {0xB23867FB2A35B28E, -688, -188}, {0x84C8D4DFD2C63F3B, -661, -180}, + {0xC5DD44271AD3CDBA, -635, -172}, {0x936B9FCEBB25C996, -608, -164}, + {0xDBAC6C247D62A584, -582, -156}, {0xA3AB66580D5FDAF6, -555, -148}, + {0xF3E2F893DEC3F126, -529, -140}, {0xB5B5ADA8AAFF80B8, -502, -132}, + {0x87625F056C7C4A8B, -475, -124}, {0xC9BCFF6034C13053, -449, -116}, + {0x964E858C91BA2655, -422, -108}, {0xDFF9772470297EBD, -396, -100}, + {0xA6DFBD9FB8E5B88F, -369, -92}, {0xF8A95FCF88747D94, -343, -84}, + {0xB94470938FA89BCF, -316, -76}, {0x8A08F0F8BF0F156B, -289, -68}, + {0xCDB02555653131B6, -263, -60}, {0x993FE2C6D07B7FAC, -236, -52}, + {0xE45C10C42A2B3B06, -210, -44}, {0xAA242499697392D3, -183, -36}, + {0xFD87B5F28300CA0E, -157, -28}, {0xBCE5086492111AEB, -130, -20}, + {0x8CBCCC096F5088CC, -103, -12}, {0xD1B71758E219652C, -77, -4}, + {0x9C40000000000000, -50, 4}, {0xE8D4A51000000000, -24, 12}, + {0xAD78EBC5AC620000, 3, 20}, {0x813F3978F8940984, 30, 28}, + {0xC097CE7BC90715B3, 56, 36}, {0x8F7E32CE7BEA5C70, 83, 44}, + {0xD5D238A4ABE98068, 109, 52}, {0x9F4F2726179A2245, 136, 60}, + {0xED63A231D4C4FB27, 162, 68}, {0xB0DE65388CC8ADA8, 189, 76}, + {0x83C7088E1AAB65DB, 216, 84}, {0xC45D1DF942711D9A, 242, 92}, + {0x924D692CA61BE758, 269, 100}, {0xDA01EE641A708DEA, 295, 108}, + {0xA26DA3999AEF774A, 322, 116}, {0xF209787BB47D6B85, 348, 124}, + {0xB454E4A179DD1877, 375, 132}, {0x865B86925B9BC5C2, 402, 140}, + {0xC83553C5C8965D3D, 428, 148}, {0x952AB45CFA97A0B3, 455, 156}, + {0xDE469FBD99A05FE3, 481, 164}, {0xA59BC234DB398C25, 508, 172}, + {0xF6C69A72A3989F5C, 534, 180}, {0xB7DCBF5354E9BECE, 561, 188}, + {0x88FCF317F22241E2, 588, 196}, {0xCC20CE9BD35C78A5, 614, 204}, + {0x98165AF37B2153DF, 641, 212}, {0xE2A0B5DC971F303A, 667, 220}, + {0xA8D9D1535CE3B396, 694, 228}, {0xFB9B7CD9A4A7443C, 720, 236}, + {0xBB764C4CA7A44410, 747, 244}, {0x8BAB8EEFB6409C1A, 774, 252}, + {0xD01FEF10A657842C, 800, 260}, {0x9B10A4E5E9913129, 827, 268}, + {0xE7109BFBA19C0C9D, 853, 276}, {0xAC2820D9623BF429, 880, 284}, + {0x80444B5E7AA7CF85, 907, 292}, {0xBF21E44003ACDD2D, 933, 300}, + {0x8E679C2F5E44FF8F, 960, 308}, {0xD433179D9C8CB841, 986, 316}, + {0x9E19DB92B4E31BA9, 1013, 324}, + }}; + + // This computation gives exactly the same results for k as + // k = ceil((kAlpha - e - 1) * 0.30102999566398114) + // for |e| <= 1500, but doesn't require floating-point operations. + // NB: log_10(2) ~= 78913 / 2^18 + const int f = kAlpha - e - 1; + const int k = (f * 78913) / (1 << 18) + static_cast(f > 0); + + const int index = (-kCachedPowersMinDecExp + k + (kCachedPowersDecStep - 1)) / + kCachedPowersDecStep; + + const cached_power cached = kCachedPowers[static_cast(index)]; + + return cached; +} + +/*! +For n != 0, returns k, such that pow10 := 10^(k-1) <= n < 10^k. +For n == 0, returns 1 and sets pow10 := 1. +*/ +inline int find_largest_pow10(const std::uint32_t n, std::uint32_t &pow10) { + // LCOV_EXCL_START + if (n >= 1000000000) { + pow10 = 1000000000; + return 10; + } + // LCOV_EXCL_STOP + else if (n >= 100000000) { + pow10 = 100000000; + return 9; + } else if (n >= 10000000) { + pow10 = 10000000; + return 8; + } else if (n >= 1000000) { + pow10 = 1000000; + return 7; + } else if (n >= 100000) { + pow10 = 100000; + return 6; + } else if (n >= 10000) { + pow10 = 10000; + return 5; + } else if (n >= 1000) { + pow10 = 1000; + return 4; + } else if (n >= 100) { + pow10 = 100; + return 3; + } else if (n >= 10) { + pow10 = 10; + return 2; + } else { + pow10 = 1; + return 1; + } +} + +inline void grisu2_round(char *buf, int len, std::uint64_t dist, + std::uint64_t delta, std::uint64_t rest, + std::uint64_t ten_k) { + + // <--------------------------- delta ----> + // <---- dist ---------> + // --------------[------------------+-------------------]-------------- + // M- w M+ + // + // ten_k + // <------> + // <---- rest ----> + // --------------[------------------+----+--------------]-------------- + // w V + // = buf * 10^k + // + // ten_k represents a unit-in-the-last-place in the decimal representation + // stored in buf. + // Decrement buf by ten_k while this takes buf closer to w. + + // The tests are written in this order to avoid overflow in unsigned + // integer arithmetic. + + while (rest < dist && delta - rest >= ten_k && + (rest + ten_k < dist || dist - rest > rest + ten_k - dist)) { + buf[len - 1]--; + rest += ten_k; + } +} + +/*! +Generates V = buffer * 10^decimal_exponent, such that M- <= V <= M+. +M- and M+ must be normalized and share the same exponent -60 <= e <= -32. +*/ +inline void grisu2_digit_gen(char *buffer, int &length, int &decimal_exponent, + diyfp M_minus, diyfp w, diyfp M_plus) { + static_assert(kAlpha >= -60, "internal error"); + static_assert(kGamma <= -32, "internal error"); + + // Generates the digits (and the exponent) of a decimal floating-point + // number V = buffer * 10^decimal_exponent in the range [M-, M+]. The diyfp's + // w, M- and M+ share the same exponent e, which satisfies alpha <= e <= + // gamma. + // + // <--------------------------- delta ----> + // <---- dist ---------> + // --------------[------------------+-------------------]-------------- + // M- w M+ + // + // Grisu2 generates the digits of M+ from left to right and stops as soon as + // V is in [M-,M+]. + + std::uint64_t delta = + diyfp::sub(M_plus, M_minus) + .f; // (significand of (M+ - M-), implicit exponent is e) + std::uint64_t dist = + diyfp::sub(M_plus, w) + .f; // (significand of (M+ - w ), implicit exponent is e) + + // Split M+ = f * 2^e into two parts p1 and p2 (note: e < 0): + // + // M+ = f * 2^e + // = ((f div 2^-e) * 2^-e + (f mod 2^-e)) * 2^e + // = ((p1 ) * 2^-e + (p2 )) * 2^e + // = p1 + p2 * 2^e + + const diyfp one(std::uint64_t{1} << -M_plus.e, M_plus.e); + + auto p1 = static_cast( + M_plus.f >> + -one.e); // p1 = f div 2^-e (Since -e >= 32, p1 fits into a 32-bit int.) + std::uint64_t p2 = M_plus.f & (one.f - 1); // p2 = f mod 2^-e + + // 1) + // + // Generate the digits of the integral part p1 = d[n-1]...d[1]d[0] + + std::uint32_t pow10; + const int k = find_largest_pow10(p1, pow10); + + // 10^(k-1) <= p1 < 10^k, pow10 = 10^(k-1) + // + // p1 = (p1 div 10^(k-1)) * 10^(k-1) + (p1 mod 10^(k-1)) + // = (d[k-1] ) * 10^(k-1) + (p1 mod 10^(k-1)) + // + // M+ = p1 + p2 * 2^e + // = d[k-1] * 10^(k-1) + (p1 mod 10^(k-1)) + p2 * 2^e + // = d[k-1] * 10^(k-1) + ((p1 mod 10^(k-1)) * 2^-e + p2) * 2^e + // = d[k-1] * 10^(k-1) + ( rest) * 2^e + // + // Now generate the digits d[n] of p1 from left to right (n = k-1,...,0) + // + // p1 = d[k-1]...d[n] * 10^n + d[n-1]...d[0] + // + // but stop as soon as + // + // rest * 2^e = (d[n-1]...d[0] * 2^-e + p2) * 2^e <= delta * 2^e + + int n = k; + while (n > 0) { + // Invariants: + // M+ = buffer * 10^n + (p1 + p2 * 2^e) (buffer = 0 for n = k) + // pow10 = 10^(n-1) <= p1 < 10^n + // + const std::uint32_t d = p1 / pow10; // d = p1 div 10^(n-1) + const std::uint32_t r = p1 % pow10; // r = p1 mod 10^(n-1) + // + // M+ = buffer * 10^n + (d * 10^(n-1) + r) + p2 * 2^e + // = (buffer * 10 + d) * 10^(n-1) + (r + p2 * 2^e) + // + buffer[length++] = static_cast('0' + d); // buffer := buffer * 10 + d + // + // M+ = buffer * 10^(n-1) + (r + p2 * 2^e) + // + p1 = r; + n--; + // + // M+ = buffer * 10^n + (p1 + p2 * 2^e) + // pow10 = 10^n + // + + // Now check if enough digits have been generated. + // Compute + // + // p1 + p2 * 2^e = (p1 * 2^-e + p2) * 2^e = rest * 2^e + // + // Note: + // Since rest and delta share the same exponent e, it suffices to + // compare the significands. + const std::uint64_t rest = (std::uint64_t{p1} << -one.e) + p2; + if (rest <= delta) { + // V = buffer * 10^n, with M- <= V <= M+. + + decimal_exponent += n; + + // We may now just stop. But instead look if the buffer could be + // decremented to bring V closer to w. + // + // pow10 = 10^n is now 1 ulp in the decimal representation V. + // The rounding procedure works with diyfp's with an implicit + // exponent of e. + // + // 10^n = (10^n * 2^-e) * 2^e = ulp * 2^e + // + const std::uint64_t ten_n = std::uint64_t{pow10} << -one.e; + grisu2_round(buffer, length, dist, delta, rest, ten_n); + + return; + } + + pow10 /= 10; + // + // pow10 = 10^(n-1) <= p1 < 10^n + // Invariants restored. + } + + // 2) + // + // The digits of the integral part have been generated: + // + // M+ = d[k-1]...d[1]d[0] + p2 * 2^e + // = buffer + p2 * 2^e + // + // Now generate the digits of the fractional part p2 * 2^e. + // + // Note: + // No decimal point is generated: the exponent is adjusted instead. + // + // p2 actually represents the fraction + // + // p2 * 2^e + // = p2 / 2^-e + // = d[-1] / 10^1 + d[-2] / 10^2 + ... + // + // Now generate the digits d[-m] of p1 from left to right (m = 1,2,...) + // + // p2 * 2^e = d[-1]d[-2]...d[-m] * 10^-m + // + 10^-m * (d[-m-1] / 10^1 + d[-m-2] / 10^2 + ...) + // + // using + // + // 10^m * p2 = ((10^m * p2) div 2^-e) * 2^-e + ((10^m * p2) mod 2^-e) + // = ( d) * 2^-e + ( r) + // + // or + // 10^m * p2 * 2^e = d + r * 2^e + // + // i.e. + // + // M+ = buffer + p2 * 2^e + // = buffer + 10^-m * (d + r * 2^e) + // = (buffer * 10^m + d) * 10^-m + 10^-m * r * 2^e + // + // and stop as soon as 10^-m * r * 2^e <= delta * 2^e + + int m = 0; + for (;;) { + // Invariant: + // M+ = buffer * 10^-m + 10^-m * (d[-m-1] / 10 + d[-m-2] / 10^2 + ...) + // * 2^e + // = buffer * 10^-m + 10^-m * (p2 ) + // * 2^e = buffer * 10^-m + 10^-m * (1/10 * (10 * p2) ) * 2^e = + // buffer * 10^-m + 10^-m * (1/10 * ((10*p2 div 2^-e) * 2^-e + + // (10*p2 mod 2^-e)) * 2^e + // + p2 *= 10; + const std::uint64_t d = p2 >> -one.e; // d = (10 * p2) div 2^-e + const std::uint64_t r = p2 & (one.f - 1); // r = (10 * p2) mod 2^-e + // + // M+ = buffer * 10^-m + 10^-m * (1/10 * (d * 2^-e + r) * 2^e + // = buffer * 10^-m + 10^-m * (1/10 * (d + r * 2^e)) + // = (buffer * 10 + d) * 10^(-m-1) + 10^(-m-1) * r * 2^e + // + buffer[length++] = static_cast('0' + d); // buffer := buffer * 10 + d + // + // M+ = buffer * 10^(-m-1) + 10^(-m-1) * r * 2^e + // + p2 = r; + m++; + // + // M+ = buffer * 10^-m + 10^-m * p2 * 2^e + // Invariant restored. + + // Check if enough digits have been generated. + // + // 10^-m * p2 * 2^e <= delta * 2^e + // p2 * 2^e <= 10^m * delta * 2^e + // p2 <= 10^m * delta + delta *= 10; + dist *= 10; + if (p2 <= delta) { + break; + } + } + + // V = buffer * 10^-m, with M- <= V <= M+. + + decimal_exponent -= m; + + // 1 ulp in the decimal representation is now 10^-m. + // Since delta and dist are now scaled by 10^m, we need to do the + // same with ulp in order to keep the units in sync. + // + // 10^m * 10^-m = 1 = 2^-e * 2^e = ten_m * 2^e + // + const std::uint64_t ten_m = one.f; + grisu2_round(buffer, length, dist, delta, p2, ten_m); + + // By construction this algorithm generates the shortest possible decimal + // number (Loitsch, Theorem 6.2) which rounds back to w. + // For an input number of precision p, at least + // + // N = 1 + ceil(p * log_10(2)) + // + // decimal digits are sufficient to identify all binary floating-point + // numbers (Matula, "In-and-Out conversions"). + // This implies that the algorithm does not produce more than N decimal + // digits. + // + // N = 17 for p = 53 (IEEE double precision) + // N = 9 for p = 24 (IEEE single precision) +} + +/*! +v = buf * 10^decimal_exponent +len is the length of the buffer (number of decimal digits) +The buffer must be large enough, i.e. >= max_digits10. +*/ +inline void grisu2(char *buf, int &len, int &decimal_exponent, diyfp m_minus, + diyfp v, diyfp m_plus) { + + // --------(-----------------------+-----------------------)-------- (A) + // m- v m+ + // + // --------------------(-----------+-----------------------)-------- (B) + // m- v m+ + // + // First scale v (and m- and m+) such that the exponent is in the range + // [alpha, gamma]. + + const cached_power cached = get_cached_power_for_binary_exponent(m_plus.e); + + const diyfp c_minus_k(cached.f, cached.e); // = c ~= 10^-k + + // The exponent of the products is = v.e + c_minus_k.e + q and is in the range + // [alpha,gamma] + const diyfp w = diyfp::mul(v, c_minus_k); + const diyfp w_minus = diyfp::mul(m_minus, c_minus_k); + const diyfp w_plus = diyfp::mul(m_plus, c_minus_k); + + // ----(---+---)---------------(---+---)---------------(---+---)---- + // w- w w+ + // = c*m- = c*v = c*m+ + // + // diyfp::mul rounds its result and c_minus_k is approximated too. w, w- and + // w+ are now off by a small amount. + // In fact: + // + // w - v * 10^k < 1 ulp + // + // To account for this inaccuracy, add resp. subtract 1 ulp. + // + // --------+---[---------------(---+---)---------------]---+-------- + // w- M- w M+ w+ + // + // Now any number in [M-, M+] (bounds included) will round to w when input, + // regardless of how the input rounding algorithm breaks ties. + // + // And digit_gen generates the shortest possible such number in [M-, M+]. + // Note that this does not mean that Grisu2 always generates the shortest + // possible number in the interval (m-, m+). + const diyfp M_minus(w_minus.f + 1, w_minus.e); + const diyfp M_plus(w_plus.f - 1, w_plus.e); + + decimal_exponent = -cached.k; // = -(-k) = k + + grisu2_digit_gen(buf, len, decimal_exponent, M_minus, w, M_plus); +} + +/*! +v = buf * 10^decimal_exponent +len is the length of the buffer (number of decimal digits) +The buffer must be large enough, i.e. >= max_digits10. +*/ +template +void grisu2(char *buf, int &len, int &decimal_exponent, FloatType value) { + static_assert(diyfp::kPrecision >= std::numeric_limits::digits + 3, + "internal error: not enough precision"); + + // If the neighbors (and boundaries) of 'value' are always computed for + // double-precision numbers, all float's can be recovered using strtod (and + // strtof). However, the resulting decimal representations are not exactly + // "short". + // + // The documentation for 'std::to_chars' + // (https://en.cppreference.com/w/cpp/utility/to_chars) says "value is + // converted to a string as if by std::sprintf in the default ("C") locale" + // and since sprintf promotes float's to double's, I think this is exactly + // what 'std::to_chars' does. On the other hand, the documentation for + // 'std::to_chars' requires that "parsing the representation using the + // corresponding std::from_chars function recovers value exactly". That + // indicates that single precision floating-point numbers should be recovered + // using 'std::strtof'. + // + // NB: If the neighbors are computed for single-precision numbers, there is a + // single float + // (7.0385307e-26f) which can't be recovered using strtod. The resulting + // double precision value is off by 1 ulp. +#if 0 + const boundaries w = compute_boundaries(static_cast(value)); +#else + const boundaries w = compute_boundaries(value); +#endif + + grisu2(buf, len, decimal_exponent, w.minus, w.w, w.plus); +} + +/*! +@brief appends a decimal representation of e to buf +@return a pointer to the element following the exponent. +@pre -1000 < e < 1000 +*/ +inline char *append_exponent(char *buf, int e) { + + if (e < 0) { + e = -e; + *buf++ = '-'; + } else { + *buf++ = '+'; + } + + auto k = static_cast(e); + if (k < 10) { + // Always print at least two digits in the exponent. + // This is for compatibility with printf("%g"). + *buf++ = '0'; + *buf++ = static_cast('0' + k); + } else if (k < 100) { + *buf++ = static_cast('0' + k / 10); + k %= 10; + *buf++ = static_cast('0' + k); + } else { + *buf++ = static_cast('0' + k / 100); + k %= 100; + *buf++ = static_cast('0' + k / 10); + k %= 10; + *buf++ = static_cast('0' + k); + } + + return buf; +} + +/*! +@brief prettify v = buf * 10^decimal_exponent +If v is in the range [10^min_exp, 10^max_exp) it will be printed in fixed-point +notation. Otherwise it will be printed in exponential notation. +@pre min_exp < 0 +@pre max_exp > 0 +*/ +inline char *format_buffer(char *buf, int len, int decimal_exponent, + int min_exp, int max_exp) { + + const int k = len; + const int n = len + decimal_exponent; + + // v = buf * 10^(n-k) + // k is the length of the buffer (number of decimal digits) + // n is the position of the decimal point relative to the start of the buffer. + + if (k <= n && n <= max_exp) { + // digits[000] + // len <= max_exp + 2 + + std::memset(buf + k, '0', static_cast(n) - static_cast(k)); + // Make it look like a floating-point number (#362, #378) + buf[n + 0] = '.'; + buf[n + 1] = '0'; + return buf + (static_cast(n) + 2); + } + + if (0 < n && n <= max_exp) { + // dig.its + // len <= max_digits10 + 1 + std::memmove(buf + (static_cast(n) + 1), buf + n, + static_cast(k) - static_cast(n)); + buf[n] = '.'; + return buf + (static_cast(k) + 1U); + } + + if (min_exp < n && n <= 0) { + // 0.[000]digits + // len <= 2 + (-min_exp - 1) + max_digits10 + + std::memmove(buf + (2 + static_cast(-n)), buf, + static_cast(k)); + buf[0] = '0'; + buf[1] = '.'; + std::memset(buf + 2, '0', static_cast(-n)); + return buf + (2U + static_cast(-n) + static_cast(k)); + } + + if (k == 1) { + // dE+123 + // len <= 1 + 5 + + buf += 1; + } else { + // d.igitsE+123 + // len <= max_digits10 + 1 + 5 + + std::memmove(buf + 2, buf + 1, static_cast(k) - 1); + buf[1] = '.'; + buf += 1 + static_cast(k); + } + + *buf++ = 'e'; + return append_exponent(buf, n - 1); +} + +} // namespace dtoa_impl + +/*! +The format of the resulting decimal representation is similar to printf's %g +format. Returns an iterator pointing past-the-end of the decimal representation. +@note The input number must be finite, i.e. NaN's and Inf's are not supported. +@note The buffer must be large enough. +@note The result is NOT null-terminated. +*/ +char *to_chars(char *first, const char *last, double value) { + static_cast(last); // maybe unused - fix warning + if (value <= -0) { + value = -value; + *first++ = '-'; + } + + if (value == 0) // +-0 + { + *first++ = '0'; + // Make it look like a floating-point number (#362, #378) + *first++ = '.'; + *first++ = '0'; + return first; + } + // Compute v = buffer * 10^decimal_exponent. + // The decimal digits are stored in the buffer, which needs to be interpreted + // as an unsigned decimal integer. + // len is the length of the buffer, i.e. the number of decimal digits. + int len = 0; + int decimal_exponent = 0; + dtoa_impl::grisu2(first, len, decimal_exponent, value); + // Format the buffer like printf("%.*g", prec, value) + constexpr int kMinExp = -4; + constexpr int kMaxExp = std::numeric_limits::digits10; + + return dtoa_impl::format_buffer(first, len, decimal_exponent, kMinExp, + kMaxExp); +} +} // namespace internal +} // namespace simdjson +/* end file src/to_chars.cpp */ +/* begin file src/from_chars.cpp */ +#include +namespace simdjson { +namespace internal { + +/** + * The code in the internal::from_chars function is meant to handle the floating-point number parsing + * when we have more than 19 digits in the decimal mantissa. This should only be seen + * in adversarial scenarios: we do not expect production systems to even produce + * such floating-point numbers. + * + * The parser is based on work by Nigel Tao (at https://github.com/google/wuffs/) + * who credits Ken Thompson for the design (via a reference to the Go source + * code). See + * https://github.com/google/wuffs/blob/aa46859ea40c72516deffa1b146121952d6dfd3b/internal/cgen/base/floatconv-submodule-data.c + * https://github.com/google/wuffs/blob/46cd8105f47ca07ae2ba8e6a7818ef9c0df6c152/internal/cgen/base/floatconv-submodule-code.c + * It is probably not very fast but it is a fallback that should almost never be + * called in real life. Google Wuffs is published under APL 2.0. + **/ + +namespace { +constexpr uint32_t max_digits = 768; +constexpr int32_t decimal_point_range = 2047; +} // namespace + +struct adjusted_mantissa { + uint64_t mantissa; + int power2; + adjusted_mantissa() : mantissa(0), power2(0) {} +}; + +struct decimal { + uint32_t num_digits; + int32_t decimal_point; + bool negative; + bool truncated; + uint8_t digits[max_digits]; +}; + +template struct binary_format { + static constexpr int mantissa_explicit_bits(); + static constexpr int minimum_exponent(); + static constexpr int infinite_power(); + static constexpr int sign_index(); +}; + +template <> constexpr int binary_format::mantissa_explicit_bits() { + return 52; +} + +template <> constexpr int binary_format::minimum_exponent() { + return -1023; +} +template <> constexpr int binary_format::infinite_power() { + return 0x7FF; +} + +template <> constexpr int binary_format::sign_index() { return 63; } + +bool is_integer(char c) noexcept { return (c >= '0' && c <= '9'); } + +// This should always succeed since it follows a call to parse_number. +decimal parse_decimal(const char *&p) noexcept { + decimal answer; + answer.num_digits = 0; + answer.decimal_point = 0; + answer.truncated = false; + answer.negative = (*p == '-'); + if ((*p == '-') || (*p == '+')) { + ++p; + } + + while (*p == '0') { + ++p; + } + while (is_integer(*p)) { + if (answer.num_digits < max_digits) { + answer.digits[answer.num_digits] = uint8_t(*p - '0'); + } + answer.num_digits++; + ++p; + } + if (*p == '.') { + ++p; + const char *first_after_period = p; + // if we have not yet encountered a zero, we have to skip it as well + if (answer.num_digits == 0) { + // skip zeros + while (*p == '0') { + ++p; + } + } + while (is_integer(*p)) { + if (answer.num_digits < max_digits) { + answer.digits[answer.num_digits] = uint8_t(*p - '0'); + } + answer.num_digits++; + ++p; + } + answer.decimal_point = int32_t(first_after_period - p); + } + if(answer.num_digits > 0) { + const char *preverse = p - 1; + int32_t trailing_zeros = 0; + while ((*preverse == '0') || (*preverse == '.')) { + if(*preverse == '0') { trailing_zeros++; }; + --preverse; + } + answer.decimal_point += int32_t(answer.num_digits); + answer.num_digits -= uint32_t(trailing_zeros); + } + if(answer.num_digits > max_digits ) { + answer.num_digits = max_digits; + answer.truncated = true; + } + if (('e' == *p) || ('E' == *p)) { + ++p; + bool neg_exp = false; + if ('-' == *p) { + neg_exp = true; + ++p; + } else if ('+' == *p) { + ++p; + } + int32_t exp_number = 0; // exponential part + while (is_integer(*p)) { + uint8_t digit = uint8_t(*p - '0'); + if (exp_number < 0x10000) { + exp_number = 10 * exp_number + digit; + } + ++p; + } + answer.decimal_point += (neg_exp ? -exp_number : exp_number); + } + return answer; +} + +namespace { + +// remove all final zeroes +inline void trim(decimal &h) { + while ((h.num_digits > 0) && (h.digits[h.num_digits - 1] == 0)) { + h.num_digits--; + } +} + +uint32_t number_of_digits_decimal_left_shift(decimal &h, uint32_t shift) { + shift &= 63; + const static uint16_t number_of_digits_decimal_left_shift_table[65] = { + 0x0000, 0x0800, 0x0801, 0x0803, 0x1006, 0x1009, 0x100D, 0x1812, 0x1817, + 0x181D, 0x2024, 0x202B, 0x2033, 0x203C, 0x2846, 0x2850, 0x285B, 0x3067, + 0x3073, 0x3080, 0x388E, 0x389C, 0x38AB, 0x38BB, 0x40CC, 0x40DD, 0x40EF, + 0x4902, 0x4915, 0x4929, 0x513E, 0x5153, 0x5169, 0x5180, 0x5998, 0x59B0, + 0x59C9, 0x61E3, 0x61FD, 0x6218, 0x6A34, 0x6A50, 0x6A6D, 0x6A8B, 0x72AA, + 0x72C9, 0x72E9, 0x7B0A, 0x7B2B, 0x7B4D, 0x8370, 0x8393, 0x83B7, 0x83DC, + 0x8C02, 0x8C28, 0x8C4F, 0x9477, 0x949F, 0x94C8, 0x9CF2, 0x051C, 0x051C, + 0x051C, 0x051C, + }; + uint32_t x_a = number_of_digits_decimal_left_shift_table[shift]; + uint32_t x_b = number_of_digits_decimal_left_shift_table[shift + 1]; + uint32_t num_new_digits = x_a >> 11; + uint32_t pow5_a = 0x7FF & x_a; + uint32_t pow5_b = 0x7FF & x_b; + const static uint8_t + number_of_digits_decimal_left_shift_table_powers_of_5[0x051C] = { + 5, 2, 5, 1, 2, 5, 6, 2, 5, 3, 1, 2, 5, 1, 5, 6, 2, 5, 7, 8, 1, 2, 5, + 3, 9, 0, 6, 2, 5, 1, 9, 5, 3, 1, 2, 5, 9, 7, 6, 5, 6, 2, 5, 4, 8, 8, + 2, 8, 1, 2, 5, 2, 4, 4, 1, 4, 0, 6, 2, 5, 1, 2, 2, 0, 7, 0, 3, 1, 2, + 5, 6, 1, 0, 3, 5, 1, 5, 6, 2, 5, 3, 0, 5, 1, 7, 5, 7, 8, 1, 2, 5, 1, + 5, 2, 5, 8, 7, 8, 9, 0, 6, 2, 5, 7, 6, 2, 9, 3, 9, 4, 5, 3, 1, 2, 5, + 3, 8, 1, 4, 6, 9, 7, 2, 6, 5, 6, 2, 5, 1, 9, 0, 7, 3, 4, 8, 6, 3, 2, + 8, 1, 2, 5, 9, 5, 3, 6, 7, 4, 3, 1, 6, 4, 0, 6, 2, 5, 4, 7, 6, 8, 3, + 7, 1, 5, 8, 2, 0, 3, 1, 2, 5, 2, 3, 8, 4, 1, 8, 5, 7, 9, 1, 0, 1, 5, + 6, 2, 5, 1, 1, 9, 2, 0, 9, 2, 8, 9, 5, 5, 0, 7, 8, 1, 2, 5, 5, 9, 6, + 0, 4, 6, 4, 4, 7, 7, 5, 3, 9, 0, 6, 2, 5, 2, 9, 8, 0, 2, 3, 2, 2, 3, + 8, 7, 6, 9, 5, 3, 1, 2, 5, 1, 4, 9, 0, 1, 1, 6, 1, 1, 9, 3, 8, 4, 7, + 6, 5, 6, 2, 5, 7, 4, 5, 0, 5, 8, 0, 5, 9, 6, 9, 2, 3, 8, 2, 8, 1, 2, + 5, 3, 7, 2, 5, 2, 9, 0, 2, 9, 8, 4, 6, 1, 9, 1, 4, 0, 6, 2, 5, 1, 8, + 6, 2, 6, 4, 5, 1, 4, 9, 2, 3, 0, 9, 5, 7, 0, 3, 1, 2, 5, 9, 3, 1, 3, + 2, 2, 5, 7, 4, 6, 1, 5, 4, 7, 8, 5, 1, 5, 6, 2, 5, 4, 6, 5, 6, 6, 1, + 2, 8, 7, 3, 0, 7, 7, 3, 9, 2, 5, 7, 8, 1, 2, 5, 2, 3, 2, 8, 3, 0, 6, + 4, 3, 6, 5, 3, 8, 6, 9, 6, 2, 8, 9, 0, 6, 2, 5, 1, 1, 6, 4, 1, 5, 3, + 2, 1, 8, 2, 6, 9, 3, 4, 8, 1, 4, 4, 5, 3, 1, 2, 5, 5, 8, 2, 0, 7, 6, + 6, 0, 9, 1, 3, 4, 6, 7, 4, 0, 7, 2, 2, 6, 5, 6, 2, 5, 2, 9, 1, 0, 3, + 8, 3, 0, 4, 5, 6, 7, 3, 3, 7, 0, 3, 6, 1, 3, 2, 8, 1, 2, 5, 1, 4, 5, + 5, 1, 9, 1, 5, 2, 2, 8, 3, 6, 6, 8, 5, 1, 8, 0, 6, 6, 4, 0, 6, 2, 5, + 7, 2, 7, 5, 9, 5, 7, 6, 1, 4, 1, 8, 3, 4, 2, 5, 9, 0, 3, 3, 2, 0, 3, + 1, 2, 5, 3, 6, 3, 7, 9, 7, 8, 8, 0, 7, 0, 9, 1, 7, 1, 2, 9, 5, 1, 6, + 6, 0, 1, 5, 6, 2, 5, 1, 8, 1, 8, 9, 8, 9, 4, 0, 3, 5, 4, 5, 8, 5, 6, + 4, 7, 5, 8, 3, 0, 0, 7, 8, 1, 2, 5, 9, 0, 9, 4, 9, 4, 7, 0, 1, 7, 7, + 2, 9, 2, 8, 2, 3, 7, 9, 1, 5, 0, 3, 9, 0, 6, 2, 5, 4, 5, 4, 7, 4, 7, + 3, 5, 0, 8, 8, 6, 4, 6, 4, 1, 1, 8, 9, 5, 7, 5, 1, 9, 5, 3, 1, 2, 5, + 2, 2, 7, 3, 7, 3, 6, 7, 5, 4, 4, 3, 2, 3, 2, 0, 5, 9, 4, 7, 8, 7, 5, + 9, 7, 6, 5, 6, 2, 5, 1, 1, 3, 6, 8, 6, 8, 3, 7, 7, 2, 1, 6, 1, 6, 0, + 2, 9, 7, 3, 9, 3, 7, 9, 8, 8, 2, 8, 1, 2, 5, 5, 6, 8, 4, 3, 4, 1, 8, + 8, 6, 0, 8, 0, 8, 0, 1, 4, 8, 6, 9, 6, 8, 9, 9, 4, 1, 4, 0, 6, 2, 5, + 2, 8, 4, 2, 1, 7, 0, 9, 4, 3, 0, 4, 0, 4, 0, 0, 7, 4, 3, 4, 8, 4, 4, + 9, 7, 0, 7, 0, 3, 1, 2, 5, 1, 4, 2, 1, 0, 8, 5, 4, 7, 1, 5, 2, 0, 2, + 0, 0, 3, 7, 1, 7, 4, 2, 2, 4, 8, 5, 3, 5, 1, 5, 6, 2, 5, 7, 1, 0, 5, + 4, 2, 7, 3, 5, 7, 6, 0, 1, 0, 0, 1, 8, 5, 8, 7, 1, 1, 2, 4, 2, 6, 7, + 5, 7, 8, 1, 2, 5, 3, 5, 5, 2, 7, 1, 3, 6, 7, 8, 8, 0, 0, 5, 0, 0, 9, + 2, 9, 3, 5, 5, 6, 2, 1, 3, 3, 7, 8, 9, 0, 6, 2, 5, 1, 7, 7, 6, 3, 5, + 6, 8, 3, 9, 4, 0, 0, 2, 5, 0, 4, 6, 4, 6, 7, 7, 8, 1, 0, 6, 6, 8, 9, + 4, 5, 3, 1, 2, 5, 8, 8, 8, 1, 7, 8, 4, 1, 9, 7, 0, 0, 1, 2, 5, 2, 3, + 2, 3, 3, 8, 9, 0, 5, 3, 3, 4, 4, 7, 2, 6, 5, 6, 2, 5, 4, 4, 4, 0, 8, + 9, 2, 0, 9, 8, 5, 0, 0, 6, 2, 6, 1, 6, 1, 6, 9, 4, 5, 2, 6, 6, 7, 2, + 3, 6, 3, 2, 8, 1, 2, 5, 2, 2, 2, 0, 4, 4, 6, 0, 4, 9, 2, 5, 0, 3, 1, + 3, 0, 8, 0, 8, 4, 7, 2, 6, 3, 3, 3, 6, 1, 8, 1, 6, 4, 0, 6, 2, 5, 1, + 1, 1, 0, 2, 2, 3, 0, 2, 4, 6, 2, 5, 1, 5, 6, 5, 4, 0, 4, 2, 3, 6, 3, + 1, 6, 6, 8, 0, 9, 0, 8, 2, 0, 3, 1, 2, 5, 5, 5, 5, 1, 1, 1, 5, 1, 2, + 3, 1, 2, 5, 7, 8, 2, 7, 0, 2, 1, 1, 8, 1, 5, 8, 3, 4, 0, 4, 5, 4, 1, + 0, 1, 5, 6, 2, 5, 2, 7, 7, 5, 5, 5, 7, 5, 6, 1, 5, 6, 2, 8, 9, 1, 3, + 5, 1, 0, 5, 9, 0, 7, 9, 1, 7, 0, 2, 2, 7, 0, 5, 0, 7, 8, 1, 2, 5, 1, + 3, 8, 7, 7, 7, 8, 7, 8, 0, 7, 8, 1, 4, 4, 5, 6, 7, 5, 5, 2, 9, 5, 3, + 9, 5, 8, 5, 1, 1, 3, 5, 2, 5, 3, 9, 0, 6, 2, 5, 6, 9, 3, 8, 8, 9, 3, + 9, 0, 3, 9, 0, 7, 2, 2, 8, 3, 7, 7, 6, 4, 7, 6, 9, 7, 9, 2, 5, 5, 6, + 7, 6, 2, 6, 9, 5, 3, 1, 2, 5, 3, 4, 6, 9, 4, 4, 6, 9, 5, 1, 9, 5, 3, + 6, 1, 4, 1, 8, 8, 8, 2, 3, 8, 4, 8, 9, 6, 2, 7, 8, 3, 8, 1, 3, 4, 7, + 6, 5, 6, 2, 5, 1, 7, 3, 4, 7, 2, 3, 4, 7, 5, 9, 7, 6, 8, 0, 7, 0, 9, + 4, 4, 1, 1, 9, 2, 4, 4, 8, 1, 3, 9, 1, 9, 0, 6, 7, 3, 8, 2, 8, 1, 2, + 5, 8, 6, 7, 3, 6, 1, 7, 3, 7, 9, 8, 8, 4, 0, 3, 5, 4, 7, 2, 0, 5, 9, + 6, 2, 2, 4, 0, 6, 9, 5, 9, 5, 3, 3, 6, 9, 1, 4, 0, 6, 2, 5, + }; + const uint8_t *pow5 = + &number_of_digits_decimal_left_shift_table_powers_of_5[pow5_a]; + uint32_t i = 0; + uint32_t n = pow5_b - pow5_a; + for (; i < n; i++) { + if (i >= h.num_digits) { + return num_new_digits - 1; + } else if (h.digits[i] == pow5[i]) { + continue; + } else if (h.digits[i] < pow5[i]) { + return num_new_digits - 1; + } else { + return num_new_digits; + } + } + return num_new_digits; +} + +} // end of anonymous namespace + +uint64_t round(decimal &h) { + if ((h.num_digits == 0) || (h.decimal_point < 0)) { + return 0; + } else if (h.decimal_point > 18) { + return UINT64_MAX; + } + // at this point, we know that h.decimal_point >= 0 + uint32_t dp = uint32_t(h.decimal_point); + uint64_t n = 0; + for (uint32_t i = 0; i < dp; i++) { + n = (10 * n) + ((i < h.num_digits) ? h.digits[i] : 0); + } + bool round_up = false; + if (dp < h.num_digits) { + round_up = h.digits[dp] >= 5; // normally, we round up + // but we may need to round to even! + if ((h.digits[dp] == 5) && (dp + 1 == h.num_digits)) { + round_up = h.truncated || ((dp > 0) && (1 & h.digits[dp - 1])); + } + } + if (round_up) { + n++; + } + return n; +} + +// computes h * 2^-shift +void decimal_left_shift(decimal &h, uint32_t shift) { + if (h.num_digits == 0) { + return; + } + uint32_t num_new_digits = number_of_digits_decimal_left_shift(h, shift); + int32_t read_index = int32_t(h.num_digits - 1); + uint32_t write_index = h.num_digits - 1 + num_new_digits; + uint64_t n = 0; + + while (read_index >= 0) { + n += uint64_t(h.digits[read_index]) << shift; + uint64_t quotient = n / 10; + uint64_t remainder = n - (10 * quotient); + if (write_index < max_digits) { + h.digits[write_index] = uint8_t(remainder); + } else if (remainder > 0) { + h.truncated = true; + } + n = quotient; + write_index--; + read_index--; + } + while (n > 0) { + uint64_t quotient = n / 10; + uint64_t remainder = n - (10 * quotient); + if (write_index < max_digits) { + h.digits[write_index] = uint8_t(remainder); + } else if (remainder > 0) { + h.truncated = true; + } + n = quotient; + write_index--; + } + h.num_digits += num_new_digits; + if (h.num_digits > max_digits) { + h.num_digits = max_digits; + } + h.decimal_point += int32_t(num_new_digits); + trim(h); +} + +// computes h * 2^shift +void decimal_right_shift(decimal &h, uint32_t shift) { + uint32_t read_index = 0; + uint32_t write_index = 0; + + uint64_t n = 0; + + while ((n >> shift) == 0) { + if (read_index < h.num_digits) { + n = (10 * n) + h.digits[read_index++]; + } else if (n == 0) { + return; + } else { + while ((n >> shift) == 0) { + n = 10 * n; + read_index++; + } + break; + } + } + h.decimal_point -= int32_t(read_index - 1); + if (h.decimal_point < -decimal_point_range) { // it is zero + h.num_digits = 0; + h.decimal_point = 0; + h.negative = false; + h.truncated = false; + return; + } + uint64_t mask = (uint64_t(1) << shift) - 1; + while (read_index < h.num_digits) { + uint8_t new_digit = uint8_t(n >> shift); + n = (10 * (n & mask)) + h.digits[read_index++]; + h.digits[write_index++] = new_digit; + } + while (n > 0) { + uint8_t new_digit = uint8_t(n >> shift); + n = 10 * (n & mask); + if (write_index < max_digits) { + h.digits[write_index++] = new_digit; + } else if (new_digit > 0) { + h.truncated = true; + } + } + h.num_digits = write_index; + trim(h); +} + +template adjusted_mantissa compute_float(decimal &d) { + adjusted_mantissa answer; + if (d.num_digits == 0) { + // should be zero + answer.power2 = 0; + answer.mantissa = 0; + return answer; + } + // At this point, going further, we can assume that d.num_digits > 0. + // We want to guard against excessive decimal point values because + // they can result in long running times. Indeed, we do + // shifts by at most 60 bits. We have that log(10**400)/log(2**60) ~= 22 + // which is fine, but log(10**299995)/log(2**60) ~= 16609 which is not + // fine (runs for a long time). + // + if(d.decimal_point < -324) { + // We have something smaller than 1e-324 which is always zero + // in binary64 and binary32. + // It should be zero. + answer.power2 = 0; + answer.mantissa = 0; + return answer; + } else if(d.decimal_point >= 310) { + // We have something at least as large as 0.1e310 which is + // always infinite. + answer.power2 = binary::infinite_power(); + answer.mantissa = 0; + return answer; + } + + static const uint32_t max_shift = 60; + static const uint32_t num_powers = 19; + static const uint8_t powers[19] = { + 0, 3, 6, 9, 13, 16, 19, 23, 26, 29, // + 33, 36, 39, 43, 46, 49, 53, 56, 59, // + }; + int32_t exp2 = 0; + while (d.decimal_point > 0) { + uint32_t n = uint32_t(d.decimal_point); + uint32_t shift = (n < num_powers) ? powers[n] : max_shift; + decimal_right_shift(d, shift); + if (d.decimal_point < -decimal_point_range) { + // should be zero + answer.power2 = 0; + answer.mantissa = 0; + return answer; + } + exp2 += int32_t(shift); + } + // We shift left toward [1/2 ... 1]. + while (d.decimal_point <= 0) { + uint32_t shift; + if (d.decimal_point == 0) { + if (d.digits[0] >= 5) { + break; + } + shift = (d.digits[0] < 2) ? 2 : 1; + } else { + uint32_t n = uint32_t(-d.decimal_point); + shift = (n < num_powers) ? powers[n] : max_shift; + } + decimal_left_shift(d, shift); + if (d.decimal_point > decimal_point_range) { + // we want to get infinity: + answer.power2 = 0xFF; + answer.mantissa = 0; + return answer; + } + exp2 -= int32_t(shift); + } + // We are now in the range [1/2 ... 1] but the binary format uses [1 ... 2]. + exp2--; + constexpr int32_t minimum_exponent = binary::minimum_exponent(); + while ((minimum_exponent + 1) > exp2) { + uint32_t n = uint32_t((minimum_exponent + 1) - exp2); + if (n > max_shift) { + n = max_shift; + } + decimal_right_shift(d, n); + exp2 += int32_t(n); + } + if ((exp2 - minimum_exponent) >= binary::infinite_power()) { + answer.power2 = binary::infinite_power(); + answer.mantissa = 0; + return answer; + } + + const int mantissa_size_in_bits = binary::mantissa_explicit_bits() + 1; + decimal_left_shift(d, mantissa_size_in_bits); + + uint64_t mantissa = round(d); + // It is possible that we have an overflow, in which case we need + // to shift back. + if (mantissa >= (uint64_t(1) << mantissa_size_in_bits)) { + decimal_right_shift(d, 1); + exp2 += 1; + mantissa = round(d); + if ((exp2 - minimum_exponent) >= binary::infinite_power()) { + answer.power2 = binary::infinite_power(); + answer.mantissa = 0; + return answer; + } + } + answer.power2 = exp2 - binary::minimum_exponent(); + if (mantissa < (uint64_t(1) << binary::mantissa_explicit_bits())) { + answer.power2--; + } + answer.mantissa = + mantissa & ((uint64_t(1) << binary::mantissa_explicit_bits()) - 1); + return answer; +} + +template +adjusted_mantissa parse_long_mantissa(const char *first) { + decimal d = parse_decimal(first); + return compute_float(d); +} + +double from_chars(const char *first) noexcept { + bool negative = first[0] == '-'; + if (negative) { + first++; + } + adjusted_mantissa am = parse_long_mantissa>(first); + uint64_t word = am.mantissa; + word |= uint64_t(am.power2) + << binary_format::mantissa_explicit_bits(); + word = negative ? word | (uint64_t(1) << binary_format::sign_index()) + : word; + double value; + std::memcpy(&value, &word, sizeof(double)); + return value; +} + +} // internal +} // simdjson +/* end file src/from_chars.cpp */ +/* begin file src/internal/error_tables.cpp */ + +namespace simdjson { +namespace internal { + + SIMDJSON_DLLIMPORTEXPORT const error_code_info error_codes[] { + { SUCCESS, "No error" }, + { CAPACITY, "This parser can't support a document that big" }, + { MEMALLOC, "Error allocating memory, we're most likely out of memory" }, + { TAPE_ERROR, "The JSON document has an improper structure: missing or superfluous commas, braces, missing keys, etc." }, + { DEPTH_ERROR, "The JSON document was too deep (too many nested objects and arrays)" }, + { STRING_ERROR, "Problem while parsing a string" }, + { T_ATOM_ERROR, "Problem while parsing an atom starting with the letter 't'" }, + { F_ATOM_ERROR, "Problem while parsing an atom starting with the letter 'f'" }, + { N_ATOM_ERROR, "Problem while parsing an atom starting with the letter 'n'" }, + { NUMBER_ERROR, "Problem while parsing a number" }, + { UTF8_ERROR, "The input is not valid UTF-8" }, + { UNINITIALIZED, "Uninitialized" }, + { EMPTY, "Empty: no JSON found" }, + { UNESCAPED_CHARS, "Within strings, some characters must be escaped, we found unescaped characters" }, + { UNCLOSED_STRING, "A string is opened, but never closed." }, + { UNSUPPORTED_ARCHITECTURE, "simdjson does not have an implementation supported by this CPU architecture (perhaps it's a non-SIMD CPU?)." }, + { INCORRECT_TYPE, "The JSON element does not have the requested type." }, + { NUMBER_OUT_OF_RANGE, "The JSON number is too large or too small to fit within the requested type." }, + { INDEX_OUT_OF_BOUNDS, "Attempted to access an element of a JSON array that is beyond its length." }, + { NO_SUCH_FIELD, "The JSON field referenced does not exist in this object." }, + { IO_ERROR, "Error reading the file." }, + { INVALID_JSON_POINTER, "Invalid JSON pointer syntax." }, + { INVALID_URI_FRAGMENT, "Invalid URI fragment syntax." }, + { UNEXPECTED_ERROR, "Unexpected error, consider reporting this problem as you may have found a bug in simdjson" }, + { PARSER_IN_USE, "Cannot parse a new document while a document is still in use." } + }; // error_messages[] + +} // namespace internal +} // namespace simdjson +/* end file src/internal/error_tables.cpp */ +/* begin file src/internal/jsoncharutils_tables.cpp */ + +namespace simdjson { +namespace internal { + +// structural chars here are +// they are { 0x7b } 0x7d : 0x3a [ 0x5b ] 0x5d , 0x2c (and NULL) +// we are also interested in the four whitespace characters +// space 0x20, linefeed 0x0a, horizontal tab 0x09 and carriage return 0x0d + +SIMDJSON_DLLIMPORTEXPORT const bool structural_or_whitespace_negated[256] = { + 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 0, 1, 1, 0, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 1, 1, 1, 1, 1, + + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 0, 1, 0, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, 1, 0, 1, 1, + + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1}; + +SIMDJSON_DLLIMPORTEXPORT const bool structural_or_whitespace[256] = { + 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 1, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 1, 0, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, + 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0}; + +SIMDJSON_DLLIMPORTEXPORT const uint32_t digit_to_val32[886] = { + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0x0, 0x1, 0x2, 0x3, 0x4, 0x5, + 0x6, 0x7, 0x8, 0x9, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xa, + 0xb, 0xc, 0xd, 0xe, 0xf, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xa, 0xb, 0xc, 0xd, 0xe, + 0xf, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0x0, 0x10, 0x20, 0x30, 0x40, 0x50, + 0x60, 0x70, 0x80, 0x90, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xa0, + 0xb0, 0xc0, 0xd0, 0xe0, 0xf0, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xa0, 0xb0, 0xc0, 0xd0, 0xe0, + 0xf0, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0x0, 0x100, 0x200, 0x300, 0x400, 0x500, + 0x600, 0x700, 0x800, 0x900, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xa00, + 0xb00, 0xc00, 0xd00, 0xe00, 0xf00, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xa00, 0xb00, 0xc00, 0xd00, 0xe00, + 0xf00, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0x0, 0x1000, 0x2000, 0x3000, 0x4000, 0x5000, + 0x6000, 0x7000, 0x8000, 0x9000, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xa000, + 0xb000, 0xc000, 0xd000, 0xe000, 0xf000, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xa000, 0xb000, 0xc000, 0xd000, 0xe000, + 0xf000, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, + 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF, 0xFFFFFFFF}; + +} // namespace internal +} // namespace simdjson +/* end file src/internal/jsoncharutils_tables.cpp */ +/* begin file src/internal/numberparsing_tables.cpp */ + +namespace simdjson { +namespace internal { + +// Precomputed powers of ten from 10^0 to 10^22. These +// can be represented exactly using the double type. +SIMDJSON_DLLIMPORTEXPORT const double power_of_ten[] = { + 1e0, 1e1, 1e2, 1e3, 1e4, 1e5, 1e6, 1e7, 1e8, 1e9, 1e10, 1e11, + 1e12, 1e13, 1e14, 1e15, 1e16, 1e17, 1e18, 1e19, 1e20, 1e21, 1e22}; + +/** + * When mapping numbers from decimal to binary, + * we go from w * 10^q to m * 2^p but we have + * 10^q = 5^q * 2^q, so effectively + * we are trying to match + * w * 2^q * 5^q to m * 2^p. Thus the powers of two + * are not a concern since they can be represented + * exactly using the binary notation, only the powers of five + * affect the binary significand. + */ + + +// The truncated powers of five from 5^-342 all the way to 5^308 +// The mantissa is truncated to 128 bits, and +// never rounded up. Uses about 10KB. +SIMDJSON_DLLIMPORTEXPORT const uint64_t power_of_five_128[]= { + 0xeef453d6923bd65a,0x113faa2906a13b3f, + 0x9558b4661b6565f8,0x4ac7ca59a424c507, + 0xbaaee17fa23ebf76,0x5d79bcf00d2df649, + 0xe95a99df8ace6f53,0xf4d82c2c107973dc, + 0x91d8a02bb6c10594,0x79071b9b8a4be869, + 0xb64ec836a47146f9,0x9748e2826cdee284, + 0xe3e27a444d8d98b7,0xfd1b1b2308169b25, + 0x8e6d8c6ab0787f72,0xfe30f0f5e50e20f7, + 0xb208ef855c969f4f,0xbdbd2d335e51a935, + 0xde8b2b66b3bc4723,0xad2c788035e61382, + 0x8b16fb203055ac76,0x4c3bcb5021afcc31, + 0xaddcb9e83c6b1793,0xdf4abe242a1bbf3d, + 0xd953e8624b85dd78,0xd71d6dad34a2af0d, + 0x87d4713d6f33aa6b,0x8672648c40e5ad68, + 0xa9c98d8ccb009506,0x680efdaf511f18c2, + 0xd43bf0effdc0ba48,0x212bd1b2566def2, + 0x84a57695fe98746d,0x14bb630f7604b57, + 0xa5ced43b7e3e9188,0x419ea3bd35385e2d, + 0xcf42894a5dce35ea,0x52064cac828675b9, + 0x818995ce7aa0e1b2,0x7343efebd1940993, + 0xa1ebfb4219491a1f,0x1014ebe6c5f90bf8, + 0xca66fa129f9b60a6,0xd41a26e077774ef6, + 0xfd00b897478238d0,0x8920b098955522b4, + 0x9e20735e8cb16382,0x55b46e5f5d5535b0, + 0xc5a890362fddbc62,0xeb2189f734aa831d, + 0xf712b443bbd52b7b,0xa5e9ec7501d523e4, + 0x9a6bb0aa55653b2d,0x47b233c92125366e, + 0xc1069cd4eabe89f8,0x999ec0bb696e840a, + 0xf148440a256e2c76,0xc00670ea43ca250d, + 0x96cd2a865764dbca,0x380406926a5e5728, + 0xbc807527ed3e12bc,0xc605083704f5ecf2, + 0xeba09271e88d976b,0xf7864a44c633682e, + 0x93445b8731587ea3,0x7ab3ee6afbe0211d, + 0xb8157268fdae9e4c,0x5960ea05bad82964, + 0xe61acf033d1a45df,0x6fb92487298e33bd, + 0x8fd0c16206306bab,0xa5d3b6d479f8e056, + 0xb3c4f1ba87bc8696,0x8f48a4899877186c, + 0xe0b62e2929aba83c,0x331acdabfe94de87, + 0x8c71dcd9ba0b4925,0x9ff0c08b7f1d0b14, + 0xaf8e5410288e1b6f,0x7ecf0ae5ee44dd9, + 0xdb71e91432b1a24a,0xc9e82cd9f69d6150, + 0x892731ac9faf056e,0xbe311c083a225cd2, + 0xab70fe17c79ac6ca,0x6dbd630a48aaf406, + 0xd64d3d9db981787d,0x92cbbccdad5b108, + 0x85f0468293f0eb4e,0x25bbf56008c58ea5, + 0xa76c582338ed2621,0xaf2af2b80af6f24e, + 0xd1476e2c07286faa,0x1af5af660db4aee1, + 0x82cca4db847945ca,0x50d98d9fc890ed4d, + 0xa37fce126597973c,0xe50ff107bab528a0, + 0xcc5fc196fefd7d0c,0x1e53ed49a96272c8, + 0xff77b1fcbebcdc4f,0x25e8e89c13bb0f7a, + 0x9faacf3df73609b1,0x77b191618c54e9ac, + 0xc795830d75038c1d,0xd59df5b9ef6a2417, + 0xf97ae3d0d2446f25,0x4b0573286b44ad1d, + 0x9becce62836ac577,0x4ee367f9430aec32, + 0xc2e801fb244576d5,0x229c41f793cda73f, + 0xf3a20279ed56d48a,0x6b43527578c1110f, + 0x9845418c345644d6,0x830a13896b78aaa9, + 0xbe5691ef416bd60c,0x23cc986bc656d553, + 0xedec366b11c6cb8f,0x2cbfbe86b7ec8aa8, + 0x94b3a202eb1c3f39,0x7bf7d71432f3d6a9, + 0xb9e08a83a5e34f07,0xdaf5ccd93fb0cc53, + 0xe858ad248f5c22c9,0xd1b3400f8f9cff68, + 0x91376c36d99995be,0x23100809b9c21fa1, + 0xb58547448ffffb2d,0xabd40a0c2832a78a, + 0xe2e69915b3fff9f9,0x16c90c8f323f516c, + 0x8dd01fad907ffc3b,0xae3da7d97f6792e3, + 0xb1442798f49ffb4a,0x99cd11cfdf41779c, + 0xdd95317f31c7fa1d,0x40405643d711d583, + 0x8a7d3eef7f1cfc52,0x482835ea666b2572, + 0xad1c8eab5ee43b66,0xda3243650005eecf, + 0xd863b256369d4a40,0x90bed43e40076a82, + 0x873e4f75e2224e68,0x5a7744a6e804a291, + 0xa90de3535aaae202,0x711515d0a205cb36, + 0xd3515c2831559a83,0xd5a5b44ca873e03, + 0x8412d9991ed58091,0xe858790afe9486c2, + 0xa5178fff668ae0b6,0x626e974dbe39a872, + 0xce5d73ff402d98e3,0xfb0a3d212dc8128f, + 0x80fa687f881c7f8e,0x7ce66634bc9d0b99, + 0xa139029f6a239f72,0x1c1fffc1ebc44e80, + 0xc987434744ac874e,0xa327ffb266b56220, + 0xfbe9141915d7a922,0x4bf1ff9f0062baa8, + 0x9d71ac8fada6c9b5,0x6f773fc3603db4a9, + 0xc4ce17b399107c22,0xcb550fb4384d21d3, + 0xf6019da07f549b2b,0x7e2a53a146606a48, + 0x99c102844f94e0fb,0x2eda7444cbfc426d, + 0xc0314325637a1939,0xfa911155fefb5308, + 0xf03d93eebc589f88,0x793555ab7eba27ca, + 0x96267c7535b763b5,0x4bc1558b2f3458de, + 0xbbb01b9283253ca2,0x9eb1aaedfb016f16, + 0xea9c227723ee8bcb,0x465e15a979c1cadc, + 0x92a1958a7675175f,0xbfacd89ec191ec9, + 0xb749faed14125d36,0xcef980ec671f667b, + 0xe51c79a85916f484,0x82b7e12780e7401a, + 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0x95f83d0a1fb69cd9,0x4abdaf101564f98e, + 0xbb764c4ca7a4440f,0x9d6d1ad41abe37f1, + 0xea53df5fd18d5513,0x84c86189216dc5ed, + 0x92746b9be2f8552c,0x32fd3cf5b4e49bb4, + 0xb7118682dbb66a77,0x3fbc8c33221dc2a1, + 0xe4d5e82392a40515,0xfabaf3feaa5334a, + 0x8f05b1163ba6832d,0x29cb4d87f2a7400e, + 0xb2c71d5bca9023f8,0x743e20e9ef511012, + 0xdf78e4b2bd342cf6,0x914da9246b255416, + 0x8bab8eefb6409c1a,0x1ad089b6c2f7548e, + 0xae9672aba3d0c320,0xa184ac2473b529b1, + 0xda3c0f568cc4f3e8,0xc9e5d72d90a2741e, + 0x8865899617fb1871,0x7e2fa67c7a658892, + 0xaa7eebfb9df9de8d,0xddbb901b98feeab7, + 0xd51ea6fa85785631,0x552a74227f3ea565, + 0x8533285c936b35de,0xd53a88958f87275f, + 0xa67ff273b8460356,0x8a892abaf368f137, + 0xd01fef10a657842c,0x2d2b7569b0432d85, + 0x8213f56a67f6b29b,0x9c3b29620e29fc73, + 0xa298f2c501f45f42,0x8349f3ba91b47b8f, + 0xcb3f2f7642717713,0x241c70a936219a73, + 0xfe0efb53d30dd4d7,0xed238cd383aa0110, + 0x9ec95d1463e8a506,0xf4363804324a40aa, + 0xc67bb4597ce2ce48,0xb143c6053edcd0d5, + 0xf81aa16fdc1b81da,0xdd94b7868e94050a, + 0x9b10a4e5e9913128,0xca7cf2b4191c8326, + 0xc1d4ce1f63f57d72,0xfd1c2f611f63a3f0, + 0xf24a01a73cf2dccf,0xbc633b39673c8cec, + 0x976e41088617ca01,0xd5be0503e085d813, + 0xbd49d14aa79dbc82,0x4b2d8644d8a74e18, + 0xec9c459d51852ba2,0xddf8e7d60ed1219e, + 0x93e1ab8252f33b45,0xcabb90e5c942b503, + 0xb8da1662e7b00a17,0x3d6a751f3b936243, + 0xe7109bfba19c0c9d,0xcc512670a783ad4, + 0x906a617d450187e2,0x27fb2b80668b24c5, + 0xb484f9dc9641e9da,0xb1f9f660802dedf6, + 0xe1a63853bbd26451,0x5e7873f8a0396973, + 0x8d07e33455637eb2,0xdb0b487b6423e1e8, + 0xb049dc016abc5e5f,0x91ce1a9a3d2cda62, + 0xdc5c5301c56b75f7,0x7641a140cc7810fb, + 0x89b9b3e11b6329ba,0xa9e904c87fcb0a9d, + 0xac2820d9623bf429,0x546345fa9fbdcd44, + 0xd732290fbacaf133,0xa97c177947ad4095, + 0x867f59a9d4bed6c0,0x49ed8eabcccc485d, + 0xa81f301449ee8c70,0x5c68f256bfff5a74, + 0xd226fc195c6a2f8c,0x73832eec6fff3111, + 0x83585d8fd9c25db7,0xc831fd53c5ff7eab, + 0xa42e74f3d032f525,0xba3e7ca8b77f5e55, + 0xcd3a1230c43fb26f,0x28ce1bd2e55f35eb, + 0x80444b5e7aa7cf85,0x7980d163cf5b81b3, + 0xa0555e361951c366,0xd7e105bcc332621f, + 0xc86ab5c39fa63440,0x8dd9472bf3fefaa7, + 0xfa856334878fc150,0xb14f98f6f0feb951, + 0x9c935e00d4b9d8d2,0x6ed1bf9a569f33d3, + 0xc3b8358109e84f07,0xa862f80ec4700c8, + 0xf4a642e14c6262c8,0xcd27bb612758c0fa, + 0x98e7e9cccfbd7dbd,0x8038d51cb897789c, + 0xbf21e44003acdd2c,0xe0470a63e6bd56c3, + 0xeeea5d5004981478,0x1858ccfce06cac74, + 0x95527a5202df0ccb,0xf37801e0c43ebc8, + 0xbaa718e68396cffd,0xd30560258f54e6ba, + 0xe950df20247c83fd,0x47c6b82ef32a2069, + 0x91d28b7416cdd27e,0x4cdc331d57fa5441, + 0xb6472e511c81471d,0xe0133fe4adf8e952, + 0xe3d8f9e563a198e5,0x58180fddd97723a6, + 0x8e679c2f5e44ff8f,0x570f09eaa7ea7648,}; + +} // namespace internal +} // namespace simdjson +/* end file src/internal/numberparsing_tables.cpp */ +/* begin file src/internal/simdprune_tables.cpp */ +#if SIMDJSON_IMPLEMENTATION_ARM64 || SIMDJSON_IMPLEMENTATION_HASWELL || SIMDJSON_IMPLEMENTATION_WESTMERE || SIMDJSON_IMPLEMENTATION_PPC64 + +#include + +namespace simdjson { // table modified and copied from +namespace internal { // http://graphics.stanford.edu/~seander/bithacks.html#CountBitsSetTable +SIMDJSON_DLLIMPORTEXPORT const unsigned char BitsSetTable256mul2[256] = { + 0, 2, 2, 4, 2, 4, 4, 6, 2, 4, 4, 6, 4, 6, 6, 8, 2, 4, 4, + 6, 4, 6, 6, 8, 4, 6, 6, 8, 6, 8, 8, 10, 2, 4, 4, 6, 4, 6, + 6, 8, 4, 6, 6, 8, 6, 8, 8, 10, 4, 6, 6, 8, 6, 8, 8, 10, 6, + 8, 8, 10, 8, 10, 10, 12, 2, 4, 4, 6, 4, 6, 6, 8, 4, 6, 6, 8, + 6, 8, 8, 10, 4, 6, 6, 8, 6, 8, 8, 10, 6, 8, 8, 10, 8, 10, 10, + 12, 4, 6, 6, 8, 6, 8, 8, 10, 6, 8, 8, 10, 8, 10, 10, 12, 6, 8, + 8, 10, 8, 10, 10, 12, 8, 10, 10, 12, 10, 12, 12, 14, 2, 4, 4, 6, 4, + 6, 6, 8, 4, 6, 6, 8, 6, 8, 8, 10, 4, 6, 6, 8, 6, 8, 8, 10, + 6, 8, 8, 10, 8, 10, 10, 12, 4, 6, 6, 8, 6, 8, 8, 10, 6, 8, 8, + 10, 8, 10, 10, 12, 6, 8, 8, 10, 8, 10, 10, 12, 8, 10, 10, 12, 10, 12, + 12, 14, 4, 6, 6, 8, 6, 8, 8, 10, 6, 8, 8, 10, 8, 10, 10, 12, 6, + 8, 8, 10, 8, 10, 10, 12, 8, 10, 10, 12, 10, 12, 12, 14, 6, 8, 8, 10, + 8, 10, 10, 12, 8, 10, 10, 12, 10, 12, 12, 14, 8, 10, 10, 12, 10, 12, 12, + 14, 10, 12, 12, 14, 12, 14, 14, 16}; + +SIMDJSON_DLLIMPORTEXPORT const uint8_t pshufb_combine_table[272] = { + 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09, 0x0a, 0x0b, + 0x0c, 0x0d, 0x0e, 0x0f, 0x00, 0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x08, + 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f, 0xff, 0x00, 0x01, 0x02, 0x03, + 0x04, 0x05, 0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f, 0xff, 0xff, + 0x00, 0x01, 0x02, 0x03, 0x04, 0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, + 0x0f, 0xff, 0xff, 0xff, 0x00, 0x01, 0x02, 0x03, 0x08, 0x09, 0x0a, 0x0b, + 0x0c, 0x0d, 0x0e, 0x0f, 0xff, 0xff, 0xff, 0xff, 0x00, 0x01, 0x02, 0x08, + 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f, 0xff, 0xff, 0xff, 0xff, 0xff, + 0x00, 0x01, 0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, 0x0f, 0xff, 0xff, + 0xff, 0xff, 0xff, 0xff, 0x00, 0x08, 0x09, 0x0a, 0x0b, 0x0c, 0x0d, 0x0e, + 0x0f, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0x08, 0x09, 0x0a, 0x0b, + 0x0c, 0x0d, 0x0e, 0x0f, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, +}; + +// 256 * 8 bytes = 2kB, easily fits in cache. +SIMDJSON_DLLIMPORTEXPORT const uint64_t thintable_epi8[256] = { + 0x0706050403020100, 0x0007060504030201, 0x0007060504030200, + 0x0000070605040302, 0x0007060504030100, 0x0000070605040301, + 0x0000070605040300, 0x0000000706050403, 0x0007060504020100, + 0x0000070605040201, 0x0000070605040200, 0x0000000706050402, + 0x0000070605040100, 0x0000000706050401, 0x0000000706050400, + 0x0000000007060504, 0x0007060503020100, 0x0000070605030201, + 0x0000070605030200, 0x0000000706050302, 0x0000070605030100, + 0x0000000706050301, 0x0000000706050300, 0x0000000007060503, + 0x0000070605020100, 0x0000000706050201, 0x0000000706050200, + 0x0000000007060502, 0x0000000706050100, 0x0000000007060501, + 0x0000000007060500, 0x0000000000070605, 0x0007060403020100, + 0x0000070604030201, 0x0000070604030200, 0x0000000706040302, + 0x0000070604030100, 0x0000000706040301, 0x0000000706040300, + 0x0000000007060403, 0x0000070604020100, 0x0000000706040201, + 0x0000000706040200, 0x0000000007060402, 0x0000000706040100, + 0x0000000007060401, 0x0000000007060400, 0x0000000000070604, + 0x0000070603020100, 0x0000000706030201, 0x0000000706030200, + 0x0000000007060302, 0x0000000706030100, 0x0000000007060301, + 0x0000000007060300, 0x0000000000070603, 0x0000000706020100, + 0x0000000007060201, 0x0000000007060200, 0x0000000000070602, + 0x0000000007060100, 0x0000000000070601, 0x0000000000070600, + 0x0000000000000706, 0x0007050403020100, 0x0000070504030201, + 0x0000070504030200, 0x0000000705040302, 0x0000070504030100, + 0x0000000705040301, 0x0000000705040300, 0x0000000007050403, + 0x0000070504020100, 0x0000000705040201, 0x0000000705040200, + 0x0000000007050402, 0x0000000705040100, 0x0000000007050401, + 0x0000000007050400, 0x0000000000070504, 0x0000070503020100, + 0x0000000705030201, 0x0000000705030200, 0x0000000007050302, + 0x0000000705030100, 0x0000000007050301, 0x0000000007050300, + 0x0000000000070503, 0x0000000705020100, 0x0000000007050201, + 0x0000000007050200, 0x0000000000070502, 0x0000000007050100, + 0x0000000000070501, 0x0000000000070500, 0x0000000000000705, + 0x0000070403020100, 0x0000000704030201, 0x0000000704030200, + 0x0000000007040302, 0x0000000704030100, 0x0000000007040301, + 0x0000000007040300, 0x0000000000070403, 0x0000000704020100, + 0x0000000007040201, 0x0000000007040200, 0x0000000000070402, + 0x0000000007040100, 0x0000000000070401, 0x0000000000070400, + 0x0000000000000704, 0x0000000703020100, 0x0000000007030201, + 0x0000000007030200, 0x0000000000070302, 0x0000000007030100, + 0x0000000000070301, 0x0000000000070300, 0x0000000000000703, + 0x0000000007020100, 0x0000000000070201, 0x0000000000070200, + 0x0000000000000702, 0x0000000000070100, 0x0000000000000701, + 0x0000000000000700, 0x0000000000000007, 0x0006050403020100, + 0x0000060504030201, 0x0000060504030200, 0x0000000605040302, + 0x0000060504030100, 0x0000000605040301, 0x0000000605040300, + 0x0000000006050403, 0x0000060504020100, 0x0000000605040201, + 0x0000000605040200, 0x0000000006050402, 0x0000000605040100, + 0x0000000006050401, 0x0000000006050400, 0x0000000000060504, + 0x0000060503020100, 0x0000000605030201, 0x0000000605030200, + 0x0000000006050302, 0x0000000605030100, 0x0000000006050301, + 0x0000000006050300, 0x0000000000060503, 0x0000000605020100, + 0x0000000006050201, 0x0000000006050200, 0x0000000000060502, + 0x0000000006050100, 0x0000000000060501, 0x0000000000060500, + 0x0000000000000605, 0x0000060403020100, 0x0000000604030201, + 0x0000000604030200, 0x0000000006040302, 0x0000000604030100, + 0x0000000006040301, 0x0000000006040300, 0x0000000000060403, + 0x0000000604020100, 0x0000000006040201, 0x0000000006040200, + 0x0000000000060402, 0x0000000006040100, 0x0000000000060401, + 0x0000000000060400, 0x0000000000000604, 0x0000000603020100, + 0x0000000006030201, 0x0000000006030200, 0x0000000000060302, + 0x0000000006030100, 0x0000000000060301, 0x0000000000060300, + 0x0000000000000603, 0x0000000006020100, 0x0000000000060201, + 0x0000000000060200, 0x0000000000000602, 0x0000000000060100, + 0x0000000000000601, 0x0000000000000600, 0x0000000000000006, + 0x0000050403020100, 0x0000000504030201, 0x0000000504030200, + 0x0000000005040302, 0x0000000504030100, 0x0000000005040301, + 0x0000000005040300, 0x0000000000050403, 0x0000000504020100, + 0x0000000005040201, 0x0000000005040200, 0x0000000000050402, + 0x0000000005040100, 0x0000000000050401, 0x0000000000050400, + 0x0000000000000504, 0x0000000503020100, 0x0000000005030201, + 0x0000000005030200, 0x0000000000050302, 0x0000000005030100, + 0x0000000000050301, 0x0000000000050300, 0x0000000000000503, + 0x0000000005020100, 0x0000000000050201, 0x0000000000050200, + 0x0000000000000502, 0x0000000000050100, 0x0000000000000501, + 0x0000000000000500, 0x0000000000000005, 0x0000000403020100, + 0x0000000004030201, 0x0000000004030200, 0x0000000000040302, + 0x0000000004030100, 0x0000000000040301, 0x0000000000040300, + 0x0000000000000403, 0x0000000004020100, 0x0000000000040201, + 0x0000000000040200, 0x0000000000000402, 0x0000000000040100, + 0x0000000000000401, 0x0000000000000400, 0x0000000000000004, + 0x0000000003020100, 0x0000000000030201, 0x0000000000030200, + 0x0000000000000302, 0x0000000000030100, 0x0000000000000301, + 0x0000000000000300, 0x0000000000000003, 0x0000000000020100, + 0x0000000000000201, 0x0000000000000200, 0x0000000000000002, + 0x0000000000000100, 0x0000000000000001, 0x0000000000000000, + 0x0000000000000000, +}; //static uint64_t thintable_epi8[256] + +} // namespace internal +} // namespace simdjson + +#endif // SIMDJSON_IMPLEMENTATION_ARM64 || SIMDJSON_IMPLEMENTATION_HASWELL || SIMDJSON_IMPLEMENTATION_WESTMERE || SIMDJSON_IMPLEMENTATION_PPC64 +/* end file src/internal/simdprune_tables.cpp */ +/* begin file src/implementation.cpp */ +#include + +namespace simdjson { + +bool implementation::supported_by_runtime_system() const { + uint32_t required_instruction_sets = this->required_instruction_sets(); + uint32_t supported_instruction_sets = internal::detect_supported_architectures(); + return ((supported_instruction_sets & required_instruction_sets) == required_instruction_sets); +} + +namespace internal { + +// Static array of known implementations. We're hoping these get baked into the executable +// without requiring a static initializer. + +#if SIMDJSON_IMPLEMENTATION_HASWELL +const haswell::implementation haswell_singleton{}; +#endif +#if SIMDJSON_IMPLEMENTATION_WESTMERE +const westmere::implementation westmere_singleton{}; +#endif // SIMDJSON_IMPLEMENTATION_WESTMERE +#if SIMDJSON_IMPLEMENTATION_ARM64 +const arm64::implementation arm64_singleton{}; +#endif // SIMDJSON_IMPLEMENTATION_ARM64 +#if SIMDJSON_IMPLEMENTATION_PPC64 +const ppc64::implementation ppc64_singleton{}; +#endif // SIMDJSON_IMPLEMENTATION_PPC64 +#if SIMDJSON_IMPLEMENTATION_FALLBACK +const fallback::implementation fallback_singleton{}; +#endif // SIMDJSON_IMPLEMENTATION_FALLBACK + +/** + * @private Detects best supported implementation on first use, and sets it + */ +class detect_best_supported_implementation_on_first_use final : public implementation { +public: + const std::string &name() const noexcept final { return set_best()->name(); } + const std::string &description() const noexcept final { return set_best()->description(); } + uint32_t required_instruction_sets() const noexcept final { return set_best()->required_instruction_sets(); } + simdjson_warn_unused error_code create_dom_parser_implementation( + size_t capacity, + size_t max_length, + std::unique_ptr& dst + ) const noexcept final { + return set_best()->create_dom_parser_implementation(capacity, max_length, dst); + } + simdjson_warn_unused error_code minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) const noexcept final { + return set_best()->minify(buf, len, dst, dst_len); + } + simdjson_warn_unused bool validate_utf8(const char * buf, size_t len) const noexcept final override { + return set_best()->validate_utf8(buf, len); + } + simdjson_really_inline detect_best_supported_implementation_on_first_use() noexcept : implementation("best_supported_detector", "Detects the best supported implementation and sets it", 0) {} +private: + const implementation *set_best() const noexcept; +}; + +const detect_best_supported_implementation_on_first_use detect_best_supported_implementation_on_first_use_singleton; + +const std::initializer_list available_implementation_pointers { +#if SIMDJSON_IMPLEMENTATION_HASWELL + &haswell_singleton, +#endif +#if SIMDJSON_IMPLEMENTATION_WESTMERE + &westmere_singleton, +#endif +#if SIMDJSON_IMPLEMENTATION_ARM64 + &arm64_singleton, +#endif +#if SIMDJSON_IMPLEMENTATION_PPC64 + &ppc64_singleton, +#endif +#if SIMDJSON_IMPLEMENTATION_FALLBACK + &fallback_singleton, +#endif +}; // available_implementation_pointers + +// So we can return UNSUPPORTED_ARCHITECTURE from the parser when there is no support +class unsupported_implementation final : public implementation { +public: + simdjson_warn_unused error_code create_dom_parser_implementation( + size_t, + size_t, + std::unique_ptr& + ) const noexcept final { + return UNSUPPORTED_ARCHITECTURE; + } + simdjson_warn_unused error_code minify(const uint8_t *, size_t, uint8_t *, size_t &) const noexcept final override { + return UNSUPPORTED_ARCHITECTURE; + } + simdjson_warn_unused bool validate_utf8(const char *, size_t) const noexcept final override { + return false; // Just refuse to validate. Given that we have a fallback implementation + // it seems unlikely that unsupported_implementation will ever be used. If it is used, + // then it will flag all strings as invalid. The alternative is to return an error_code + // from which the user has to figure out whether the string is valid UTF-8... which seems + // like a lot of work just to handle the very unlikely case that we have an unsupported + // implementation. And, when it does happen (that we have an unsupported implementation), + // what are the chances that the programmer has a fallback? Given that *we* provide the + // fallback, it implies that the programmer would need a fallback for our fallback. + } + unsupported_implementation() : implementation("unsupported", "Unsupported CPU (no detected SIMD instructions)", 0) {} +}; + +const unsupported_implementation unsupported_singleton{}; + +size_t available_implementation_list::size() const noexcept { + return internal::available_implementation_pointers.size(); +} +const implementation * const *available_implementation_list::begin() const noexcept { + return internal::available_implementation_pointers.begin(); +} +const implementation * const *available_implementation_list::end() const noexcept { + return internal::available_implementation_pointers.end(); +} +const implementation *available_implementation_list::detect_best_supported() const noexcept { + // They are prelisted in priority order, so we just go down the list + uint32_t supported_instruction_sets = internal::detect_supported_architectures(); + for (const implementation *impl : internal::available_implementation_pointers) { + uint32_t required_instruction_sets = impl->required_instruction_sets(); + if ((supported_instruction_sets & required_instruction_sets) == required_instruction_sets) { return impl; } + } + return &unsupported_singleton; // this should never happen? +} + +const implementation *detect_best_supported_implementation_on_first_use::set_best() const noexcept { + SIMDJSON_PUSH_DISABLE_WARNINGS + SIMDJSON_DISABLE_DEPRECATED_WARNING // Disable CRT_SECURE warning on MSVC: manually verified this is safe + char *force_implementation_name = getenv("SIMDJSON_FORCE_IMPLEMENTATION"); + SIMDJSON_POP_DISABLE_WARNINGS + + if (force_implementation_name) { + auto force_implementation = available_implementations[force_implementation_name]; + if (force_implementation) { + return active_implementation = force_implementation; + } else { + // Note: abort() and stderr usage within the library is forbidden. + return active_implementation = &unsupported_singleton; + } + } + return active_implementation = available_implementations.detect_best_supported(); +} + +} // namespace internal + +SIMDJSON_DLLIMPORTEXPORT const internal::available_implementation_list available_implementations{}; +SIMDJSON_DLLIMPORTEXPORT internal::atomic_ptr active_implementation{&internal::detect_best_supported_implementation_on_first_use_singleton}; + +simdjson_warn_unused error_code minify(const char *buf, size_t len, char *dst, size_t &dst_len) noexcept { + return active_implementation->minify((const uint8_t *)buf, len, (uint8_t *)dst, dst_len); +} +simdjson_warn_unused bool validate_utf8(const char *buf, size_t len) noexcept { + return active_implementation->validate_utf8(buf, len); +} + +const implementation * builtin_implementation() { + static const implementation * builtin_impl = available_implementations[STRINGIFY(SIMDJSON_BUILTIN_IMPLEMENTATION)]; + return builtin_impl; +} + + +} // namespace simdjson +/* end file src/implementation.cpp */ + +#if SIMDJSON_IMPLEMENTATION_ARM64 +/* begin file src/arm64/implementation.cpp */ +/* begin file include/simdjson/arm64/begin.h */ +// redefining SIMDJSON_IMPLEMENTATION to "arm64" +// #define SIMDJSON_IMPLEMENTATION arm64 +/* end file include/simdjson/arm64/begin.h */ + +namespace simdjson { +namespace arm64 { + +simdjson_warn_unused error_code implementation::create_dom_parser_implementation( + size_t capacity, + size_t max_depth, + std::unique_ptr& dst +) const noexcept { + dst.reset( new (std::nothrow) dom_parser_implementation() ); + if (!dst) { return MEMALLOC; } + dst->set_capacity(capacity); + dst->set_max_depth(max_depth); + return SUCCESS; +} + +} // namespace arm64 +} // namespace simdjson + +/* begin file include/simdjson/arm64/end.h */ +#undef arm64 +/* end file include/simdjson/arm64/end.h */ +/* end file src/arm64/implementation.cpp */ +/* begin file src/arm64/dom_parser_implementation.cpp */ +/* begin file include/simdjson/arm64/begin.h */ +// redefining SIMDJSON_IMPLEMENTATION to "arm64" +// #define SIMDJSON_IMPLEMENTATION arm64 +/* end file include/simdjson/arm64/begin.h */ + +// +// Stage 1 +// +namespace simdjson { +namespace arm64 { +namespace { + +using namespace simd; + +struct json_character_block { + static simdjson_really_inline json_character_block classify(const simd::simd8x64& in); + + simdjson_really_inline uint64_t whitespace() const { return _whitespace; } + simdjson_really_inline uint64_t op() const { return _op; } + simdjson_really_inline uint64_t scalar() { return ~(op() | whitespace()); } + + uint64_t _whitespace; + uint64_t _op; +}; + +simdjson_really_inline json_character_block json_character_block::classify(const simd::simd8x64& in) { + // Functional programming causes trouble with Visual Studio. + // Keeping this version in comments since it is much nicer: + // auto v = in.map([&](simd8 chunk) { + // auto nib_lo = chunk & 0xf; + // auto nib_hi = chunk.shr<4>(); + // auto shuf_lo = nib_lo.lookup_16(16, 0, 0, 0, 0, 0, 0, 0, 0, 8, 12, 1, 2, 9, 0, 0); + // auto shuf_hi = nib_hi.lookup_16(8, 0, 18, 4, 0, 1, 0, 1, 0, 0, 0, 3, 2, 1, 0, 0); + // return shuf_lo & shuf_hi; + // }); + const simd8 table1(16, 0, 0, 0, 0, 0, 0, 0, 0, 8, 12, 1, 2, 9, 0, 0); + const simd8 table2(8, 0, 18, 4, 0, 1, 0, 1, 0, 0, 0, 3, 2, 1, 0, 0); + + simd8x64 v( + (in.chunks[0] & 0xf).lookup_16(table1) & (in.chunks[0].shr<4>()).lookup_16(table2), + (in.chunks[1] & 0xf).lookup_16(table1) & (in.chunks[1].shr<4>()).lookup_16(table2), + (in.chunks[2] & 0xf).lookup_16(table1) & (in.chunks[2].shr<4>()).lookup_16(table2), + (in.chunks[3] & 0xf).lookup_16(table1) & (in.chunks[3].shr<4>()).lookup_16(table2) + ); + + + // We compute whitespace and op separately. If the code later only use one or the + // other, given the fact that all functions are aggressively inlined, we can + // hope that useless computations will be omitted. This is namely case when + // minifying (we only need whitespace). *However* if we only need spaces, + // it is likely that we will still compute 'v' above with two lookup_16: one + // could do it a bit cheaper. This is in contrast with the x64 implementations + // where we can, efficiently, do the white space and structural matching + // separately. One reason for this difference is that on ARM NEON, the table + // lookups either zero or leave unchanged the characters exceeding 0xF whereas + // on x64, the equivalent instruction (pshufb) automatically applies a mask, + // ignoring the 4 most significant bits. Thus the x64 implementation is + // optimized differently. This being said, if you use this code strictly + // just for minification (or just to identify the structural characters), + // there is a small untaken optimization opportunity here. We deliberately + // do not pick it up. + + uint64_t op = simd8x64( + v.chunks[0].any_bits_set(0x7), + v.chunks[1].any_bits_set(0x7), + v.chunks[2].any_bits_set(0x7), + v.chunks[3].any_bits_set(0x7) + ).to_bitmask(); + + uint64_t whitespace = simd8x64( + v.chunks[0].any_bits_set(0x18), + v.chunks[1].any_bits_set(0x18), + v.chunks[2].any_bits_set(0x18), + v.chunks[3].any_bits_set(0x18) + ).to_bitmask(); + + return { whitespace, op }; +} + +simdjson_really_inline bool is_ascii(const simd8x64& input) { + simd8 bits = input.reduce_or(); + return bits.max_val() < 0b10000000u; +} + +simdjson_unused simdjson_really_inline simd8 must_be_continuation(const simd8 prev1, const simd8 prev2, const simd8 prev3) { + simd8 is_second_byte = prev1 >= uint8_t(0b11000000u); + simd8 is_third_byte = prev2 >= uint8_t(0b11100000u); + simd8 is_fourth_byte = prev3 >= uint8_t(0b11110000u); + // Use ^ instead of | for is_*_byte, because ^ is commutative, and the caller is using ^ as well. + // This will work fine because we only have to report errors for cases with 0-1 lead bytes. + // Multiple lead bytes implies 2 overlapping multibyte characters, and if that happens, there is + // guaranteed to be at least *one* lead byte that is part of only 1 other multibyte character. + // The error will be detected there. + return is_second_byte ^ is_third_byte ^ is_fourth_byte; +} + +simdjson_really_inline simd8 must_be_2_3_continuation(const simd8 prev2, const simd8 prev3) { + simd8 is_third_byte = prev2 >= uint8_t(0b11100000u); + simd8 is_fourth_byte = prev3 >= uint8_t(0b11110000u); + return is_third_byte ^ is_fourth_byte; +} + +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson + +/* begin file src/generic/stage1/utf8_lookup4_algorithm.h */ +namespace simdjson { +namespace arm64 { +namespace { +namespace utf8_validation { + +using namespace simd; + + simdjson_really_inline simd8 check_special_cases(const simd8 input, const simd8 prev1) { +// Bit 0 = Too Short (lead byte/ASCII followed by lead byte/ASCII) +// Bit 1 = Too Long (ASCII followed by continuation) +// Bit 2 = Overlong 3-byte +// Bit 4 = Surrogate +// Bit 5 = Overlong 2-byte +// Bit 7 = Two Continuations + constexpr const uint8_t TOO_SHORT = 1<<0; // 11______ 0_______ + // 11______ 11______ + constexpr const uint8_t TOO_LONG = 1<<1; // 0_______ 10______ + constexpr const uint8_t OVERLONG_3 = 1<<2; // 11100000 100_____ + constexpr const uint8_t SURROGATE = 1<<4; // 11101101 101_____ + constexpr const uint8_t OVERLONG_2 = 1<<5; // 1100000_ 10______ + constexpr const uint8_t TWO_CONTS = 1<<7; // 10______ 10______ + constexpr const uint8_t TOO_LARGE = 1<<3; // 11110100 1001____ + // 11110100 101_____ + // 11110101 1001____ + // 11110101 101_____ + // 1111011_ 1001____ + // 1111011_ 101_____ + // 11111___ 1001____ + // 11111___ 101_____ + constexpr const uint8_t TOO_LARGE_1000 = 1<<6; + // 11110101 1000____ + // 1111011_ 1000____ + // 11111___ 1000____ + constexpr const uint8_t OVERLONG_4 = 1<<6; // 11110000 1000____ + + const simd8 byte_1_high = prev1.shr<4>().lookup_16( + // 0_______ ________ + TOO_LONG, TOO_LONG, TOO_LONG, TOO_LONG, + TOO_LONG, TOO_LONG, TOO_LONG, TOO_LONG, + // 10______ ________ + TWO_CONTS, TWO_CONTS, TWO_CONTS, TWO_CONTS, + // 1100____ ________ + TOO_SHORT | OVERLONG_2, + // 1101____ ________ + TOO_SHORT, + // 1110____ ________ + TOO_SHORT | OVERLONG_3 | SURROGATE, + // 1111____ ________ + TOO_SHORT | TOO_LARGE | TOO_LARGE_1000 | OVERLONG_4 + ); + constexpr const uint8_t CARRY = TOO_SHORT | TOO_LONG | TWO_CONTS; // These all have ____ in byte 1 . + const simd8 byte_1_low = (prev1 & 0x0F).lookup_16( + // ____0000 ________ + CARRY | OVERLONG_3 | OVERLONG_2 | OVERLONG_4, + // ____0001 ________ + CARRY | OVERLONG_2, + // ____001_ ________ + CARRY, + CARRY, + + // ____0100 ________ + CARRY | TOO_LARGE, + // ____0101 ________ + CARRY | TOO_LARGE | TOO_LARGE_1000, + // ____011_ ________ + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + + // ____1___ ________ + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + // ____1101 ________ + CARRY | TOO_LARGE | TOO_LARGE_1000 | SURROGATE, + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000 + ); + const simd8 byte_2_high = input.shr<4>().lookup_16( + // ________ 0_______ + TOO_SHORT, TOO_SHORT, TOO_SHORT, TOO_SHORT, + TOO_SHORT, TOO_SHORT, TOO_SHORT, TOO_SHORT, + + // ________ 1000____ + TOO_LONG | OVERLONG_2 | TWO_CONTS | OVERLONG_3 | TOO_LARGE_1000 | OVERLONG_4, + // ________ 1001____ + TOO_LONG | OVERLONG_2 | TWO_CONTS | OVERLONG_3 | TOO_LARGE, + // ________ 101_____ + TOO_LONG | OVERLONG_2 | TWO_CONTS | SURROGATE | TOO_LARGE, + TOO_LONG | OVERLONG_2 | TWO_CONTS | SURROGATE | TOO_LARGE, + + // ________ 11______ + TOO_SHORT, TOO_SHORT, TOO_SHORT, TOO_SHORT + ); + return (byte_1_high & byte_1_low & byte_2_high); + } + simdjson_really_inline simd8 check_multibyte_lengths(const simd8 input, + const simd8 prev_input, const simd8 sc) { + simd8 prev2 = input.prev<2>(prev_input); + simd8 prev3 = input.prev<3>(prev_input); + simd8 must23 = simd8(must_be_2_3_continuation(prev2, prev3)); + simd8 must23_80 = must23 & uint8_t(0x80); + return must23_80 ^ sc; + } + + // + // Return nonzero if there are incomplete multibyte characters at the end of the block: + // e.g. if there is a 4-byte character, but it's 3 bytes from the end. + // + simdjson_really_inline simd8 is_incomplete(const simd8 input) { + // If the previous input's last 3 bytes match this, they're too short (they ended at EOF): + // ... 1111____ 111_____ 11______ + static const uint8_t max_array[32] = { + 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 0b11110000u-1, 0b11100000u-1, 0b11000000u-1 + }; + const simd8 max_value(&max_array[sizeof(max_array)-sizeof(simd8)]); + return input.gt_bits(max_value); + } + + struct utf8_checker { + // If this is nonzero, there has been a UTF-8 error. + simd8 error; + // The last input we received + simd8 prev_input_block; + // Whether the last input we received was incomplete (used for ASCII fast path) + simd8 prev_incomplete; + + // + // Check whether the current bytes are valid UTF-8. + // + simdjson_really_inline void check_utf8_bytes(const simd8 input, const simd8 prev_input) { + // Flip prev1...prev3 so we can easily determine if they are 2+, 3+ or 4+ lead bytes + // (2, 3, 4-byte leads become large positive numbers instead of small negative numbers) + simd8 prev1 = input.prev<1>(prev_input); + simd8 sc = check_special_cases(input, prev1); + this->error |= check_multibyte_lengths(input, prev_input, sc); + } + + // The only problem that can happen at EOF is that a multibyte character is too short + // or a byte value too large in the last bytes: check_special_cases only checks for bytes + // too large in the first of two bytes. + simdjson_really_inline void check_eof() { + // If the previous block had incomplete UTF-8 characters at the end, an ASCII block can't + // possibly finish them. + this->error |= this->prev_incomplete; + } + + simdjson_really_inline void check_next_input(const simd8x64& input) { + if(simdjson_likely(is_ascii(input))) { + this->error |= this->prev_incomplete; + } else { + // you might think that a for-loop would work, but under Visual Studio, it is not good enough. + static_assert((simd8x64::NUM_CHUNKS == 2) || (simd8x64::NUM_CHUNKS == 4), + "We support either two or four chunks per 64-byte block."); + if(simd8x64::NUM_CHUNKS == 2) { + this->check_utf8_bytes(input.chunks[0], this->prev_input_block); + this->check_utf8_bytes(input.chunks[1], input.chunks[0]); + } else if(simd8x64::NUM_CHUNKS == 4) { + this->check_utf8_bytes(input.chunks[0], this->prev_input_block); + this->check_utf8_bytes(input.chunks[1], input.chunks[0]); + this->check_utf8_bytes(input.chunks[2], input.chunks[1]); + this->check_utf8_bytes(input.chunks[3], input.chunks[2]); + } + this->prev_incomplete = is_incomplete(input.chunks[simd8x64::NUM_CHUNKS-1]); + this->prev_input_block = input.chunks[simd8x64::NUM_CHUNKS-1]; + + } + } + // do not forget to call check_eof! + simdjson_really_inline error_code errors() { + return this->error.any_bits_set_anywhere() ? error_code::UTF8_ERROR : error_code::SUCCESS; + } + + }; // struct utf8_checker +} // namespace utf8_validation + +using utf8_validation::utf8_checker; + +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson +/* end file src/generic/stage1/utf8_lookup4_algorithm.h */ +/* begin file src/generic/stage1/json_structural_indexer.h */ +// This file contains the common code every implementation uses in stage1 +// It is intended to be included multiple times and compiled multiple times +// We assume the file in which it is included already includes +// "simdjson/stage1.h" (this simplifies amalgation) + +/* begin file src/generic/stage1/buf_block_reader.h */ +namespace simdjson { +namespace arm64 { +namespace { + +// Walks through a buffer in block-sized increments, loading the last part with spaces +template +struct buf_block_reader { +public: + simdjson_really_inline buf_block_reader(const uint8_t *_buf, size_t _len); + simdjson_really_inline size_t block_index(); + simdjson_really_inline bool has_full_block() const; + simdjson_really_inline const uint8_t *full_block() const; + /** + * Get the last block, padded with spaces. + * + * There will always be a last block, with at least 1 byte, unless len == 0 (in which case this + * function fills the buffer with spaces and returns 0. In particular, if len == STEP_SIZE there + * will be 0 full_blocks and 1 remainder block with STEP_SIZE bytes and no spaces for padding. + * + * @return the number of effective characters in the last block. + */ + simdjson_really_inline size_t get_remainder(uint8_t *dst) const; + simdjson_really_inline void advance(); +private: + const uint8_t *buf; + const size_t len; + const size_t lenminusstep; + size_t idx; +}; + +// Routines to print masks and text for debugging bitmask operations +simdjson_unused static char * format_input_text_64(const uint8_t *text) { + static char *buf = (char*)malloc(sizeof(simd8x64) + 1); + for (size_t i=0; i); i++) { + buf[i] = int8_t(text[i]) < ' ' ? '_' : int8_t(text[i]); + } + buf[sizeof(simd8x64)] = '\0'; + return buf; +} + +// Routines to print masks and text for debugging bitmask operations +simdjson_unused static char * format_input_text(const simd8x64& in) { + static char *buf = (char*)malloc(sizeof(simd8x64) + 1); + in.store((uint8_t*)buf); + for (size_t i=0; i); i++) { + if (buf[i] < ' ') { buf[i] = '_'; } + } + buf[sizeof(simd8x64)] = '\0'; + return buf; +} + +simdjson_unused static char * format_mask(uint64_t mask) { + static char *buf = (char*)malloc(64 + 1); + for (size_t i=0; i<64; i++) { + buf[i] = (mask & (size_t(1) << i)) ? 'X' : ' '; + } + buf[64] = '\0'; + return buf; +} + +template +simdjson_really_inline buf_block_reader::buf_block_reader(const uint8_t *_buf, size_t _len) : buf{_buf}, len{_len}, lenminusstep{len < STEP_SIZE ? 0 : len - STEP_SIZE}, idx{0} {} + +template +simdjson_really_inline size_t buf_block_reader::block_index() { return idx; } + +template +simdjson_really_inline bool buf_block_reader::has_full_block() const { + return idx < lenminusstep; +} + +template +simdjson_really_inline const uint8_t *buf_block_reader::full_block() const { + return &buf[idx]; +} + +template +simdjson_really_inline size_t buf_block_reader::get_remainder(uint8_t *dst) const { + if(len == idx) { return 0; } // memcpy(dst, null, 0) will trigger an error with some sanitizers + std::memset(dst, 0x20, STEP_SIZE); // std::memset STEP_SIZE because it's more efficient to write out 8 or 16 bytes at once. + std::memcpy(dst, buf + idx, len - idx); + return len - idx; +} + +template +simdjson_really_inline void buf_block_reader::advance() { + idx += STEP_SIZE; +} + +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson +/* end file src/generic/stage1/buf_block_reader.h */ +/* begin file src/generic/stage1/json_string_scanner.h */ +namespace simdjson { +namespace arm64 { +namespace { +namespace stage1 { + +struct json_string_block { + // Escaped characters (characters following an escape() character) + simdjson_really_inline uint64_t escaped() const { return _escaped; } + // Escape characters (backslashes that are not escaped--i.e. in \\, includes only the first \) + simdjson_really_inline uint64_t escape() const { return _backslash & ~_escaped; } + // Real (non-backslashed) quotes + simdjson_really_inline uint64_t quote() const { return _quote; } + // Start quotes of strings + simdjson_really_inline uint64_t string_start() const { return _quote & _in_string; } + // End quotes of strings + simdjson_really_inline uint64_t string_end() const { return _quote & ~_in_string; } + // Only characters inside the string (not including the quotes) + simdjson_really_inline uint64_t string_content() const { return _in_string & ~_quote; } + // Return a mask of whether the given characters are inside a string (only works on non-quotes) + simdjson_really_inline uint64_t non_quote_inside_string(uint64_t mask) const { return mask & _in_string; } + // Return a mask of whether the given characters are inside a string (only works on non-quotes) + simdjson_really_inline uint64_t non_quote_outside_string(uint64_t mask) const { return mask & ~_in_string; } + // Tail of string (everything except the start quote) + simdjson_really_inline uint64_t string_tail() const { return _in_string ^ _quote; } + + // backslash characters + uint64_t _backslash; + // escaped characters (backslashed--does not include the hex characters after \u) + uint64_t _escaped; + // real quotes (non-backslashed ones) + uint64_t _quote; + // string characters (includes start quote but not end quote) + uint64_t _in_string; +}; + +// Scans blocks for string characters, storing the state necessary to do so +class json_string_scanner { +public: + simdjson_really_inline json_string_block next(const simd::simd8x64& in); + // Returns either UNCLOSED_STRING or SUCCESS + simdjson_really_inline error_code finish(); + +private: + // Intended to be defined by the implementation + simdjson_really_inline uint64_t find_escaped(uint64_t escape); + simdjson_really_inline uint64_t find_escaped_branchless(uint64_t escape); + + // Whether the last iteration was still inside a string (all 1's = true, all 0's = false). + uint64_t prev_in_string = 0ULL; + // Whether the first character of the next iteration is escaped. + uint64_t prev_escaped = 0ULL; +}; + +// +// Finds escaped characters (characters following \). +// +// Handles runs of backslashes like \\\" and \\\\" correctly (yielding 0101 and 01010, respectively). +// +// Does this by: +// - Shift the escape mask to get potentially escaped characters (characters after backslashes). +// - Mask escaped sequences that start on *even* bits with 1010101010 (odd bits are escaped, even bits are not) +// - Mask escaped sequences that start on *odd* bits with 0101010101 (even bits are escaped, odd bits are not) +// +// To distinguish between escaped sequences starting on even/odd bits, it finds the start of all +// escape sequences, filters out the ones that start on even bits, and adds that to the mask of +// escape sequences. This causes the addition to clear out the sequences starting on odd bits (since +// the start bit causes a carry), and leaves even-bit sequences alone. +// +// Example: +// +// text | \\\ | \\\"\\\" \\\" \\"\\" | +// escape | xxx | xx xxx xxx xx xx | Removed overflow backslash; will | it into follows_escape +// odd_starts | x | x x x | escape & ~even_bits & ~follows_escape +// even_seq | c| cxxx c xx c | c = carry bit -- will be masked out later +// invert_mask | | cxxx c xx c| even_seq << 1 +// follows_escape | xx | x xx xxx xxx xx xx | Includes overflow bit +// escaped | x | x x x x x x x x | +// desired | x | x x x x x x x x | +// text | \\\ | \\\"\\\" \\\" \\"\\" | +// +simdjson_really_inline uint64_t json_string_scanner::find_escaped_branchless(uint64_t backslash) { + // If there was overflow, pretend the first character isn't a backslash + backslash &= ~prev_escaped; + uint64_t follows_escape = backslash << 1 | prev_escaped; + + // Get sequences starting on even bits by clearing out the odd series using + + const uint64_t even_bits = 0x5555555555555555ULL; + uint64_t odd_sequence_starts = backslash & ~even_bits & ~follows_escape; + uint64_t sequences_starting_on_even_bits; + prev_escaped = add_overflow(odd_sequence_starts, backslash, &sequences_starting_on_even_bits); + uint64_t invert_mask = sequences_starting_on_even_bits << 1; // The mask we want to return is the *escaped* bits, not escapes. + + // Mask every other backslashed character as an escaped character + // Flip the mask for sequences that start on even bits, to correct them + return (even_bits ^ invert_mask) & follows_escape; +} + +// +// Return a mask of all string characters plus end quotes. +// +// prev_escaped is overflow saying whether the next character is escaped. +// prev_in_string is overflow saying whether we're still in a string. +// +// Backslash sequences outside of quotes will be detected in stage 2. +// +simdjson_really_inline json_string_block json_string_scanner::next(const simd::simd8x64& in) { + const uint64_t backslash = in.eq('\\'); + const uint64_t escaped = find_escaped(backslash); + const uint64_t quote = in.eq('"') & ~escaped; + + // + // prefix_xor flips on bits inside the string (and flips off the end quote). + // + // Then we xor with prev_in_string: if we were in a string already, its effect is flipped + // (characters inside strings are outside, and characters outside strings are inside). + // + const uint64_t in_string = prefix_xor(quote) ^ prev_in_string; + + // + // Check if we're still in a string at the end of the box so the next block will know + // + // right shift of a signed value expected to be well-defined and standard + // compliant as of C++20, John Regher from Utah U. says this is fine code + // + prev_in_string = uint64_t(static_cast(in_string) >> 63); + + // Use ^ to turn the beginning quote off, and the end quote on. + return { + backslash, + escaped, + quote, + in_string + }; +} + +simdjson_really_inline error_code json_string_scanner::finish() { + if (prev_in_string) { + return UNCLOSED_STRING; + } + return SUCCESS; +} + +} // namespace stage1 +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson +/* end file src/generic/stage1/json_string_scanner.h */ +/* begin file src/generic/stage1/json_scanner.h */ +namespace simdjson { +namespace arm64 { +namespace { +namespace stage1 { + +/** + * A block of scanned json, with information on operators and scalars. + * + * We seek to identify pseudo-structural characters. Anything that is inside + * a string must be omitted (hence & ~_string.string_tail()). + * Otherwise, pseudo-structural characters come in two forms. + * 1. We have the structural characters ([,],{,},:, comma). The + * term 'structural character' is from the JSON RFC. + * 2. We have the 'scalar pseudo-structural characters'. + * Scalars are quotes, and any character except structural characters and white space. + * + * To identify the scalar pseudo-structural characters, we must look at what comes + * before them: it must be a space, a quote or a structural characters. + * Starting with simdjson v0.3, we identify them by + * negation: we identify everything that is followed by a non-quote scalar, + * and we negate that. Whatever remains must be a 'scalar pseudo-structural character'. + */ +struct json_block { +public: + /** + * The start of structurals. + * In simdjson prior to v0.3, these were called the pseudo-structural characters. + **/ + simdjson_really_inline uint64_t structural_start() { return potential_structural_start() & ~_string.string_tail(); } + /** All JSON whitespace (i.e. not in a string) */ + simdjson_really_inline uint64_t whitespace() { return non_quote_outside_string(_characters.whitespace()); } + + // Helpers + + /** Whether the given characters are inside a string (only works on non-quotes) */ + simdjson_really_inline uint64_t non_quote_inside_string(uint64_t mask) { return _string.non_quote_inside_string(mask); } + /** Whether the given characters are outside a string (only works on non-quotes) */ + simdjson_really_inline uint64_t non_quote_outside_string(uint64_t mask) { return _string.non_quote_outside_string(mask); } + + // string and escape characters + json_string_block _string; + // whitespace, structural characters ('operators'), scalars + json_character_block _characters; + // whether the previous character was a scalar + uint64_t _follows_potential_nonquote_scalar; +private: + // Potential structurals (i.e. disregarding strings) + + /** + * structural elements ([,],{,},:, comma) plus scalar starts like 123, true and "abc". + * They may reside inside a string. + **/ + simdjson_really_inline uint64_t potential_structural_start() { return _characters.op() | potential_scalar_start(); } + /** + * The start of non-operator runs, like 123, true and "abc". + * It main reside inside a string. + **/ + simdjson_really_inline uint64_t potential_scalar_start() { + // The term "scalar" refers to anything except structural characters and white space + // (so letters, numbers, quotes). + // Whenever it is preceded by something that is not a structural element ({,},[,],:, ") nor a white-space + // then we know that it is irrelevant structurally. + return _characters.scalar() & ~follows_potential_scalar(); + } + /** + * Whether the given character is immediately after a non-operator like 123, true. + * The characters following a quote are not included. + */ + simdjson_really_inline uint64_t follows_potential_scalar() { + // _follows_potential_nonquote_scalar: is defined as marking any character that follows a character + // that is not a structural element ({,},[,],:, comma) nor a quote (") and that is not a + // white space. + // It is understood that within quoted region, anything at all could be marked (irrelevant). + return _follows_potential_nonquote_scalar; + } +}; + +/** + * Scans JSON for important bits: structural characters or 'operators', strings, and scalars. + * + * The scanner starts by calculating two distinct things: + * - string characters (taking \" into account) + * - structural characters or 'operators' ([]{},:, comma) + * and scalars (runs of non-operators like 123, true and "abc") + * + * To minimize data dependency (a key component of the scanner's speed), it finds these in parallel: + * in particular, the operator/scalar bit will find plenty of things that are actually part of + * strings. When we're done, json_block will fuse the two together by masking out tokens that are + * part of a string. + */ +class json_scanner { +public: + json_scanner() {} + simdjson_really_inline json_block next(const simd::simd8x64& in); + // Returns either UNCLOSED_STRING or SUCCESS + simdjson_really_inline error_code finish(); + +private: + // Whether the last character of the previous iteration is part of a scalar token + // (anything except whitespace or a structural character/'operator'). + uint64_t prev_scalar = 0ULL; + json_string_scanner string_scanner{}; +}; + + +// +// Check if the current character immediately follows a matching character. +// +// For example, this checks for quotes with backslashes in front of them: +// +// const uint64_t backslashed_quote = in.eq('"') & immediately_follows(in.eq('\'), prev_backslash); +// +simdjson_really_inline uint64_t follows(const uint64_t match, uint64_t &overflow) { + const uint64_t result = match << 1 | overflow; + overflow = match >> 63; + return result; +} + +simdjson_really_inline json_block json_scanner::next(const simd::simd8x64& in) { + json_string_block strings = string_scanner.next(in); + // identifies the white-space and the structurat characters + json_character_block characters = json_character_block::classify(in); + // The term "scalar" refers to anything except structural characters and white space + // (so letters, numbers, quotes). + // We want follows_scalar to mark anything that follows a non-quote scalar (so letters and numbers). + // + // A terminal quote should either be followed by a structural character (comma, brace, bracket, colon) + // or nothing. However, we still want ' "a string"true ' to mark the 't' of 'true' as a potential + // pseudo-structural character just like we would if we had ' "a string" true '; otherwise we + // may need to add an extra check when parsing strings. + // + // Performance: there are many ways to skin this cat. + const uint64_t nonquote_scalar = characters.scalar() & ~strings.quote(); + uint64_t follows_nonquote_scalar = follows(nonquote_scalar, prev_scalar); + return { + strings, + characters, + follows_nonquote_scalar + }; +} + +simdjson_really_inline error_code json_scanner::finish() { + return string_scanner.finish(); +} + +} // namespace stage1 +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson +/* end file src/generic/stage1/json_scanner.h */ +/* begin file src/generic/stage1/json_minifier.h */ +// This file contains the common code every implementation uses in stage1 +// It is intended to be included multiple times and compiled multiple times +// We assume the file in which it is included already includes +// "simdjson/stage1.h" (this simplifies amalgation) + +namespace simdjson { +namespace arm64 { +namespace { +namespace stage1 { + +class json_minifier { +public: + template + static error_code minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) noexcept; + +private: + simdjson_really_inline json_minifier(uint8_t *_dst) + : dst{_dst} + {} + template + simdjson_really_inline void step(const uint8_t *block_buf, buf_block_reader &reader) noexcept; + simdjson_really_inline void next(const simd::simd8x64& in, json_block block); + simdjson_really_inline error_code finish(uint8_t *dst_start, size_t &dst_len); + json_scanner scanner{}; + uint8_t *dst; +}; + +simdjson_really_inline void json_minifier::next(const simd::simd8x64& in, json_block block) { + uint64_t mask = block.whitespace(); + in.compress(mask, dst); + dst += 64 - count_ones(mask); +} + +simdjson_really_inline error_code json_minifier::finish(uint8_t *dst_start, size_t &dst_len) { + error_code error = scanner.finish(); + if (error) { dst_len = 0; return error; } + dst_len = dst - dst_start; + return SUCCESS; +} + +template<> +simdjson_really_inline void json_minifier::step<128>(const uint8_t *block_buf, buf_block_reader<128> &reader) noexcept { + simd::simd8x64 in_1(block_buf); + simd::simd8x64 in_2(block_buf+64); + json_block block_1 = scanner.next(in_1); + json_block block_2 = scanner.next(in_2); + this->next(in_1, block_1); + this->next(in_2, block_2); + reader.advance(); +} + +template<> +simdjson_really_inline void json_minifier::step<64>(const uint8_t *block_buf, buf_block_reader<64> &reader) noexcept { + simd::simd8x64 in_1(block_buf); + json_block block_1 = scanner.next(in_1); + this->next(block_buf, block_1); + reader.advance(); +} + +template +error_code json_minifier::minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) noexcept { + buf_block_reader reader(buf, len); + json_minifier minifier(dst); + + // Index the first n-1 blocks + while (reader.has_full_block()) { + minifier.step(reader.full_block(), reader); + } + + // Index the last (remainder) block, padded with spaces + uint8_t block[STEP_SIZE]; + size_t remaining_bytes = reader.get_remainder(block); + if (remaining_bytes > 0) { + // We do not want to write directly to the output stream. Rather, we write + // to a local buffer (for safety). + uint8_t out_block[STEP_SIZE]; + uint8_t * const guarded_dst{minifier.dst}; + minifier.dst = out_block; + minifier.step(block, reader); + size_t to_write = minifier.dst - out_block; + // In some cases, we could be enticed to consider the padded spaces + // as part of the string. This is fine as long as we do not write more + // than we consumed. + if(to_write > remaining_bytes) { to_write = remaining_bytes; } + memcpy(guarded_dst, out_block, to_write); + minifier.dst = guarded_dst + to_write; + } + return minifier.finish(dst, dst_len); +} + +} // namespace stage1 +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson +/* end file src/generic/stage1/json_minifier.h */ +/* begin file src/generic/stage1/find_next_document_index.h */ +namespace simdjson { +namespace arm64 { +namespace { + +/** + * This algorithm is used to quickly identify the last structural position that + * makes up a complete document. + * + * It does this by going backwards and finding the last *document boundary* (a + * place where one value follows another without a comma between them). If the + * last document (the characters after the boundary) has an equal number of + * start and end brackets, it is considered complete. + * + * Simply put, we iterate over the structural characters, starting from + * the end. We consider that we found the end of a JSON document when the + * first element of the pair is NOT one of these characters: '{' '[' ';' ',' + * and when the second element is NOT one of these characters: '}' '}' ';' ','. + * + * This simple comparison works most of the time, but it does not cover cases + * where the batch's structural indexes contain a perfect amount of documents. + * In such a case, we do not have access to the structural index which follows + * the last document, therefore, we do not have access to the second element in + * the pair, and that means we cannot identify the last document. To fix this + * issue, we keep a count of the open and closed curly/square braces we found + * while searching for the pair. When we find a pair AND the count of open and + * closed curly/square braces is the same, we know that we just passed a + * complete document, therefore the last json buffer location is the end of the + * batch. + */ +simdjson_really_inline uint32_t find_next_document_index(dom_parser_implementation &parser) { + // TODO don't count separately, just figure out depth + auto arr_cnt = 0; + auto obj_cnt = 0; + for (auto i = parser.n_structural_indexes - 1; i > 0; i--) { + auto idxb = parser.structural_indexes[i]; + switch (parser.buf[idxb]) { + case ':': + case ',': + continue; + case '}': + obj_cnt--; + continue; + case ']': + arr_cnt--; + continue; + case '{': + obj_cnt++; + break; + case '[': + arr_cnt++; + break; + } + auto idxa = parser.structural_indexes[i - 1]; + switch (parser.buf[idxa]) { + case '{': + case '[': + case ':': + case ',': + continue; + } + // Last document is complete, so the next document will appear after! + if (!arr_cnt && !obj_cnt) { + return parser.n_structural_indexes; + } + // Last document is incomplete; mark the document at i + 1 as the next one + return i; + } + return 0; +} + +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson +/* end file src/generic/stage1/find_next_document_index.h */ + +namespace simdjson { +namespace arm64 { +namespace { +namespace stage1 { + +class bit_indexer { +public: + uint32_t *tail; + + simdjson_really_inline bit_indexer(uint32_t *index_buf) : tail(index_buf) {} + + // flatten out values in 'bits' assuming that they are are to have values of idx + // plus their position in the bitvector, and store these indexes at + // base_ptr[base] incrementing base as we go + // will potentially store extra values beyond end of valid bits, so base_ptr + // needs to be large enough to handle this + simdjson_really_inline void write(uint32_t idx, uint64_t bits) { + // In some instances, the next branch is expensive because it is mispredicted. + // Unfortunately, in other cases, + // it helps tremendously. + if (bits == 0) + return; + int cnt = static_cast(count_ones(bits)); + + // Do the first 8 all together + for (int i=0; i<8; i++) { + this->tail[i] = idx + trailing_zeroes(bits); + bits = clear_lowest_bit(bits); + } + + // Do the next 8 all together (we hope in most cases it won't happen at all + // and the branch is easily predicted). + if (simdjson_unlikely(cnt > 8)) { + for (int i=8; i<16; i++) { + this->tail[i] = idx + trailing_zeroes(bits); + bits = clear_lowest_bit(bits); + } + + // Most files don't have 16+ structurals per block, so we take several basically guaranteed + // branch mispredictions here. 16+ structurals per block means either punctuation ({} [] , :) + // or the start of a value ("abc" true 123) every four characters. + if (simdjson_unlikely(cnt > 16)) { + int i = 16; + do { + this->tail[i] = idx + trailing_zeroes(bits); + bits = clear_lowest_bit(bits); + i++; + } while (i < cnt); + } + } + + this->tail += cnt; + } +}; + +class json_structural_indexer { +public: + /** + * Find the important bits of JSON in a 128-byte chunk, and add them to structural_indexes. + * + * @param partial Setting the partial parameter to true allows the find_structural_bits to + * tolerate unclosed strings. The caller should still ensure that the input is valid UTF-8. If + * you are processing substrings, you may want to call on a function like trimmed_length_safe_utf8. + */ + template + static error_code index(const uint8_t *buf, size_t len, dom_parser_implementation &parser, bool partial) noexcept; + +private: + simdjson_really_inline json_structural_indexer(uint32_t *structural_indexes); + template + simdjson_really_inline void step(const uint8_t *block, buf_block_reader &reader) noexcept; + simdjson_really_inline void next(const simd::simd8x64& in, json_block block, size_t idx); + simdjson_really_inline error_code finish(dom_parser_implementation &parser, size_t idx, size_t len, bool partial); + + json_scanner scanner{}; + utf8_checker checker{}; + bit_indexer indexer; + uint64_t prev_structurals = 0; + uint64_t unescaped_chars_error = 0; +}; + +simdjson_really_inline json_structural_indexer::json_structural_indexer(uint32_t *structural_indexes) : indexer{structural_indexes} {} + +// Skip the last character if it is partial +simdjson_really_inline size_t trim_partial_utf8(const uint8_t *buf, size_t len) { + if (simdjson_unlikely(len < 3)) { + switch (len) { + case 2: + if (buf[len-1] >= 0b11000000) { return len-1; } // 2-, 3- and 4-byte characters with only 1 byte left + if (buf[len-2] >= 0b11100000) { return len-2; } // 3- and 4-byte characters with only 2 bytes left + return len; + case 1: + if (buf[len-1] >= 0b11000000) { return len-1; } // 2-, 3- and 4-byte characters with only 1 byte left + return len; + case 0: + return len; + } + } + if (buf[len-1] >= 0b11000000) { return len-1; } // 2-, 3- and 4-byte characters with only 1 byte left + if (buf[len-2] >= 0b11100000) { return len-2; } // 3- and 4-byte characters with only 1 byte left + if (buf[len-3] >= 0b11110000) { return len-3; } // 4-byte characters with only 3 bytes left + return len; +} + +// +// PERF NOTES: +// We pipe 2 inputs through these stages: +// 1. Load JSON into registers. This takes a long time and is highly parallelizable, so we load +// 2 inputs' worth at once so that by the time step 2 is looking for them input, it's available. +// 2. Scan the JSON for critical data: strings, scalars and operators. This is the critical path. +// The output of step 1 depends entirely on this information. These functions don't quite use +// up enough CPU: the second half of the functions is highly serial, only using 1 execution core +// at a time. The second input's scans has some dependency on the first ones finishing it, but +// they can make a lot of progress before they need that information. +// 3. Step 1 doesn't use enough capacity, so we run some extra stuff while we're waiting for that +// to finish: utf-8 checks and generating the output from the last iteration. +// +// The reason we run 2 inputs at a time, is steps 2 and 3 are *still* not enough to soak up all +// available capacity with just one input. Running 2 at a time seems to give the CPU a good enough +// workout. +// +template +error_code json_structural_indexer::index(const uint8_t *buf, size_t len, dom_parser_implementation &parser, bool partial) noexcept { + if (simdjson_unlikely(len > parser.capacity())) { return CAPACITY; } + if (partial) { len = trim_partial_utf8(buf, len); } + + buf_block_reader reader(buf, len); + json_structural_indexer indexer(parser.structural_indexes.get()); + + // Read all but the last block + while (reader.has_full_block()) { + indexer.step(reader.full_block(), reader); + } + + // Take care of the last block (will always be there unless file is empty) + uint8_t block[STEP_SIZE]; + if (simdjson_unlikely(reader.get_remainder(block) == 0)) { return EMPTY; } + indexer.step(block, reader); + + return indexer.finish(parser, reader.block_index(), len, partial); +} + +template<> +simdjson_really_inline void json_structural_indexer::step<128>(const uint8_t *block, buf_block_reader<128> &reader) noexcept { + simd::simd8x64 in_1(block); + simd::simd8x64 in_2(block+64); + json_block block_1 = scanner.next(in_1); + json_block block_2 = scanner.next(in_2); + this->next(in_1, block_1, reader.block_index()); + this->next(in_2, block_2, reader.block_index()+64); + reader.advance(); +} + +template<> +simdjson_really_inline void json_structural_indexer::step<64>(const uint8_t *block, buf_block_reader<64> &reader) noexcept { + simd::simd8x64 in_1(block); + json_block block_1 = scanner.next(in_1); + this->next(in_1, block_1, reader.block_index()); + reader.advance(); +} + +simdjson_really_inline void json_structural_indexer::next(const simd::simd8x64& in, json_block block, size_t idx) { + uint64_t unescaped = in.lteq(0x1F); + checker.check_next_input(in); + indexer.write(uint32_t(idx-64), prev_structurals); // Output *last* iteration's structurals to the parser + prev_structurals = block.structural_start(); + unescaped_chars_error |= block.non_quote_inside_string(unescaped); +} + +simdjson_really_inline error_code json_structural_indexer::finish(dom_parser_implementation &parser, size_t idx, size_t len, bool partial) { + // Write out the final iteration's structurals + indexer.write(uint32_t(idx-64), prev_structurals); + + error_code error = scanner.finish(); + // We deliberately break down the next expression so that it is + // human readable. + const bool should_we_exit = partial ? + ((error != SUCCESS) && (error != UNCLOSED_STRING)) // when partial we tolerate UNCLOSED_STRING + : (error != SUCCESS); // if partial is false, we must have SUCCESS + const bool have_unclosed_string = (error == UNCLOSED_STRING); + if (simdjson_unlikely(should_we_exit)) { return error; } + + if (unescaped_chars_error) { + return UNESCAPED_CHARS; + } + + parser.n_structural_indexes = uint32_t(indexer.tail - parser.structural_indexes.get()); + /*** + * This is related to https://github.com/simdjson/simdjson/issues/906 + * Basically, we want to make sure that if the parsing continues beyond the last (valid) + * structural character, it quickly stops. + * Only three structural characters can be repeated without triggering an error in JSON: [,] and }. + * We repeat the padding character (at 'len'). We don't know what it is, but if the parsing + * continues, then it must be [,] or }. + * Suppose it is ] or }. We backtrack to the first character, what could it be that would + * not trigger an error? It could be ] or } but no, because you can't start a document that way. + * It can't be a comma, a colon or any simple value. So the only way we could continue is + * if the repeated character is [. But if so, the document must start with [. But if the document + * starts with [, it should end with ]. If we enforce that rule, then we would get + * ][[ which is invalid. + **/ + parser.structural_indexes[parser.n_structural_indexes] = uint32_t(len); + parser.structural_indexes[parser.n_structural_indexes + 1] = uint32_t(len); + parser.structural_indexes[parser.n_structural_indexes + 2] = 0; + parser.next_structural_index = 0; + // a valid JSON file cannot have zero structural indexes - we should have found something + if (simdjson_unlikely(parser.n_structural_indexes == 0u)) { + return EMPTY; + } + if (simdjson_unlikely(parser.structural_indexes[parser.n_structural_indexes - 1] > len)) { + return UNEXPECTED_ERROR; + } + if (partial) { + // If we have an unclosed string, then the last structural + // will be the quote and we want to make sure to omit it. + if(have_unclosed_string) { + parser.n_structural_indexes--; + // a valid JSON file cannot have zero structural indexes - we should have found something + if (simdjson_unlikely(parser.n_structural_indexes == 0u)) { return CAPACITY; } + } + auto new_structural_indexes = find_next_document_index(parser); + if (new_structural_indexes == 0 && parser.n_structural_indexes > 0) { + return CAPACITY; // If the buffer is partial but the document is incomplete, it's too big to parse. + } + parser.n_structural_indexes = new_structural_indexes; + } + checker.check_eof(); + return checker.errors(); +} + +} // namespace stage1 +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson +/* end file src/generic/stage1/json_structural_indexer.h */ +/* begin file src/generic/stage1/utf8_validator.h */ +namespace simdjson { +namespace arm64 { +namespace { +namespace stage1 { + +/** + * Validates that the string is actual UTF-8. + */ +template +bool generic_validate_utf8(const uint8_t * input, size_t length) { + checker c{}; + buf_block_reader<64> reader(input, length); + while (reader.has_full_block()) { + simd::simd8x64 in(reader.full_block()); + c.check_next_input(in); + reader.advance(); + } + uint8_t block[64]{}; + reader.get_remainder(block); + simd::simd8x64 in(block); + c.check_next_input(in); + reader.advance(); + c.check_eof(); + return c.errors() == error_code::SUCCESS; +} + +bool generic_validate_utf8(const char * input, size_t length) { + return generic_validate_utf8((const uint8_t *)input,length); +} + +} // namespace stage1 +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson +/* end file src/generic/stage1/utf8_validator.h */ + +// +// Stage 2 +// + +/* begin file src/generic/stage2/tape_builder.h */ +/* begin file src/generic/stage2/json_iterator.h */ +/* begin file src/generic/stage2/logger.h */ +// This is for an internal-only stage 2 specific logger. +// Set LOG_ENABLED = true to log what stage 2 is doing! +namespace simdjson { +namespace arm64 { +namespace { +namespace logger { + + static constexpr const char * DASHES = "----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------"; + +#if SIMDJSON_VERBOSE_LOGGING + static constexpr const bool LOG_ENABLED = true; +#else + static constexpr const bool LOG_ENABLED = false; +#endif + static constexpr const int LOG_EVENT_LEN = 20; + static constexpr const int LOG_BUFFER_LEN = 30; + static constexpr const int LOG_SMALL_BUFFER_LEN = 10; + static constexpr const int LOG_INDEX_LEN = 5; + + static int log_depth; // Not threadsafe. Log only. + + // Helper to turn unprintable or newline characters into spaces + static simdjson_really_inline char printable_char(char c) { + if (c >= 0x20) { + return c; + } else { + return ' '; + } + } + + // Print the header and set up log_start + static simdjson_really_inline void log_start() { + if (LOG_ENABLED) { + log_depth = 0; + printf("\n"); + printf("| %-*s | %-*s | %-*s | %-*s | Detail |\n", LOG_EVENT_LEN, "Event", LOG_BUFFER_LEN, "Buffer", LOG_SMALL_BUFFER_LEN, "Next", 5, "Next#"); + printf("|%.*s|%.*s|%.*s|%.*s|--------|\n", LOG_EVENT_LEN+2, DASHES, LOG_BUFFER_LEN+2, DASHES, LOG_SMALL_BUFFER_LEN+2, DASHES, 5+2, DASHES); + } + } + + simdjson_unused static simdjson_really_inline void log_string(const char *message) { + if (LOG_ENABLED) { + printf("%s\n", message); + } + } + + // Logs a single line from the stage 2 DOM parser + template + static simdjson_really_inline void log_line(S &structurals, const char *title_prefix, const char *title, const char *detail) { + if (LOG_ENABLED) { + printf("| %*s%s%-*s ", log_depth*2, "", title_prefix, LOG_EVENT_LEN - log_depth*2 - int(strlen(title_prefix)), title); + auto current_index = structurals.at_beginning() ? nullptr : structurals.next_structural-1; + auto next_index = structurals.next_structural; + auto current = current_index ? &structurals.buf[*current_index] : (const uint8_t*)" "; + auto next = &structurals.buf[*next_index]; + { + // Print the next N characters in the buffer. + printf("| "); + // Otherwise, print the characters starting from the buffer position. + // Print spaces for unprintable or newline characters. + for (int i=0;i + simdjson_warn_unused simdjson_really_inline error_code walk_document(V &visitor) noexcept; + + /** + * Create an iterator capable of walking a JSON document. + * + * The document must have already passed through stage 1. + */ + simdjson_really_inline json_iterator(dom_parser_implementation &_dom_parser, size_t start_structural_index); + + /** + * Look at the next token. + * + * Tokens can be strings, numbers, booleans, null, or operators (`[{]},:`)). + * + * They may include invalid JSON as well (such as `1.2.3` or `ture`). + */ + simdjson_really_inline const uint8_t *peek() const noexcept; + /** + * Advance to the next token. + * + * Tokens can be strings, numbers, booleans, null, or operators (`[{]},:`)). + * + * They may include invalid JSON as well (such as `1.2.3` or `ture`). + */ + simdjson_really_inline const uint8_t *advance() noexcept; + /** + * Get the remaining length of the document, from the start of the current token. + */ + simdjson_really_inline size_t remaining_len() const noexcept; + /** + * Check if we are at the end of the document. + * + * If this is true, there are no more tokens. + */ + simdjson_really_inline bool at_eof() const noexcept; + /** + * Check if we are at the beginning of the document. + */ + simdjson_really_inline bool at_beginning() const noexcept; + simdjson_really_inline uint8_t last_structural() const noexcept; + + /** + * Log that a value has been found. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_value(const char *type) const noexcept; + /** + * Log the start of a multipart value. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_start_value(const char *type) const noexcept; + /** + * Log the end of a multipart value. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_end_value(const char *type) const noexcept; + /** + * Log an error. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_error(const char *error) const noexcept; + + template + simdjson_warn_unused simdjson_really_inline error_code visit_root_primitive(V &visitor, const uint8_t *value) noexcept; + template + simdjson_warn_unused simdjson_really_inline error_code visit_primitive(V &visitor, const uint8_t *value) noexcept; +}; + +template +simdjson_warn_unused simdjson_really_inline error_code json_iterator::walk_document(V &visitor) noexcept { + logger::log_start(); + + // + // Start the document + // + if (at_eof()) { return EMPTY; } + log_start_value("document"); + SIMDJSON_TRY( visitor.visit_document_start(*this) ); + + // + // Read first value + // + { + auto value = advance(); + + // Make sure the outer hash or array is closed before continuing; otherwise, there are ways we + // could get into memory corruption. See https://github.com/simdjson/simdjson/issues/906 + if (!STREAMING) { + switch (*value) { + case '{': if (last_structural() != '}') { return TAPE_ERROR; }; break; + case '[': if (last_structural() != ']') { return TAPE_ERROR; }; break; + } + } + + switch (*value) { + case '{': if (*peek() == '}') { advance(); log_value("empty object"); SIMDJSON_TRY( visitor.visit_empty_object(*this) ); break; } goto object_begin; + case '[': if (*peek() == ']') { advance(); log_value("empty array"); SIMDJSON_TRY( visitor.visit_empty_array(*this) ); break; } goto array_begin; + default: SIMDJSON_TRY( visitor.visit_root_primitive(*this, value) ); break; + } + } + goto document_end; + +// +// Object parser states +// +object_begin: + log_start_value("object"); + depth++; + if (depth >= dom_parser.max_depth()) { log_error("Exceeded max depth!"); return DEPTH_ERROR; } + dom_parser.is_array[depth] = false; + SIMDJSON_TRY( visitor.visit_object_start(*this) ); + + { + auto key = advance(); + if (*key != '"') { log_error("Object does not start with a key"); return TAPE_ERROR; } + SIMDJSON_TRY( visitor.increment_count(*this) ); + SIMDJSON_TRY( visitor.visit_key(*this, key) ); + } + +object_field: + if (simdjson_unlikely( *advance() != ':' )) { log_error("Missing colon after key in object"); return TAPE_ERROR; } + { + auto value = advance(); + switch (*value) { + case '{': if (*peek() == '}') { advance(); log_value("empty object"); SIMDJSON_TRY( visitor.visit_empty_object(*this) ); break; } goto object_begin; + case '[': if (*peek() == ']') { advance(); log_value("empty array"); SIMDJSON_TRY( visitor.visit_empty_array(*this) ); break; } goto array_begin; + default: SIMDJSON_TRY( visitor.visit_primitive(*this, value) ); break; + } + } + +object_continue: + switch (*advance()) { + case ',': + SIMDJSON_TRY( visitor.increment_count(*this) ); + { + auto key = advance(); + if (simdjson_unlikely( *key != '"' )) { log_error("Key string missing at beginning of field in object"); return TAPE_ERROR; } + SIMDJSON_TRY( visitor.visit_key(*this, key) ); + } + goto object_field; + case '}': log_end_value("object"); SIMDJSON_TRY( visitor.visit_object_end(*this) ); goto scope_end; + default: log_error("No comma between object fields"); return TAPE_ERROR; + } + +scope_end: + depth--; + if (depth == 0) { goto document_end; } + if (dom_parser.is_array[depth]) { goto array_continue; } + goto object_continue; + +// +// Array parser states +// +array_begin: + log_start_value("array"); + depth++; + if (depth >= dom_parser.max_depth()) { log_error("Exceeded max depth!"); return DEPTH_ERROR; } + dom_parser.is_array[depth] = true; + SIMDJSON_TRY( visitor.visit_array_start(*this) ); + SIMDJSON_TRY( visitor.increment_count(*this) ); + +array_value: + { + auto value = advance(); + switch (*value) { + case '{': if (*peek() == '}') { advance(); log_value("empty object"); SIMDJSON_TRY( visitor.visit_empty_object(*this) ); break; } goto object_begin; + case '[': if (*peek() == ']') { advance(); log_value("empty array"); SIMDJSON_TRY( visitor.visit_empty_array(*this) ); break; } goto array_begin; + default: SIMDJSON_TRY( visitor.visit_primitive(*this, value) ); break; + } + } + +array_continue: + switch (*advance()) { + case ',': SIMDJSON_TRY( visitor.increment_count(*this) ); goto array_value; + case ']': log_end_value("array"); SIMDJSON_TRY( visitor.visit_array_end(*this) ); goto scope_end; + default: log_error("Missing comma between array values"); return TAPE_ERROR; + } + +document_end: + log_end_value("document"); + SIMDJSON_TRY( visitor.visit_document_end(*this) ); + + dom_parser.next_structural_index = uint32_t(next_structural - &dom_parser.structural_indexes[0]); + + // If we didn't make it to the end, it's an error + if ( !STREAMING && dom_parser.next_structural_index != dom_parser.n_structural_indexes ) { + log_error("More than one JSON value at the root of the document, or extra characters at the end of the JSON!"); + return TAPE_ERROR; + } + + return SUCCESS; + +} // walk_document() + +simdjson_really_inline json_iterator::json_iterator(dom_parser_implementation &_dom_parser, size_t start_structural_index) + : buf{_dom_parser.buf}, + next_structural{&_dom_parser.structural_indexes[start_structural_index]}, + dom_parser{_dom_parser} { +} + +simdjson_really_inline const uint8_t *json_iterator::peek() const noexcept { + return &buf[*(next_structural)]; +} +simdjson_really_inline const uint8_t *json_iterator::advance() noexcept { + return &buf[*(next_structural++)]; +} +simdjson_really_inline size_t json_iterator::remaining_len() const noexcept { + return dom_parser.len - *(next_structural-1); +} + +simdjson_really_inline bool json_iterator::at_eof() const noexcept { + return next_structural == &dom_parser.structural_indexes[dom_parser.n_structural_indexes]; +} +simdjson_really_inline bool json_iterator::at_beginning() const noexcept { + return next_structural == dom_parser.structural_indexes.get(); +} +simdjson_really_inline uint8_t json_iterator::last_structural() const noexcept { + return buf[dom_parser.structural_indexes[dom_parser.n_structural_indexes - 1]]; +} + +simdjson_really_inline void json_iterator::log_value(const char *type) const noexcept { + logger::log_line(*this, "", type, ""); +} + +simdjson_really_inline void json_iterator::log_start_value(const char *type) const noexcept { + logger::log_line(*this, "+", type, ""); + if (logger::LOG_ENABLED) { logger::log_depth++; } +} + +simdjson_really_inline void json_iterator::log_end_value(const char *type) const noexcept { + if (logger::LOG_ENABLED) { logger::log_depth--; } + logger::log_line(*this, "-", type, ""); +} + +simdjson_really_inline void json_iterator::log_error(const char *error) const noexcept { + logger::log_line(*this, "", "ERROR", error); +} + +template +simdjson_warn_unused simdjson_really_inline error_code json_iterator::visit_root_primitive(V &visitor, const uint8_t *value) noexcept { + switch (*value) { + case '"': return visitor.visit_root_string(*this, value); + case 't': return visitor.visit_root_true_atom(*this, value); + case 'f': return visitor.visit_root_false_atom(*this, value); + case 'n': return visitor.visit_root_null_atom(*this, value); + case '-': + case '0': case '1': case '2': case '3': case '4': + case '5': case '6': case '7': case '8': case '9': + return visitor.visit_root_number(*this, value); + default: + log_error("Document starts with a non-value character"); + return TAPE_ERROR; + } +} +template +simdjson_warn_unused simdjson_really_inline error_code json_iterator::visit_primitive(V &visitor, const uint8_t *value) noexcept { + switch (*value) { + case '"': return visitor.visit_string(*this, value); + case 't': return visitor.visit_true_atom(*this, value); + case 'f': return visitor.visit_false_atom(*this, value); + case 'n': return visitor.visit_null_atom(*this, value); + case '-': + case '0': case '1': case '2': case '3': case '4': + case '5': case '6': case '7': case '8': case '9': + return visitor.visit_number(*this, value); + default: + log_error("Non-value found when value was expected!"); + return TAPE_ERROR; + } +} + +} // namespace stage2 +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson +/* end file src/generic/stage2/json_iterator.h */ +/* begin file src/generic/stage2/tape_writer.h */ +namespace simdjson { +namespace arm64 { +namespace { +namespace stage2 { + +struct tape_writer { + /** The next place to write to tape */ + uint64_t *next_tape_loc; + + /** Write a signed 64-bit value to tape. */ + simdjson_really_inline void append_s64(int64_t value) noexcept; + + /** Write an unsigned 64-bit value to tape. */ + simdjson_really_inline void append_u64(uint64_t value) noexcept; + + /** Write a double value to tape. */ + simdjson_really_inline void append_double(double value) noexcept; + + /** + * Append a tape entry (an 8-bit type,and 56 bits worth of value). + */ + simdjson_really_inline void append(uint64_t val, internal::tape_type t) noexcept; + + /** + * Skip the current tape entry without writing. + * + * Used to skip the start of the container, since we'll come back later to fill it in when the + * container ends. + */ + simdjson_really_inline void skip() noexcept; + + /** + * Skip the number of tape entries necessary to write a large u64 or i64. + */ + simdjson_really_inline void skip_large_integer() noexcept; + + /** + * Skip the number of tape entries necessary to write a double. + */ + simdjson_really_inline void skip_double() noexcept; + + /** + * Write a value to a known location on tape. + * + * Used to go back and write out the start of a container after the container ends. + */ + simdjson_really_inline static void write(uint64_t &tape_loc, uint64_t val, internal::tape_type t) noexcept; + +private: + /** + * Append both the tape entry, and a supplementary value following it. Used for types that need + * all 64 bits, such as double and uint64_t. + */ + template + simdjson_really_inline void append2(uint64_t val, T val2, internal::tape_type t) noexcept; +}; // struct number_writer + +simdjson_really_inline void tape_writer::append_s64(int64_t value) noexcept { + append2(0, value, internal::tape_type::INT64); +} + +simdjson_really_inline void tape_writer::append_u64(uint64_t value) noexcept { + append(0, internal::tape_type::UINT64); + *next_tape_loc = value; + next_tape_loc++; +} + +/** Write a double value to tape. */ +simdjson_really_inline void tape_writer::append_double(double value) noexcept { + append2(0, value, internal::tape_type::DOUBLE); +} + +simdjson_really_inline void tape_writer::skip() noexcept { + next_tape_loc++; +} + +simdjson_really_inline void tape_writer::skip_large_integer() noexcept { + next_tape_loc += 2; +} + +simdjson_really_inline void tape_writer::skip_double() noexcept { + next_tape_loc += 2; +} + +simdjson_really_inline void tape_writer::append(uint64_t val, internal::tape_type t) noexcept { + *next_tape_loc = val | ((uint64_t(char(t))) << 56); + next_tape_loc++; +} + +template +simdjson_really_inline void tape_writer::append2(uint64_t val, T val2, internal::tape_type t) noexcept { + append(val, t); + static_assert(sizeof(val2) == sizeof(*next_tape_loc), "Type is not 64 bits!"); + memcpy(next_tape_loc, &val2, sizeof(val2)); + next_tape_loc++; +} + +simdjson_really_inline void tape_writer::write(uint64_t &tape_loc, uint64_t val, internal::tape_type t) noexcept { + tape_loc = val | ((uint64_t(char(t))) << 56); +} + +} // namespace stage2 +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson +/* end file src/generic/stage2/tape_writer.h */ + +namespace simdjson { +namespace arm64 { +namespace { +namespace stage2 { + +struct tape_builder { + template + simdjson_warn_unused static simdjson_really_inline error_code parse_document( + dom_parser_implementation &dom_parser, + dom::document &doc) noexcept; + + /** Called when a non-empty document starts. */ + simdjson_warn_unused simdjson_really_inline error_code visit_document_start(json_iterator &iter) noexcept; + /** Called when a non-empty document ends without error. */ + simdjson_warn_unused simdjson_really_inline error_code visit_document_end(json_iterator &iter) noexcept; + + /** Called when a non-empty array starts. */ + simdjson_warn_unused simdjson_really_inline error_code visit_array_start(json_iterator &iter) noexcept; + /** Called when a non-empty array ends. */ + simdjson_warn_unused simdjson_really_inline error_code visit_array_end(json_iterator &iter) noexcept; + /** Called when an empty array is found. */ + simdjson_warn_unused simdjson_really_inline error_code visit_empty_array(json_iterator &iter) noexcept; + + /** Called when a non-empty object starts. */ + simdjson_warn_unused simdjson_really_inline error_code visit_object_start(json_iterator &iter) noexcept; + /** + * Called when a key in a field is encountered. + * + * primitive, visit_object_start, visit_empty_object, visit_array_start, or visit_empty_array + * will be called after this with the field value. + */ + simdjson_warn_unused simdjson_really_inline error_code visit_key(json_iterator &iter, const uint8_t *key) noexcept; + /** Called when a non-empty object ends. */ + simdjson_warn_unused simdjson_really_inline error_code visit_object_end(json_iterator &iter) noexcept; + /** Called when an empty object is found. */ + simdjson_warn_unused simdjson_really_inline error_code visit_empty_object(json_iterator &iter) noexcept; + + /** + * Called when a string, number, boolean or null is found. + */ + simdjson_warn_unused simdjson_really_inline error_code visit_primitive(json_iterator &iter, const uint8_t *value) noexcept; + /** + * Called when a string, number, boolean or null is found at the top level of a document (i.e. + * when there is no array or object and the entire document is a single string, number, boolean or + * null. + * + * This is separate from primitive() because simdjson's normal primitive parsing routines assume + * there is at least one more token after the value, which is only true in an array or object. + */ + simdjson_warn_unused simdjson_really_inline error_code visit_root_primitive(json_iterator &iter, const uint8_t *value) noexcept; + + simdjson_warn_unused simdjson_really_inline error_code visit_string(json_iterator &iter, const uint8_t *value, bool key = false) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_number(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_true_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_false_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_null_atom(json_iterator &iter, const uint8_t *value) noexcept; + + simdjson_warn_unused simdjson_really_inline error_code visit_root_string(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_number(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_true_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_false_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_null_atom(json_iterator &iter, const uint8_t *value) noexcept; + + /** Called each time a new field or element in an array or object is found. */ + simdjson_warn_unused simdjson_really_inline error_code increment_count(json_iterator &iter) noexcept; + + /** Next location to write to tape */ + tape_writer tape; +private: + /** Next write location in the string buf for stage 2 parsing */ + uint8_t *current_string_buf_loc; + + simdjson_really_inline tape_builder(dom::document &doc) noexcept; + + simdjson_really_inline uint32_t next_tape_index(json_iterator &iter) const noexcept; + simdjson_really_inline void start_container(json_iterator &iter) noexcept; + simdjson_warn_unused simdjson_really_inline error_code end_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept; + simdjson_warn_unused simdjson_really_inline error_code empty_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept; + simdjson_really_inline uint8_t *on_start_string(json_iterator &iter) noexcept; + simdjson_really_inline void on_end_string(uint8_t *dst) noexcept; +}; // class tape_builder + +template +simdjson_warn_unused simdjson_really_inline error_code tape_builder::parse_document( + dom_parser_implementation &dom_parser, + dom::document &doc) noexcept { + dom_parser.doc = &doc; + json_iterator iter(dom_parser, STREAMING ? dom_parser.next_structural_index : 0); + tape_builder builder(doc); + return iter.walk_document(builder); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_primitive(json_iterator &iter, const uint8_t *value) noexcept { + return iter.visit_root_primitive(*this, value); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_primitive(json_iterator &iter, const uint8_t *value) noexcept { + return iter.visit_primitive(*this, value); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_empty_object(json_iterator &iter) noexcept { + return empty_container(iter, internal::tape_type::START_OBJECT, internal::tape_type::END_OBJECT); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_empty_array(json_iterator &iter) noexcept { + return empty_container(iter, internal::tape_type::START_ARRAY, internal::tape_type::END_ARRAY); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_document_start(json_iterator &iter) noexcept { + start_container(iter); + return SUCCESS; +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_object_start(json_iterator &iter) noexcept { + start_container(iter); + return SUCCESS; +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_array_start(json_iterator &iter) noexcept { + start_container(iter); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_object_end(json_iterator &iter) noexcept { + return end_container(iter, internal::tape_type::START_OBJECT, internal::tape_type::END_OBJECT); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_array_end(json_iterator &iter) noexcept { + return end_container(iter, internal::tape_type::START_ARRAY, internal::tape_type::END_ARRAY); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_document_end(json_iterator &iter) noexcept { + constexpr uint32_t start_tape_index = 0; + tape.append(start_tape_index, internal::tape_type::ROOT); + tape_writer::write(iter.dom_parser.doc->tape[start_tape_index], next_tape_index(iter), internal::tape_type::ROOT); + return SUCCESS; +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_key(json_iterator &iter, const uint8_t *key) noexcept { + return visit_string(iter, key, true); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::increment_count(json_iterator &iter) noexcept { + iter.dom_parser.open_containers[iter.depth].count++; // we have a key value pair in the object at parser.dom_parser.depth - 1 + return SUCCESS; +} + +simdjson_really_inline tape_builder::tape_builder(dom::document &doc) noexcept : tape{doc.tape.get()}, current_string_buf_loc{doc.string_buf.get()} {} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_string(json_iterator &iter, const uint8_t *value, bool key) noexcept { + iter.log_value(key ? "key" : "string"); + uint8_t *dst = on_start_string(iter); + dst = stringparsing::parse_string(value+1, dst); + if (dst == nullptr) { + iter.log_error("Invalid escape in string"); + return STRING_ERROR; + } + on_end_string(dst); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_string(json_iterator &iter, const uint8_t *value) noexcept { + return visit_string(iter, value); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_number(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("number"); + return numberparsing::parse_number(value, tape); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_number(json_iterator &iter, const uint8_t *value) noexcept { + // + // We need to make a copy to make sure that the string is space terminated. + // This is not about padding the input, which should already padded up + // to len + SIMDJSON_PADDING. However, we have no control at this stage + // on how the padding was done. What if the input string was padded with nulls? + // It is quite common for an input string to have an extra null character (C string). + // We do not want to allow 9\0 (where \0 is the null character) inside a JSON + // document, but the string "9\0" by itself is fine. So we make a copy and + // pad the input with spaces when we know that there is just one input element. + // This copy is relatively expensive, but it will almost never be called in + // practice unless you are in the strange scenario where you have many JSON + // documents made of single atoms. + // + uint8_t *copy = static_cast(malloc(iter.remaining_len() + SIMDJSON_PADDING)); + if (copy == nullptr) { return MEMALLOC; } + std::memcpy(copy, value, iter.remaining_len()); + std::memset(copy + iter.remaining_len(), ' ', SIMDJSON_PADDING); + error_code error = visit_number(iter, copy); + free(copy); + return error; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_true_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("true"); + if (!atomparsing::is_valid_true_atom(value)) { return T_ATOM_ERROR; } + tape.append(0, internal::tape_type::TRUE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_true_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("true"); + if (!atomparsing::is_valid_true_atom(value, iter.remaining_len())) { return T_ATOM_ERROR; } + tape.append(0, internal::tape_type::TRUE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_false_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("false"); + if (!atomparsing::is_valid_false_atom(value)) { return F_ATOM_ERROR; } + tape.append(0, internal::tape_type::FALSE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_false_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("false"); + if (!atomparsing::is_valid_false_atom(value, iter.remaining_len())) { return F_ATOM_ERROR; } + tape.append(0, internal::tape_type::FALSE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_null_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("null"); + if (!atomparsing::is_valid_null_atom(value)) { return N_ATOM_ERROR; } + tape.append(0, internal::tape_type::NULL_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_null_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("null"); + if (!atomparsing::is_valid_null_atom(value, iter.remaining_len())) { return N_ATOM_ERROR; } + tape.append(0, internal::tape_type::NULL_VALUE); + return SUCCESS; +} + +// private: + +simdjson_really_inline uint32_t tape_builder::next_tape_index(json_iterator &iter) const noexcept { + return uint32_t(tape.next_tape_loc - iter.dom_parser.doc->tape.get()); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::empty_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept { + auto start_index = next_tape_index(iter); + tape.append(start_index+2, start); + tape.append(start_index, end); + return SUCCESS; +} + +simdjson_really_inline void tape_builder::start_container(json_iterator &iter) noexcept { + iter.dom_parser.open_containers[iter.depth].tape_index = next_tape_index(iter); + iter.dom_parser.open_containers[iter.depth].count = 0; + tape.skip(); // We don't actually *write* the start element until the end. +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::end_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept { + // Write the ending tape element, pointing at the start location + const uint32_t start_tape_index = iter.dom_parser.open_containers[iter.depth].tape_index; + tape.append(start_tape_index, end); + // Write the start tape element, pointing at the end location (and including count) + // count can overflow if it exceeds 24 bits... so we saturate + // the convention being that a cnt of 0xffffff or more is undetermined in value (>= 0xffffff). + const uint32_t count = iter.dom_parser.open_containers[iter.depth].count; + const uint32_t cntsat = count > 0xFFFFFF ? 0xFFFFFF : count; + tape_writer::write(iter.dom_parser.doc->tape[start_tape_index], next_tape_index(iter) | (uint64_t(cntsat) << 32), start); + return SUCCESS; +} + +simdjson_really_inline uint8_t *tape_builder::on_start_string(json_iterator &iter) noexcept { + // we advance the point, accounting for the fact that we have a NULL termination + tape.append(current_string_buf_loc - iter.dom_parser.doc->string_buf.get(), internal::tape_type::STRING); + return current_string_buf_loc + sizeof(uint32_t); +} + +simdjson_really_inline void tape_builder::on_end_string(uint8_t *dst) noexcept { + uint32_t str_length = uint32_t(dst - (current_string_buf_loc + sizeof(uint32_t))); + // TODO check for overflow in case someone has a crazy string (>=4GB?) + // But only add the overflow check when the document itself exceeds 4GB + // Currently unneeded because we refuse to parse docs larger or equal to 4GB. + memcpy(current_string_buf_loc, &str_length, sizeof(uint32_t)); + // NULL termination is still handy if you expect all your strings to + // be NULL terminated? It comes at a small cost + *dst = 0; + current_string_buf_loc = dst + 1; +} + +} // namespace stage2 +} // unnamed namespace +} // namespace arm64 +} // namespace simdjson +/* end file src/generic/stage2/tape_builder.h */ + +// +// Implementation-specific overrides +// +namespace simdjson { +namespace arm64 { +namespace { +namespace stage1 { + +simdjson_really_inline uint64_t json_string_scanner::find_escaped(uint64_t backslash) { + // On ARM, we don't short-circuit this if there are no backslashes, because the branch gives us no + // benefit and therefore makes things worse. + // if (!backslash) { uint64_t escaped = prev_escaped; prev_escaped = 0; return escaped; } + return find_escaped_branchless(backslash); +} + +} // namespace stage1 +} // unnamed namespace + +simdjson_warn_unused error_code implementation::minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) const noexcept { + return arm64::stage1::json_minifier::minify<64>(buf, len, dst, dst_len); +} + +simdjson_warn_unused error_code dom_parser_implementation::stage1(const uint8_t *_buf, size_t _len, bool streaming) noexcept { + this->buf = _buf; + this->len = _len; + return arm64::stage1::json_structural_indexer::index<64>(buf, len, *this, streaming); +} + +simdjson_warn_unused bool implementation::validate_utf8(const char *buf, size_t len) const noexcept { + return arm64::stage1::generic_validate_utf8(buf,len); +} + +simdjson_warn_unused error_code dom_parser_implementation::stage2(dom::document &_doc) noexcept { + return stage2::tape_builder::parse_document(*this, _doc); +} + +simdjson_warn_unused error_code dom_parser_implementation::stage2_next(dom::document &_doc) noexcept { + return stage2::tape_builder::parse_document(*this, _doc); +} + +simdjson_warn_unused error_code dom_parser_implementation::parse(const uint8_t *_buf, size_t _len, dom::document &_doc) noexcept { + auto error = stage1(_buf, _len, false); + if (error) { return error; } + return stage2(_doc); +} + +} // namespace arm64 +} // namespace simdjson + +/* begin file include/simdjson/arm64/end.h */ +#undef arm64 +/* end file include/simdjson/arm64/end.h */ +/* end file src/arm64/dom_parser_implementation.cpp */ +#endif +#if SIMDJSON_IMPLEMENTATION_FALLBACK +/* begin file src/fallback/implementation.cpp */ +/* begin file include/simdjson/fallback/begin.h */ +// redefining SIMDJSON_IMPLEMENTATION to "fallback" +// #define SIMDJSON_IMPLEMENTATION fallback +/* end file include/simdjson/fallback/begin.h */ + +namespace simdjson { +namespace fallback { + +simdjson_warn_unused error_code implementation::create_dom_parser_implementation( + size_t capacity, + size_t max_depth, + std::unique_ptr& dst +) const noexcept { + dst.reset( new (std::nothrow) dom_parser_implementation() ); + if (!dst) { return MEMALLOC; } + dst->set_capacity(capacity); + dst->set_max_depth(max_depth); + return SUCCESS; +} + +} // namespace fallback +} // namespace simdjson + +/* begin file include/simdjson/fallback/end.h */ +#undef fallback +/* end file include/simdjson/fallback/end.h */ +/* end file src/fallback/implementation.cpp */ +/* begin file src/fallback/dom_parser_implementation.cpp */ +/* begin file include/simdjson/fallback/begin.h */ +// redefining SIMDJSON_IMPLEMENTATION to "fallback" +// #define SIMDJSON_IMPLEMENTATION fallback +/* end file include/simdjson/fallback/begin.h */ + +// +// Stage 1 +// +/* begin file src/generic/stage1/find_next_document_index.h */ +namespace simdjson { +namespace fallback { +namespace { + +/** + * This algorithm is used to quickly identify the last structural position that + * makes up a complete document. + * + * It does this by going backwards and finding the last *document boundary* (a + * place where one value follows another without a comma between them). If the + * last document (the characters after the boundary) has an equal number of + * start and end brackets, it is considered complete. + * + * Simply put, we iterate over the structural characters, starting from + * the end. We consider that we found the end of a JSON document when the + * first element of the pair is NOT one of these characters: '{' '[' ';' ',' + * and when the second element is NOT one of these characters: '}' '}' ';' ','. + * + * This simple comparison works most of the time, but it does not cover cases + * where the batch's structural indexes contain a perfect amount of documents. + * In such a case, we do not have access to the structural index which follows + * the last document, therefore, we do not have access to the second element in + * the pair, and that means we cannot identify the last document. To fix this + * issue, we keep a count of the open and closed curly/square braces we found + * while searching for the pair. When we find a pair AND the count of open and + * closed curly/square braces is the same, we know that we just passed a + * complete document, therefore the last json buffer location is the end of the + * batch. + */ +simdjson_really_inline uint32_t find_next_document_index(dom_parser_implementation &parser) { + // TODO don't count separately, just figure out depth + auto arr_cnt = 0; + auto obj_cnt = 0; + for (auto i = parser.n_structural_indexes - 1; i > 0; i--) { + auto idxb = parser.structural_indexes[i]; + switch (parser.buf[idxb]) { + case ':': + case ',': + continue; + case '}': + obj_cnt--; + continue; + case ']': + arr_cnt--; + continue; + case '{': + obj_cnt++; + break; + case '[': + arr_cnt++; + break; + } + auto idxa = parser.structural_indexes[i - 1]; + switch (parser.buf[idxa]) { + case '{': + case '[': + case ':': + case ',': + continue; + } + // Last document is complete, so the next document will appear after! + if (!arr_cnt && !obj_cnt) { + return parser.n_structural_indexes; + } + // Last document is incomplete; mark the document at i + 1 as the next one + return i; + } + return 0; +} + +} // unnamed namespace +} // namespace fallback +} // namespace simdjson +/* end file src/generic/stage1/find_next_document_index.h */ + +namespace simdjson { +namespace fallback { +namespace { +namespace stage1 { + +class structural_scanner { +public: + +simdjson_really_inline structural_scanner(dom_parser_implementation &_parser, bool _partial) + : buf{_parser.buf}, + next_structural_index{_parser.structural_indexes.get()}, + parser{_parser}, + len{static_cast(_parser.len)}, + partial{_partial} { +} + +simdjson_really_inline void add_structural() { + *next_structural_index = idx; + next_structural_index++; +} + +simdjson_really_inline bool is_continuation(uint8_t c) { + return (c & 0b11000000) == 0b10000000; +} + +simdjson_really_inline void validate_utf8_character() { + // Continuation + if (simdjson_unlikely((buf[idx] & 0b01000000) == 0)) { + // extra continuation + error = UTF8_ERROR; + idx++; + return; + } + + // 2-byte + if ((buf[idx] & 0b00100000) == 0) { + // missing continuation + if (simdjson_unlikely(idx+1 > len || !is_continuation(buf[idx+1]))) { + if (idx+1 > len && partial) { idx = len; return; } + error = UTF8_ERROR; + idx++; + return; + } + // overlong: 1100000_ 10______ + if (buf[idx] <= 0b11000001) { error = UTF8_ERROR; } + idx += 2; + return; + } + + // 3-byte + if ((buf[idx] & 0b00010000) == 0) { + // missing continuation + if (simdjson_unlikely(idx+2 > len || !is_continuation(buf[idx+1]) || !is_continuation(buf[idx+2]))) { + if (idx+2 > len && partial) { idx = len; return; } + error = UTF8_ERROR; + idx++; + return; + } + // overlong: 11100000 100_____ ________ + if (buf[idx] == 0b11100000 && buf[idx+1] <= 0b10011111) { error = UTF8_ERROR; } + // surrogates: U+D800-U+DFFF 11101101 101_____ + if (buf[idx] == 0b11101101 && buf[idx+1] >= 0b10100000) { error = UTF8_ERROR; } + idx += 3; + return; + } + + // 4-byte + // missing continuation + if (simdjson_unlikely(idx+3 > len || !is_continuation(buf[idx+1]) || !is_continuation(buf[idx+2]) || !is_continuation(buf[idx+3]))) { + if (idx+2 > len && partial) { idx = len; return; } + error = UTF8_ERROR; + idx++; + return; + } + // overlong: 11110000 1000____ ________ ________ + if (buf[idx] == 0b11110000 && buf[idx+1] <= 0b10001111) { error = UTF8_ERROR; } + // too large: > U+10FFFF: + // 11110100 (1001|101_)____ + // 1111(1___|011_|0101) 10______ + // also includes 5, 6, 7 and 8 byte characters: + // 11111___ + if (buf[idx] == 0b11110100 && buf[idx+1] >= 0b10010000) { error = UTF8_ERROR; } + if (buf[idx] >= 0b11110101) { error = UTF8_ERROR; } + idx += 4; +} + +// Returns true if the string is unclosed. +simdjson_really_inline bool validate_string() { + idx++; // skip first quote + while (idx < len && buf[idx] != '"') { + if (buf[idx] == '\\') { + idx += 2; + } else if (simdjson_unlikely(buf[idx] & 0b10000000)) { + validate_utf8_character(); + } else { + if (buf[idx] < 0x20) { error = UNESCAPED_CHARS; } + idx++; + } + } + if (idx >= len) { return true; } + return false; +} + +simdjson_really_inline bool is_whitespace_or_operator(uint8_t c) { + switch (c) { + case '{': case '}': case '[': case ']': case ',': case ':': + case ' ': case '\r': case '\n': case '\t': + return true; + default: + return false; + } +} + +// +// Parse the entire input in STEP_SIZE-byte chunks. +// +simdjson_really_inline error_code scan() { + bool unclosed_string = false; + for (;idx 0) { + return CAPACITY; // If the buffer is partial but the document is incomplete, it's too big to parse. + } + parser.n_structural_indexes = new_structural_indexes; + } else if(unclosed_string) { error = UNCLOSED_STRING; } + return error; +} + +private: + const uint8_t *buf; + uint32_t *next_structural_index; + dom_parser_implementation &parser; + uint32_t len; + uint32_t idx{0}; + error_code error{SUCCESS}; + bool partial; +}; // structural_scanner + +} // namespace stage1 +} // unnamed namespace + +simdjson_warn_unused error_code dom_parser_implementation::stage1(const uint8_t *_buf, size_t _len, bool partial) noexcept { + this->buf = _buf; + this->len = _len; + stage1::structural_scanner scanner(*this, partial); + return scanner.scan(); +} + +// big table for the minifier +static uint8_t jump_table[256 * 3] = { + 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, + 1, 1, 0, 1, 0, 0, 1, 0, 0, 1, 1, 0, 1, 1, 0, 1, 0, 0, 1, 1, 0, 1, 1, 0, 1, + 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, + 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 0, 0, + 1, 1, 1, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, + 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, + 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, + 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, + 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, + 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, + 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, + 1, 0, 0, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, + 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, + 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, + 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, + 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, + 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, + 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, + 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, + 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, + 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, + 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, + 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, + 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, + 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, + 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, + 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, + 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, + 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, + 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, + 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, 0, 1, 1, +}; + +simdjson_warn_unused error_code implementation::minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) const noexcept { + size_t i = 0, pos = 0; + uint8_t quote = 0; + uint8_t nonescape = 1; + + while (i < len) { + unsigned char c = buf[i]; + uint8_t *meta = jump_table + 3 * c; + + quote = quote ^ (meta[0] & nonescape); + dst[pos] = c; + pos += meta[2] | quote; + + i += 1; + nonescape = uint8_t(~nonescape) | (meta[1]); + } + dst_len = pos; // we intentionally do not work with a reference + // for fear of aliasing + return quote ? UNCLOSED_STRING : SUCCESS; +} + +// credit: based on code from Google Fuchsia (Apache Licensed) +simdjson_warn_unused bool implementation::validate_utf8(const char *buf, size_t len) const noexcept { + const uint8_t *data = (const uint8_t *)buf; + uint64_t pos = 0; + uint32_t code_point = 0; + while (pos < len) { + // check of the next 8 bytes are ascii. + uint64_t next_pos = pos + 16; + if (next_pos <= len) { // if it is safe to read 8 more bytes, check that they are ascii + uint64_t v1; + memcpy(&v1, data + pos, sizeof(uint64_t)); + uint64_t v2; + memcpy(&v2, data + pos + sizeof(uint64_t), sizeof(uint64_t)); + uint64_t v{v1 | v2}; + if ((v & 0x8080808080808080) == 0) { + pos = next_pos; + continue; + } + } + unsigned char byte = data[pos]; + if (byte < 0b10000000) { + pos++; + continue; + } else if ((byte & 0b11100000) == 0b11000000) { + next_pos = pos + 2; + if (next_pos > len) { return false; } + if ((data[pos + 1] & 0b11000000) != 0b10000000) { return false; } + // range check + code_point = (byte & 0b00011111) << 6 | (data[pos + 1] & 0b00111111); + if (code_point < 0x80 || 0x7ff < code_point) { return false; } + } else if ((byte & 0b11110000) == 0b11100000) { + next_pos = pos + 3; + if (next_pos > len) { return false; } + if ((data[pos + 1] & 0b11000000) != 0b10000000) { return false; } + if ((data[pos + 2] & 0b11000000) != 0b10000000) { return false; } + // range check + code_point = (byte & 0b00001111) << 12 | + (data[pos + 1] & 0b00111111) << 6 | + (data[pos + 2] & 0b00111111); + if (code_point < 0x800 || 0xffff < code_point || + (0xd7ff < code_point && code_point < 0xe000)) { + return false; + } + } else if ((byte & 0b11111000) == 0b11110000) { // 0b11110000 + next_pos = pos + 4; + if (next_pos > len) { return false; } + if ((data[pos + 1] & 0b11000000) != 0b10000000) { return false; } + if ((data[pos + 2] & 0b11000000) != 0b10000000) { return false; } + if ((data[pos + 3] & 0b11000000) != 0b10000000) { return false; } + // range check + code_point = + (byte & 0b00000111) << 18 | (data[pos + 1] & 0b00111111) << 12 | + (data[pos + 2] & 0b00111111) << 6 | (data[pos + 3] & 0b00111111); + if (code_point <= 0xffff || 0x10ffff < code_point) { return false; } + } else { + // we may have a continuation + return false; + } + pos = next_pos; + } + return true; +} + +} // namespace fallback +} // namespace simdjson + +// +// Stage 2 +// +/* begin file src/generic/stage2/tape_builder.h */ +/* begin file src/generic/stage2/json_iterator.h */ +/* begin file src/generic/stage2/logger.h */ +// This is for an internal-only stage 2 specific logger. +// Set LOG_ENABLED = true to log what stage 2 is doing! +namespace simdjson { +namespace fallback { +namespace { +namespace logger { + + static constexpr const char * DASHES = "----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------"; + +#if SIMDJSON_VERBOSE_LOGGING + static constexpr const bool LOG_ENABLED = true; +#else + static constexpr const bool LOG_ENABLED = false; +#endif + static constexpr const int LOG_EVENT_LEN = 20; + static constexpr const int LOG_BUFFER_LEN = 30; + static constexpr const int LOG_SMALL_BUFFER_LEN = 10; + static constexpr const int LOG_INDEX_LEN = 5; + + static int log_depth; // Not threadsafe. Log only. + + // Helper to turn unprintable or newline characters into spaces + static simdjson_really_inline char printable_char(char c) { + if (c >= 0x20) { + return c; + } else { + return ' '; + } + } + + // Print the header and set up log_start + static simdjson_really_inline void log_start() { + if (LOG_ENABLED) { + log_depth = 0; + printf("\n"); + printf("| %-*s | %-*s | %-*s | %-*s | Detail |\n", LOG_EVENT_LEN, "Event", LOG_BUFFER_LEN, "Buffer", LOG_SMALL_BUFFER_LEN, "Next", 5, "Next#"); + printf("|%.*s|%.*s|%.*s|%.*s|--------|\n", LOG_EVENT_LEN+2, DASHES, LOG_BUFFER_LEN+2, DASHES, LOG_SMALL_BUFFER_LEN+2, DASHES, 5+2, DASHES); + } + } + + simdjson_unused static simdjson_really_inline void log_string(const char *message) { + if (LOG_ENABLED) { + printf("%s\n", message); + } + } + + // Logs a single line from the stage 2 DOM parser + template + static simdjson_really_inline void log_line(S &structurals, const char *title_prefix, const char *title, const char *detail) { + if (LOG_ENABLED) { + printf("| %*s%s%-*s ", log_depth*2, "", title_prefix, LOG_EVENT_LEN - log_depth*2 - int(strlen(title_prefix)), title); + auto current_index = structurals.at_beginning() ? nullptr : structurals.next_structural-1; + auto next_index = structurals.next_structural; + auto current = current_index ? &structurals.buf[*current_index] : (const uint8_t*)" "; + auto next = &structurals.buf[*next_index]; + { + // Print the next N characters in the buffer. + printf("| "); + // Otherwise, print the characters starting from the buffer position. + // Print spaces for unprintable or newline characters. + for (int i=0;i + simdjson_warn_unused simdjson_really_inline error_code walk_document(V &visitor) noexcept; + + /** + * Create an iterator capable of walking a JSON document. + * + * The document must have already passed through stage 1. + */ + simdjson_really_inline json_iterator(dom_parser_implementation &_dom_parser, size_t start_structural_index); + + /** + * Look at the next token. + * + * Tokens can be strings, numbers, booleans, null, or operators (`[{]},:`)). + * + * They may include invalid JSON as well (such as `1.2.3` or `ture`). + */ + simdjson_really_inline const uint8_t *peek() const noexcept; + /** + * Advance to the next token. + * + * Tokens can be strings, numbers, booleans, null, or operators (`[{]},:`)). + * + * They may include invalid JSON as well (such as `1.2.3` or `ture`). + */ + simdjson_really_inline const uint8_t *advance() noexcept; + /** + * Get the remaining length of the document, from the start of the current token. + */ + simdjson_really_inline size_t remaining_len() const noexcept; + /** + * Check if we are at the end of the document. + * + * If this is true, there are no more tokens. + */ + simdjson_really_inline bool at_eof() const noexcept; + /** + * Check if we are at the beginning of the document. + */ + simdjson_really_inline bool at_beginning() const noexcept; + simdjson_really_inline uint8_t last_structural() const noexcept; + + /** + * Log that a value has been found. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_value(const char *type) const noexcept; + /** + * Log the start of a multipart value. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_start_value(const char *type) const noexcept; + /** + * Log the end of a multipart value. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_end_value(const char *type) const noexcept; + /** + * Log an error. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_error(const char *error) const noexcept; + + template + simdjson_warn_unused simdjson_really_inline error_code visit_root_primitive(V &visitor, const uint8_t *value) noexcept; + template + simdjson_warn_unused simdjson_really_inline error_code visit_primitive(V &visitor, const uint8_t *value) noexcept; +}; + +template +simdjson_warn_unused simdjson_really_inline error_code json_iterator::walk_document(V &visitor) noexcept { + logger::log_start(); + + // + // Start the document + // + if (at_eof()) { return EMPTY; } + log_start_value("document"); + SIMDJSON_TRY( visitor.visit_document_start(*this) ); + + // + // Read first value + // + { + auto value = advance(); + + // Make sure the outer hash or array is closed before continuing; otherwise, there are ways we + // could get into memory corruption. See https://github.com/simdjson/simdjson/issues/906 + if (!STREAMING) { + switch (*value) { + case '{': if (last_structural() != '}') { return TAPE_ERROR; }; break; + case '[': if (last_structural() != ']') { return TAPE_ERROR; }; break; + } + } + + switch (*value) { + case '{': if (*peek() == '}') { advance(); log_value("empty object"); SIMDJSON_TRY( visitor.visit_empty_object(*this) ); break; } goto object_begin; + case '[': if (*peek() == ']') { advance(); log_value("empty array"); SIMDJSON_TRY( visitor.visit_empty_array(*this) ); break; } goto array_begin; + default: SIMDJSON_TRY( visitor.visit_root_primitive(*this, value) ); break; + } + } + goto document_end; + +// +// Object parser states +// +object_begin: + log_start_value("object"); + depth++; + if (depth >= dom_parser.max_depth()) { log_error("Exceeded max depth!"); return DEPTH_ERROR; } + dom_parser.is_array[depth] = false; + SIMDJSON_TRY( visitor.visit_object_start(*this) ); + + { + auto key = advance(); + if (*key != '"') { log_error("Object does not start with a key"); return TAPE_ERROR; } + SIMDJSON_TRY( visitor.increment_count(*this) ); + SIMDJSON_TRY( visitor.visit_key(*this, key) ); + } + +object_field: + if (simdjson_unlikely( *advance() != ':' )) { log_error("Missing colon after key in object"); return TAPE_ERROR; } + { + auto value = advance(); + switch (*value) { + case '{': if (*peek() == '}') { advance(); log_value("empty object"); SIMDJSON_TRY( visitor.visit_empty_object(*this) ); break; } goto object_begin; + case '[': if (*peek() == ']') { advance(); log_value("empty array"); SIMDJSON_TRY( visitor.visit_empty_array(*this) ); break; } goto array_begin; + default: SIMDJSON_TRY( visitor.visit_primitive(*this, value) ); break; + } + } + +object_continue: + switch (*advance()) { + case ',': + SIMDJSON_TRY( visitor.increment_count(*this) ); + { + auto key = advance(); + if (simdjson_unlikely( *key != '"' )) { log_error("Key string missing at beginning of field in object"); return TAPE_ERROR; } + SIMDJSON_TRY( visitor.visit_key(*this, key) ); + } + goto object_field; + case '}': log_end_value("object"); SIMDJSON_TRY( visitor.visit_object_end(*this) ); goto scope_end; + default: log_error("No comma between object fields"); return TAPE_ERROR; + } + +scope_end: + depth--; + if (depth == 0) { goto document_end; } + if (dom_parser.is_array[depth]) { goto array_continue; } + goto object_continue; + +// +// Array parser states +// +array_begin: + log_start_value("array"); + depth++; + if (depth >= dom_parser.max_depth()) { log_error("Exceeded max depth!"); return DEPTH_ERROR; } + dom_parser.is_array[depth] = true; + SIMDJSON_TRY( visitor.visit_array_start(*this) ); + SIMDJSON_TRY( visitor.increment_count(*this) ); + +array_value: + { + auto value = advance(); + switch (*value) { + case '{': if (*peek() == '}') { advance(); log_value("empty object"); SIMDJSON_TRY( visitor.visit_empty_object(*this) ); break; } goto object_begin; + case '[': if (*peek() == ']') { advance(); log_value("empty array"); SIMDJSON_TRY( visitor.visit_empty_array(*this) ); break; } goto array_begin; + default: SIMDJSON_TRY( visitor.visit_primitive(*this, value) ); break; + } + } + +array_continue: + switch (*advance()) { + case ',': SIMDJSON_TRY( visitor.increment_count(*this) ); goto array_value; + case ']': log_end_value("array"); SIMDJSON_TRY( visitor.visit_array_end(*this) ); goto scope_end; + default: log_error("Missing comma between array values"); return TAPE_ERROR; + } + +document_end: + log_end_value("document"); + SIMDJSON_TRY( visitor.visit_document_end(*this) ); + + dom_parser.next_structural_index = uint32_t(next_structural - &dom_parser.structural_indexes[0]); + + // If we didn't make it to the end, it's an error + if ( !STREAMING && dom_parser.next_structural_index != dom_parser.n_structural_indexes ) { + log_error("More than one JSON value at the root of the document, or extra characters at the end of the JSON!"); + return TAPE_ERROR; + } + + return SUCCESS; + +} // walk_document() + +simdjson_really_inline json_iterator::json_iterator(dom_parser_implementation &_dom_parser, size_t start_structural_index) + : buf{_dom_parser.buf}, + next_structural{&_dom_parser.structural_indexes[start_structural_index]}, + dom_parser{_dom_parser} { +} + +simdjson_really_inline const uint8_t *json_iterator::peek() const noexcept { + return &buf[*(next_structural)]; +} +simdjson_really_inline const uint8_t *json_iterator::advance() noexcept { + return &buf[*(next_structural++)]; +} +simdjson_really_inline size_t json_iterator::remaining_len() const noexcept { + return dom_parser.len - *(next_structural-1); +} + +simdjson_really_inline bool json_iterator::at_eof() const noexcept { + return next_structural == &dom_parser.structural_indexes[dom_parser.n_structural_indexes]; +} +simdjson_really_inline bool json_iterator::at_beginning() const noexcept { + return next_structural == dom_parser.structural_indexes.get(); +} +simdjson_really_inline uint8_t json_iterator::last_structural() const noexcept { + return buf[dom_parser.structural_indexes[dom_parser.n_structural_indexes - 1]]; +} + +simdjson_really_inline void json_iterator::log_value(const char *type) const noexcept { + logger::log_line(*this, "", type, ""); +} + +simdjson_really_inline void json_iterator::log_start_value(const char *type) const noexcept { + logger::log_line(*this, "+", type, ""); + if (logger::LOG_ENABLED) { logger::log_depth++; } +} + +simdjson_really_inline void json_iterator::log_end_value(const char *type) const noexcept { + if (logger::LOG_ENABLED) { logger::log_depth--; } + logger::log_line(*this, "-", type, ""); +} + +simdjson_really_inline void json_iterator::log_error(const char *error) const noexcept { + logger::log_line(*this, "", "ERROR", error); +} + +template +simdjson_warn_unused simdjson_really_inline error_code json_iterator::visit_root_primitive(V &visitor, const uint8_t *value) noexcept { + switch (*value) { + case '"': return visitor.visit_root_string(*this, value); + case 't': return visitor.visit_root_true_atom(*this, value); + case 'f': return visitor.visit_root_false_atom(*this, value); + case 'n': return visitor.visit_root_null_atom(*this, value); + case '-': + case '0': case '1': case '2': case '3': case '4': + case '5': case '6': case '7': case '8': case '9': + return visitor.visit_root_number(*this, value); + default: + log_error("Document starts with a non-value character"); + return TAPE_ERROR; + } +} +template +simdjson_warn_unused simdjson_really_inline error_code json_iterator::visit_primitive(V &visitor, const uint8_t *value) noexcept { + switch (*value) { + case '"': return visitor.visit_string(*this, value); + case 't': return visitor.visit_true_atom(*this, value); + case 'f': return visitor.visit_false_atom(*this, value); + case 'n': return visitor.visit_null_atom(*this, value); + case '-': + case '0': case '1': case '2': case '3': case '4': + case '5': case '6': case '7': case '8': case '9': + return visitor.visit_number(*this, value); + default: + log_error("Non-value found when value was expected!"); + return TAPE_ERROR; + } +} + +} // namespace stage2 +} // unnamed namespace +} // namespace fallback +} // namespace simdjson +/* end file src/generic/stage2/json_iterator.h */ +/* begin file src/generic/stage2/tape_writer.h */ +namespace simdjson { +namespace fallback { +namespace { +namespace stage2 { + +struct tape_writer { + /** The next place to write to tape */ + uint64_t *next_tape_loc; + + /** Write a signed 64-bit value to tape. */ + simdjson_really_inline void append_s64(int64_t value) noexcept; + + /** Write an unsigned 64-bit value to tape. */ + simdjson_really_inline void append_u64(uint64_t value) noexcept; + + /** Write a double value to tape. */ + simdjson_really_inline void append_double(double value) noexcept; + + /** + * Append a tape entry (an 8-bit type,and 56 bits worth of value). + */ + simdjson_really_inline void append(uint64_t val, internal::tape_type t) noexcept; + + /** + * Skip the current tape entry without writing. + * + * Used to skip the start of the container, since we'll come back later to fill it in when the + * container ends. + */ + simdjson_really_inline void skip() noexcept; + + /** + * Skip the number of tape entries necessary to write a large u64 or i64. + */ + simdjson_really_inline void skip_large_integer() noexcept; + + /** + * Skip the number of tape entries necessary to write a double. + */ + simdjson_really_inline void skip_double() noexcept; + + /** + * Write a value to a known location on tape. + * + * Used to go back and write out the start of a container after the container ends. + */ + simdjson_really_inline static void write(uint64_t &tape_loc, uint64_t val, internal::tape_type t) noexcept; + +private: + /** + * Append both the tape entry, and a supplementary value following it. Used for types that need + * all 64 bits, such as double and uint64_t. + */ + template + simdjson_really_inline void append2(uint64_t val, T val2, internal::tape_type t) noexcept; +}; // struct number_writer + +simdjson_really_inline void tape_writer::append_s64(int64_t value) noexcept { + append2(0, value, internal::tape_type::INT64); +} + +simdjson_really_inline void tape_writer::append_u64(uint64_t value) noexcept { + append(0, internal::tape_type::UINT64); + *next_tape_loc = value; + next_tape_loc++; +} + +/** Write a double value to tape. */ +simdjson_really_inline void tape_writer::append_double(double value) noexcept { + append2(0, value, internal::tape_type::DOUBLE); +} + +simdjson_really_inline void tape_writer::skip() noexcept { + next_tape_loc++; +} + +simdjson_really_inline void tape_writer::skip_large_integer() noexcept { + next_tape_loc += 2; +} + +simdjson_really_inline void tape_writer::skip_double() noexcept { + next_tape_loc += 2; +} + +simdjson_really_inline void tape_writer::append(uint64_t val, internal::tape_type t) noexcept { + *next_tape_loc = val | ((uint64_t(char(t))) << 56); + next_tape_loc++; +} + +template +simdjson_really_inline void tape_writer::append2(uint64_t val, T val2, internal::tape_type t) noexcept { + append(val, t); + static_assert(sizeof(val2) == sizeof(*next_tape_loc), "Type is not 64 bits!"); + memcpy(next_tape_loc, &val2, sizeof(val2)); + next_tape_loc++; +} + +simdjson_really_inline void tape_writer::write(uint64_t &tape_loc, uint64_t val, internal::tape_type t) noexcept { + tape_loc = val | ((uint64_t(char(t))) << 56); +} + +} // namespace stage2 +} // unnamed namespace +} // namespace fallback +} // namespace simdjson +/* end file src/generic/stage2/tape_writer.h */ + +namespace simdjson { +namespace fallback { +namespace { +namespace stage2 { + +struct tape_builder { + template + simdjson_warn_unused static simdjson_really_inline error_code parse_document( + dom_parser_implementation &dom_parser, + dom::document &doc) noexcept; + + /** Called when a non-empty document starts. */ + simdjson_warn_unused simdjson_really_inline error_code visit_document_start(json_iterator &iter) noexcept; + /** Called when a non-empty document ends without error. */ + simdjson_warn_unused simdjson_really_inline error_code visit_document_end(json_iterator &iter) noexcept; + + /** Called when a non-empty array starts. */ + simdjson_warn_unused simdjson_really_inline error_code visit_array_start(json_iterator &iter) noexcept; + /** Called when a non-empty array ends. */ + simdjson_warn_unused simdjson_really_inline error_code visit_array_end(json_iterator &iter) noexcept; + /** Called when an empty array is found. */ + simdjson_warn_unused simdjson_really_inline error_code visit_empty_array(json_iterator &iter) noexcept; + + /** Called when a non-empty object starts. */ + simdjson_warn_unused simdjson_really_inline error_code visit_object_start(json_iterator &iter) noexcept; + /** + * Called when a key in a field is encountered. + * + * primitive, visit_object_start, visit_empty_object, visit_array_start, or visit_empty_array + * will be called after this with the field value. + */ + simdjson_warn_unused simdjson_really_inline error_code visit_key(json_iterator &iter, const uint8_t *key) noexcept; + /** Called when a non-empty object ends. */ + simdjson_warn_unused simdjson_really_inline error_code visit_object_end(json_iterator &iter) noexcept; + /** Called when an empty object is found. */ + simdjson_warn_unused simdjson_really_inline error_code visit_empty_object(json_iterator &iter) noexcept; + + /** + * Called when a string, number, boolean or null is found. + */ + simdjson_warn_unused simdjson_really_inline error_code visit_primitive(json_iterator &iter, const uint8_t *value) noexcept; + /** + * Called when a string, number, boolean or null is found at the top level of a document (i.e. + * when there is no array or object and the entire document is a single string, number, boolean or + * null. + * + * This is separate from primitive() because simdjson's normal primitive parsing routines assume + * there is at least one more token after the value, which is only true in an array or object. + */ + simdjson_warn_unused simdjson_really_inline error_code visit_root_primitive(json_iterator &iter, const uint8_t *value) noexcept; + + simdjson_warn_unused simdjson_really_inline error_code visit_string(json_iterator &iter, const uint8_t *value, bool key = false) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_number(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_true_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_false_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_null_atom(json_iterator &iter, const uint8_t *value) noexcept; + + simdjson_warn_unused simdjson_really_inline error_code visit_root_string(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_number(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_true_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_false_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_null_atom(json_iterator &iter, const uint8_t *value) noexcept; + + /** Called each time a new field or element in an array or object is found. */ + simdjson_warn_unused simdjson_really_inline error_code increment_count(json_iterator &iter) noexcept; + + /** Next location to write to tape */ + tape_writer tape; +private: + /** Next write location in the string buf for stage 2 parsing */ + uint8_t *current_string_buf_loc; + + simdjson_really_inline tape_builder(dom::document &doc) noexcept; + + simdjson_really_inline uint32_t next_tape_index(json_iterator &iter) const noexcept; + simdjson_really_inline void start_container(json_iterator &iter) noexcept; + simdjson_warn_unused simdjson_really_inline error_code end_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept; + simdjson_warn_unused simdjson_really_inline error_code empty_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept; + simdjson_really_inline uint8_t *on_start_string(json_iterator &iter) noexcept; + simdjson_really_inline void on_end_string(uint8_t *dst) noexcept; +}; // class tape_builder + +template +simdjson_warn_unused simdjson_really_inline error_code tape_builder::parse_document( + dom_parser_implementation &dom_parser, + dom::document &doc) noexcept { + dom_parser.doc = &doc; + json_iterator iter(dom_parser, STREAMING ? dom_parser.next_structural_index : 0); + tape_builder builder(doc); + return iter.walk_document(builder); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_primitive(json_iterator &iter, const uint8_t *value) noexcept { + return iter.visit_root_primitive(*this, value); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_primitive(json_iterator &iter, const uint8_t *value) noexcept { + return iter.visit_primitive(*this, value); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_empty_object(json_iterator &iter) noexcept { + return empty_container(iter, internal::tape_type::START_OBJECT, internal::tape_type::END_OBJECT); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_empty_array(json_iterator &iter) noexcept { + return empty_container(iter, internal::tape_type::START_ARRAY, internal::tape_type::END_ARRAY); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_document_start(json_iterator &iter) noexcept { + start_container(iter); + return SUCCESS; +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_object_start(json_iterator &iter) noexcept { + start_container(iter); + return SUCCESS; +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_array_start(json_iterator &iter) noexcept { + start_container(iter); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_object_end(json_iterator &iter) noexcept { + return end_container(iter, internal::tape_type::START_OBJECT, internal::tape_type::END_OBJECT); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_array_end(json_iterator &iter) noexcept { + return end_container(iter, internal::tape_type::START_ARRAY, internal::tape_type::END_ARRAY); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_document_end(json_iterator &iter) noexcept { + constexpr uint32_t start_tape_index = 0; + tape.append(start_tape_index, internal::tape_type::ROOT); + tape_writer::write(iter.dom_parser.doc->tape[start_tape_index], next_tape_index(iter), internal::tape_type::ROOT); + return SUCCESS; +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_key(json_iterator &iter, const uint8_t *key) noexcept { + return visit_string(iter, key, true); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::increment_count(json_iterator &iter) noexcept { + iter.dom_parser.open_containers[iter.depth].count++; // we have a key value pair in the object at parser.dom_parser.depth - 1 + return SUCCESS; +} + +simdjson_really_inline tape_builder::tape_builder(dom::document &doc) noexcept : tape{doc.tape.get()}, current_string_buf_loc{doc.string_buf.get()} {} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_string(json_iterator &iter, const uint8_t *value, bool key) noexcept { + iter.log_value(key ? "key" : "string"); + uint8_t *dst = on_start_string(iter); + dst = stringparsing::parse_string(value+1, dst); + if (dst == nullptr) { + iter.log_error("Invalid escape in string"); + return STRING_ERROR; + } + on_end_string(dst); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_string(json_iterator &iter, const uint8_t *value) noexcept { + return visit_string(iter, value); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_number(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("number"); + return numberparsing::parse_number(value, tape); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_number(json_iterator &iter, const uint8_t *value) noexcept { + // + // We need to make a copy to make sure that the string is space terminated. + // This is not about padding the input, which should already padded up + // to len + SIMDJSON_PADDING. However, we have no control at this stage + // on how the padding was done. What if the input string was padded with nulls? + // It is quite common for an input string to have an extra null character (C string). + // We do not want to allow 9\0 (where \0 is the null character) inside a JSON + // document, but the string "9\0" by itself is fine. So we make a copy and + // pad the input with spaces when we know that there is just one input element. + // This copy is relatively expensive, but it will almost never be called in + // practice unless you are in the strange scenario where you have many JSON + // documents made of single atoms. + // + uint8_t *copy = static_cast(malloc(iter.remaining_len() + SIMDJSON_PADDING)); + if (copy == nullptr) { return MEMALLOC; } + std::memcpy(copy, value, iter.remaining_len()); + std::memset(copy + iter.remaining_len(), ' ', SIMDJSON_PADDING); + error_code error = visit_number(iter, copy); + free(copy); + return error; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_true_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("true"); + if (!atomparsing::is_valid_true_atom(value)) { return T_ATOM_ERROR; } + tape.append(0, internal::tape_type::TRUE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_true_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("true"); + if (!atomparsing::is_valid_true_atom(value, iter.remaining_len())) { return T_ATOM_ERROR; } + tape.append(0, internal::tape_type::TRUE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_false_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("false"); + if (!atomparsing::is_valid_false_atom(value)) { return F_ATOM_ERROR; } + tape.append(0, internal::tape_type::FALSE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_false_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("false"); + if (!atomparsing::is_valid_false_atom(value, iter.remaining_len())) { return F_ATOM_ERROR; } + tape.append(0, internal::tape_type::FALSE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_null_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("null"); + if (!atomparsing::is_valid_null_atom(value)) { return N_ATOM_ERROR; } + tape.append(0, internal::tape_type::NULL_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_null_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("null"); + if (!atomparsing::is_valid_null_atom(value, iter.remaining_len())) { return N_ATOM_ERROR; } + tape.append(0, internal::tape_type::NULL_VALUE); + return SUCCESS; +} + +// private: + +simdjson_really_inline uint32_t tape_builder::next_tape_index(json_iterator &iter) const noexcept { + return uint32_t(tape.next_tape_loc - iter.dom_parser.doc->tape.get()); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::empty_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept { + auto start_index = next_tape_index(iter); + tape.append(start_index+2, start); + tape.append(start_index, end); + return SUCCESS; +} + +simdjson_really_inline void tape_builder::start_container(json_iterator &iter) noexcept { + iter.dom_parser.open_containers[iter.depth].tape_index = next_tape_index(iter); + iter.dom_parser.open_containers[iter.depth].count = 0; + tape.skip(); // We don't actually *write* the start element until the end. +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::end_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept { + // Write the ending tape element, pointing at the start location + const uint32_t start_tape_index = iter.dom_parser.open_containers[iter.depth].tape_index; + tape.append(start_tape_index, end); + // Write the start tape element, pointing at the end location (and including count) + // count can overflow if it exceeds 24 bits... so we saturate + // the convention being that a cnt of 0xffffff or more is undetermined in value (>= 0xffffff). + const uint32_t count = iter.dom_parser.open_containers[iter.depth].count; + const uint32_t cntsat = count > 0xFFFFFF ? 0xFFFFFF : count; + tape_writer::write(iter.dom_parser.doc->tape[start_tape_index], next_tape_index(iter) | (uint64_t(cntsat) << 32), start); + return SUCCESS; +} + +simdjson_really_inline uint8_t *tape_builder::on_start_string(json_iterator &iter) noexcept { + // we advance the point, accounting for the fact that we have a NULL termination + tape.append(current_string_buf_loc - iter.dom_parser.doc->string_buf.get(), internal::tape_type::STRING); + return current_string_buf_loc + sizeof(uint32_t); +} + +simdjson_really_inline void tape_builder::on_end_string(uint8_t *dst) noexcept { + uint32_t str_length = uint32_t(dst - (current_string_buf_loc + sizeof(uint32_t))); + // TODO check for overflow in case someone has a crazy string (>=4GB?) + // But only add the overflow check when the document itself exceeds 4GB + // Currently unneeded because we refuse to parse docs larger or equal to 4GB. + memcpy(current_string_buf_loc, &str_length, sizeof(uint32_t)); + // NULL termination is still handy if you expect all your strings to + // be NULL terminated? It comes at a small cost + *dst = 0; + current_string_buf_loc = dst + 1; +} + +} // namespace stage2 +} // unnamed namespace +} // namespace fallback +} // namespace simdjson +/* end file src/generic/stage2/tape_builder.h */ + +namespace simdjson { +namespace fallback { + +simdjson_warn_unused error_code dom_parser_implementation::stage2(dom::document &_doc) noexcept { + return stage2::tape_builder::parse_document(*this, _doc); +} + +simdjson_warn_unused error_code dom_parser_implementation::stage2_next(dom::document &_doc) noexcept { + return stage2::tape_builder::parse_document(*this, _doc); +} + +simdjson_warn_unused error_code dom_parser_implementation::parse(const uint8_t *_buf, size_t _len, dom::document &_doc) noexcept { + auto error = stage1(_buf, _len, false); + if (error) { return error; } + return stage2(_doc); +} + +} // namespace fallback +} // namespace simdjson + +/* begin file include/simdjson/fallback/end.h */ +#undef fallback +/* end file include/simdjson/fallback/end.h */ +/* end file src/fallback/dom_parser_implementation.cpp */ +#endif +#if SIMDJSON_IMPLEMENTATION_HASWELL +/* begin file src/haswell/implementation.cpp */ +/* begin file include/simdjson/haswell/begin.h */ +// redefining SIMDJSON_IMPLEMENTATION to "haswell" +// #define SIMDJSON_IMPLEMENTATION haswell +SIMDJSON_TARGET_HASWELL +/* end file include/simdjson/haswell/begin.h */ + +namespace simdjson { +namespace haswell { + +simdjson_warn_unused error_code implementation::create_dom_parser_implementation( + size_t capacity, + size_t max_depth, + std::unique_ptr& dst +) const noexcept { + dst.reset( new (std::nothrow) dom_parser_implementation() ); + if (!dst) { return MEMALLOC; } + dst->set_capacity(capacity); + dst->set_max_depth(max_depth); + return SUCCESS; +} + +} // namespace haswell +} // namespace simdjson + +/* begin file include/simdjson/haswell/end.h */ +SIMDJSON_UNTARGET_REGION +#undef haswell +/* end file include/simdjson/haswell/end.h */ + +/* end file src/haswell/implementation.cpp */ +/* begin file src/haswell/dom_parser_implementation.cpp */ +/* begin file include/simdjson/haswell/begin.h */ +// redefining SIMDJSON_IMPLEMENTATION to "haswell" +// #define SIMDJSON_IMPLEMENTATION haswell +SIMDJSON_TARGET_HASWELL +/* end file include/simdjson/haswell/begin.h */ + +// +// Stage 1 +// + +namespace simdjson { +namespace haswell { +namespace { + +using namespace simd; + +struct json_character_block { + static simdjson_really_inline json_character_block classify(const simd::simd8x64& in); + // ASCII white-space ('\r','\n','\t',' ') + simdjson_really_inline uint64_t whitespace() const; + // non-quote structural characters (comma, colon, braces, brackets) + simdjson_really_inline uint64_t op() const; + // neither a structural character nor a white-space, so letters, numbers and quotes + simdjson_really_inline uint64_t scalar() const; + + uint64_t _whitespace; // ASCII white-space ('\r','\n','\t',' ') + uint64_t _op; // structural characters (comma, colon, braces, brackets but not quotes) +}; + +simdjson_really_inline uint64_t json_character_block::whitespace() const { return _whitespace; } +simdjson_really_inline uint64_t json_character_block::op() const { return _op; } +simdjson_really_inline uint64_t json_character_block::scalar() const { return ~(op() | whitespace()); } + +// This identifies structural characters (comma, colon, braces, brackets), +// and ASCII white-space ('\r','\n','\t',' '). +simdjson_really_inline json_character_block json_character_block::classify(const simd::simd8x64& in) { + // These lookups rely on the fact that anything < 127 will match the lower 4 bits, which is why + // we can't use the generic lookup_16. + const auto whitespace_table = simd8::repeat_16(' ', 100, 100, 100, 17, 100, 113, 2, 100, '\t', '\n', 112, 100, '\r', 100, 100); + + // The 6 operators (:,[]{}) have these values: + // + // , 2C + // : 3A + // [ 5B + // { 7B + // ] 5D + // } 7D + // + // If you use | 0x20 to turn [ and ] into { and }, the lower 4 bits of each character is unique. + // We exploit this, using a simd 4-bit lookup to tell us which character match against, and then + // match it (against | 0x20). + // + // To prevent recognizing other characters, everything else gets compared with 0, which cannot + // match due to the | 0x20. + // + // NOTE: Due to the | 0x20, this ALSO treats and (control characters 0C and 1A) like , + // and :. This gets caught in stage 2, which checks the actual character to ensure the right + // operators are in the right places. + const auto op_table = simd8::repeat_16( + 0, 0, 0, 0, + 0, 0, 0, 0, + 0, 0, ':', '{', // : = 3A, [ = 5B, { = 7B + ',', '}', 0, 0 // , = 2C, ] = 5D, } = 7D + ); + + // We compute whitespace and op separately. If later code only uses one or the + // other, given the fact that all functions are aggressively inlined, we can + // hope that useless computations will be omitted. This is namely case when + // minifying (we only need whitespace). + + const uint64_t whitespace = in.eq({ + _mm256_shuffle_epi8(whitespace_table, in.chunks[0]), + _mm256_shuffle_epi8(whitespace_table, in.chunks[1]) + }); + // Turn [ and ] into { and } + const simd8x64 curlified{ + in.chunks[0] | 0x20, + in.chunks[1] | 0x20 + }; + const uint64_t op = curlified.eq({ + _mm256_shuffle_epi8(op_table, in.chunks[0]), + _mm256_shuffle_epi8(op_table, in.chunks[1]) + }); + + return { whitespace, op }; +} + +simdjson_really_inline bool is_ascii(const simd8x64& input) { + return input.reduce_or().is_ascii(); +} + +simdjson_unused simdjson_really_inline simd8 must_be_continuation(const simd8 prev1, const simd8 prev2, const simd8 prev3) { + simd8 is_second_byte = prev1.saturating_sub(0b11000000u-1); // Only 11______ will be > 0 + simd8 is_third_byte = prev2.saturating_sub(0b11100000u-1); // Only 111_____ will be > 0 + simd8 is_fourth_byte = prev3.saturating_sub(0b11110000u-1); // Only 1111____ will be > 0 + // Caller requires a bool (all 1's). All values resulting from the subtraction will be <= 64, so signed comparison is fine. + return simd8(is_second_byte | is_third_byte | is_fourth_byte) > int8_t(0); +} + +simdjson_really_inline simd8 must_be_2_3_continuation(const simd8 prev2, const simd8 prev3) { + simd8 is_third_byte = prev2.saturating_sub(0b11100000u-1); // Only 111_____ will be > 0 + simd8 is_fourth_byte = prev3.saturating_sub(0b11110000u-1); // Only 1111____ will be > 0 + // Caller requires a bool (all 1's). All values resulting from the subtraction will be <= 64, so signed comparison is fine. + return simd8(is_third_byte | is_fourth_byte) > int8_t(0); +} + +} // unnamed namespace +} // namespace haswell +} // namespace simdjson + +/* begin file src/generic/stage1/utf8_lookup4_algorithm.h */ +namespace simdjson { +namespace haswell { +namespace { +namespace utf8_validation { + +using namespace simd; + + simdjson_really_inline simd8 check_special_cases(const simd8 input, const simd8 prev1) { +// Bit 0 = Too Short (lead byte/ASCII followed by lead byte/ASCII) +// Bit 1 = Too Long (ASCII followed by continuation) +// Bit 2 = Overlong 3-byte +// Bit 4 = Surrogate +// Bit 5 = Overlong 2-byte +// Bit 7 = Two Continuations + constexpr const uint8_t TOO_SHORT = 1<<0; // 11______ 0_______ + // 11______ 11______ + constexpr const uint8_t TOO_LONG = 1<<1; // 0_______ 10______ + constexpr const uint8_t OVERLONG_3 = 1<<2; // 11100000 100_____ + constexpr const uint8_t SURROGATE = 1<<4; // 11101101 101_____ + constexpr const uint8_t OVERLONG_2 = 1<<5; // 1100000_ 10______ + constexpr const uint8_t TWO_CONTS = 1<<7; // 10______ 10______ + constexpr const uint8_t TOO_LARGE = 1<<3; // 11110100 1001____ + // 11110100 101_____ + // 11110101 1001____ + // 11110101 101_____ + // 1111011_ 1001____ + // 1111011_ 101_____ + // 11111___ 1001____ + // 11111___ 101_____ + constexpr const uint8_t TOO_LARGE_1000 = 1<<6; + // 11110101 1000____ + // 1111011_ 1000____ + // 11111___ 1000____ + constexpr const uint8_t OVERLONG_4 = 1<<6; // 11110000 1000____ + + const simd8 byte_1_high = prev1.shr<4>().lookup_16( + // 0_______ ________ + TOO_LONG, TOO_LONG, TOO_LONG, TOO_LONG, + TOO_LONG, TOO_LONG, TOO_LONG, TOO_LONG, + // 10______ ________ + TWO_CONTS, TWO_CONTS, TWO_CONTS, TWO_CONTS, + // 1100____ ________ + TOO_SHORT | OVERLONG_2, + // 1101____ ________ + TOO_SHORT, + // 1110____ ________ + TOO_SHORT | OVERLONG_3 | SURROGATE, + // 1111____ ________ + TOO_SHORT | TOO_LARGE | TOO_LARGE_1000 | OVERLONG_4 + ); + constexpr const uint8_t CARRY = TOO_SHORT | TOO_LONG | TWO_CONTS; // These all have ____ in byte 1 . + const simd8 byte_1_low = (prev1 & 0x0F).lookup_16( + // ____0000 ________ + CARRY | OVERLONG_3 | OVERLONG_2 | OVERLONG_4, + // ____0001 ________ + CARRY | OVERLONG_2, + // ____001_ ________ + CARRY, + CARRY, + + // ____0100 ________ + CARRY | TOO_LARGE, + // ____0101 ________ + CARRY | TOO_LARGE | TOO_LARGE_1000, + // ____011_ ________ + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + + // ____1___ ________ + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + // ____1101 ________ + CARRY | TOO_LARGE | TOO_LARGE_1000 | SURROGATE, + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000 + ); + const simd8 byte_2_high = input.shr<4>().lookup_16( + // ________ 0_______ + TOO_SHORT, TOO_SHORT, TOO_SHORT, TOO_SHORT, + TOO_SHORT, TOO_SHORT, TOO_SHORT, TOO_SHORT, + + // ________ 1000____ + TOO_LONG | OVERLONG_2 | TWO_CONTS | OVERLONG_3 | TOO_LARGE_1000 | OVERLONG_4, + // ________ 1001____ + TOO_LONG | OVERLONG_2 | TWO_CONTS | OVERLONG_3 | TOO_LARGE, + // ________ 101_____ + TOO_LONG | OVERLONG_2 | TWO_CONTS | SURROGATE | TOO_LARGE, + TOO_LONG | OVERLONG_2 | TWO_CONTS | SURROGATE | TOO_LARGE, + + // ________ 11______ + TOO_SHORT, TOO_SHORT, TOO_SHORT, TOO_SHORT + ); + return (byte_1_high & byte_1_low & byte_2_high); + } + simdjson_really_inline simd8 check_multibyte_lengths(const simd8 input, + const simd8 prev_input, const simd8 sc) { + simd8 prev2 = input.prev<2>(prev_input); + simd8 prev3 = input.prev<3>(prev_input); + simd8 must23 = simd8(must_be_2_3_continuation(prev2, prev3)); + simd8 must23_80 = must23 & uint8_t(0x80); + return must23_80 ^ sc; + } + + // + // Return nonzero if there are incomplete multibyte characters at the end of the block: + // e.g. if there is a 4-byte character, but it's 3 bytes from the end. + // + simdjson_really_inline simd8 is_incomplete(const simd8 input) { + // If the previous input's last 3 bytes match this, they're too short (they ended at EOF): + // ... 1111____ 111_____ 11______ + static const uint8_t max_array[32] = { + 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 0b11110000u-1, 0b11100000u-1, 0b11000000u-1 + }; + const simd8 max_value(&max_array[sizeof(max_array)-sizeof(simd8)]); + return input.gt_bits(max_value); + } + + struct utf8_checker { + // If this is nonzero, there has been a UTF-8 error. + simd8 error; + // The last input we received + simd8 prev_input_block; + // Whether the last input we received was incomplete (used for ASCII fast path) + simd8 prev_incomplete; + + // + // Check whether the current bytes are valid UTF-8. + // + simdjson_really_inline void check_utf8_bytes(const simd8 input, const simd8 prev_input) { + // Flip prev1...prev3 so we can easily determine if they are 2+, 3+ or 4+ lead bytes + // (2, 3, 4-byte leads become large positive numbers instead of small negative numbers) + simd8 prev1 = input.prev<1>(prev_input); + simd8 sc = check_special_cases(input, prev1); + this->error |= check_multibyte_lengths(input, prev_input, sc); + } + + // The only problem that can happen at EOF is that a multibyte character is too short + // or a byte value too large in the last bytes: check_special_cases only checks for bytes + // too large in the first of two bytes. + simdjson_really_inline void check_eof() { + // If the previous block had incomplete UTF-8 characters at the end, an ASCII block can't + // possibly finish them. + this->error |= this->prev_incomplete; + } + + simdjson_really_inline void check_next_input(const simd8x64& input) { + if(simdjson_likely(is_ascii(input))) { + this->error |= this->prev_incomplete; + } else { + // you might think that a for-loop would work, but under Visual Studio, it is not good enough. + static_assert((simd8x64::NUM_CHUNKS == 2) || (simd8x64::NUM_CHUNKS == 4), + "We support either two or four chunks per 64-byte block."); + if(simd8x64::NUM_CHUNKS == 2) { + this->check_utf8_bytes(input.chunks[0], this->prev_input_block); + this->check_utf8_bytes(input.chunks[1], input.chunks[0]); + } else if(simd8x64::NUM_CHUNKS == 4) { + this->check_utf8_bytes(input.chunks[0], this->prev_input_block); + this->check_utf8_bytes(input.chunks[1], input.chunks[0]); + this->check_utf8_bytes(input.chunks[2], input.chunks[1]); + this->check_utf8_bytes(input.chunks[3], input.chunks[2]); + } + this->prev_incomplete = is_incomplete(input.chunks[simd8x64::NUM_CHUNKS-1]); + this->prev_input_block = input.chunks[simd8x64::NUM_CHUNKS-1]; + + } + } + // do not forget to call check_eof! + simdjson_really_inline error_code errors() { + return this->error.any_bits_set_anywhere() ? error_code::UTF8_ERROR : error_code::SUCCESS; + } + + }; // struct utf8_checker +} // namespace utf8_validation + +using utf8_validation::utf8_checker; + +} // unnamed namespace +} // namespace haswell +} // namespace simdjson +/* end file src/generic/stage1/utf8_lookup4_algorithm.h */ +/* begin file src/generic/stage1/json_structural_indexer.h */ +// This file contains the common code every implementation uses in stage1 +// It is intended to be included multiple times and compiled multiple times +// We assume the file in which it is included already includes +// "simdjson/stage1.h" (this simplifies amalgation) + +/* begin file src/generic/stage1/buf_block_reader.h */ +namespace simdjson { +namespace haswell { +namespace { + +// Walks through a buffer in block-sized increments, loading the last part with spaces +template +struct buf_block_reader { +public: + simdjson_really_inline buf_block_reader(const uint8_t *_buf, size_t _len); + simdjson_really_inline size_t block_index(); + simdjson_really_inline bool has_full_block() const; + simdjson_really_inline const uint8_t *full_block() const; + /** + * Get the last block, padded with spaces. + * + * There will always be a last block, with at least 1 byte, unless len == 0 (in which case this + * function fills the buffer with spaces and returns 0. In particular, if len == STEP_SIZE there + * will be 0 full_blocks and 1 remainder block with STEP_SIZE bytes and no spaces for padding. + * + * @return the number of effective characters in the last block. + */ + simdjson_really_inline size_t get_remainder(uint8_t *dst) const; + simdjson_really_inline void advance(); +private: + const uint8_t *buf; + const size_t len; + const size_t lenminusstep; + size_t idx; +}; + +// Routines to print masks and text for debugging bitmask operations +simdjson_unused static char * format_input_text_64(const uint8_t *text) { + static char *buf = (char*)malloc(sizeof(simd8x64) + 1); + for (size_t i=0; i); i++) { + buf[i] = int8_t(text[i]) < ' ' ? '_' : int8_t(text[i]); + } + buf[sizeof(simd8x64)] = '\0'; + return buf; +} + +// Routines to print masks and text for debugging bitmask operations +simdjson_unused static char * format_input_text(const simd8x64& in) { + static char *buf = (char*)malloc(sizeof(simd8x64) + 1); + in.store((uint8_t*)buf); + for (size_t i=0; i); i++) { + if (buf[i] < ' ') { buf[i] = '_'; } + } + buf[sizeof(simd8x64)] = '\0'; + return buf; +} + +simdjson_unused static char * format_mask(uint64_t mask) { + static char *buf = (char*)malloc(64 + 1); + for (size_t i=0; i<64; i++) { + buf[i] = (mask & (size_t(1) << i)) ? 'X' : ' '; + } + buf[64] = '\0'; + return buf; +} + +template +simdjson_really_inline buf_block_reader::buf_block_reader(const uint8_t *_buf, size_t _len) : buf{_buf}, len{_len}, lenminusstep{len < STEP_SIZE ? 0 : len - STEP_SIZE}, idx{0} {} + +template +simdjson_really_inline size_t buf_block_reader::block_index() { return idx; } + +template +simdjson_really_inline bool buf_block_reader::has_full_block() const { + return idx < lenminusstep; +} + +template +simdjson_really_inline const uint8_t *buf_block_reader::full_block() const { + return &buf[idx]; +} + +template +simdjson_really_inline size_t buf_block_reader::get_remainder(uint8_t *dst) const { + if(len == idx) { return 0; } // memcpy(dst, null, 0) will trigger an error with some sanitizers + std::memset(dst, 0x20, STEP_SIZE); // std::memset STEP_SIZE because it's more efficient to write out 8 or 16 bytes at once. + std::memcpy(dst, buf + idx, len - idx); + return len - idx; +} + +template +simdjson_really_inline void buf_block_reader::advance() { + idx += STEP_SIZE; +} + +} // unnamed namespace +} // namespace haswell +} // namespace simdjson +/* end file src/generic/stage1/buf_block_reader.h */ +/* begin file src/generic/stage1/json_string_scanner.h */ +namespace simdjson { +namespace haswell { +namespace { +namespace stage1 { + +struct json_string_block { + // Escaped characters (characters following an escape() character) + simdjson_really_inline uint64_t escaped() const { return _escaped; } + // Escape characters (backslashes that are not escaped--i.e. in \\, includes only the first \) + simdjson_really_inline uint64_t escape() const { return _backslash & ~_escaped; } + // Real (non-backslashed) quotes + simdjson_really_inline uint64_t quote() const { return _quote; } + // Start quotes of strings + simdjson_really_inline uint64_t string_start() const { return _quote & _in_string; } + // End quotes of strings + simdjson_really_inline uint64_t string_end() const { return _quote & ~_in_string; } + // Only characters inside the string (not including the quotes) + simdjson_really_inline uint64_t string_content() const { return _in_string & ~_quote; } + // Return a mask of whether the given characters are inside a string (only works on non-quotes) + simdjson_really_inline uint64_t non_quote_inside_string(uint64_t mask) const { return mask & _in_string; } + // Return a mask of whether the given characters are inside a string (only works on non-quotes) + simdjson_really_inline uint64_t non_quote_outside_string(uint64_t mask) const { return mask & ~_in_string; } + // Tail of string (everything except the start quote) + simdjson_really_inline uint64_t string_tail() const { return _in_string ^ _quote; } + + // backslash characters + uint64_t _backslash; + // escaped characters (backslashed--does not include the hex characters after \u) + uint64_t _escaped; + // real quotes (non-backslashed ones) + uint64_t _quote; + // string characters (includes start quote but not end quote) + uint64_t _in_string; +}; + +// Scans blocks for string characters, storing the state necessary to do so +class json_string_scanner { +public: + simdjson_really_inline json_string_block next(const simd::simd8x64& in); + // Returns either UNCLOSED_STRING or SUCCESS + simdjson_really_inline error_code finish(); + +private: + // Intended to be defined by the implementation + simdjson_really_inline uint64_t find_escaped(uint64_t escape); + simdjson_really_inline uint64_t find_escaped_branchless(uint64_t escape); + + // Whether the last iteration was still inside a string (all 1's = true, all 0's = false). + uint64_t prev_in_string = 0ULL; + // Whether the first character of the next iteration is escaped. + uint64_t prev_escaped = 0ULL; +}; + +// +// Finds escaped characters (characters following \). +// +// Handles runs of backslashes like \\\" and \\\\" correctly (yielding 0101 and 01010, respectively). +// +// Does this by: +// - Shift the escape mask to get potentially escaped characters (characters after backslashes). +// - Mask escaped sequences that start on *even* bits with 1010101010 (odd bits are escaped, even bits are not) +// - Mask escaped sequences that start on *odd* bits with 0101010101 (even bits are escaped, odd bits are not) +// +// To distinguish between escaped sequences starting on even/odd bits, it finds the start of all +// escape sequences, filters out the ones that start on even bits, and adds that to the mask of +// escape sequences. This causes the addition to clear out the sequences starting on odd bits (since +// the start bit causes a carry), and leaves even-bit sequences alone. +// +// Example: +// +// text | \\\ | \\\"\\\" \\\" \\"\\" | +// escape | xxx | xx xxx xxx xx xx | Removed overflow backslash; will | it into follows_escape +// odd_starts | x | x x x | escape & ~even_bits & ~follows_escape +// even_seq | c| cxxx c xx c | c = carry bit -- will be masked out later +// invert_mask | | cxxx c xx c| even_seq << 1 +// follows_escape | xx | x xx xxx xxx xx xx | Includes overflow bit +// escaped | x | x x x x x x x x | +// desired | x | x x x x x x x x | +// text | \\\ | \\\"\\\" \\\" \\"\\" | +// +simdjson_really_inline uint64_t json_string_scanner::find_escaped_branchless(uint64_t backslash) { + // If there was overflow, pretend the first character isn't a backslash + backslash &= ~prev_escaped; + uint64_t follows_escape = backslash << 1 | prev_escaped; + + // Get sequences starting on even bits by clearing out the odd series using + + const uint64_t even_bits = 0x5555555555555555ULL; + uint64_t odd_sequence_starts = backslash & ~even_bits & ~follows_escape; + uint64_t sequences_starting_on_even_bits; + prev_escaped = add_overflow(odd_sequence_starts, backslash, &sequences_starting_on_even_bits); + uint64_t invert_mask = sequences_starting_on_even_bits << 1; // The mask we want to return is the *escaped* bits, not escapes. + + // Mask every other backslashed character as an escaped character + // Flip the mask for sequences that start on even bits, to correct them + return (even_bits ^ invert_mask) & follows_escape; +} + +// +// Return a mask of all string characters plus end quotes. +// +// prev_escaped is overflow saying whether the next character is escaped. +// prev_in_string is overflow saying whether we're still in a string. +// +// Backslash sequences outside of quotes will be detected in stage 2. +// +simdjson_really_inline json_string_block json_string_scanner::next(const simd::simd8x64& in) { + const uint64_t backslash = in.eq('\\'); + const uint64_t escaped = find_escaped(backslash); + const uint64_t quote = in.eq('"') & ~escaped; + + // + // prefix_xor flips on bits inside the string (and flips off the end quote). + // + // Then we xor with prev_in_string: if we were in a string already, its effect is flipped + // (characters inside strings are outside, and characters outside strings are inside). + // + const uint64_t in_string = prefix_xor(quote) ^ prev_in_string; + + // + // Check if we're still in a string at the end of the box so the next block will know + // + // right shift of a signed value expected to be well-defined and standard + // compliant as of C++20, John Regher from Utah U. says this is fine code + // + prev_in_string = uint64_t(static_cast(in_string) >> 63); + + // Use ^ to turn the beginning quote off, and the end quote on. + return { + backslash, + escaped, + quote, + in_string + }; +} + +simdjson_really_inline error_code json_string_scanner::finish() { + if (prev_in_string) { + return UNCLOSED_STRING; + } + return SUCCESS; +} + +} // namespace stage1 +} // unnamed namespace +} // namespace haswell +} // namespace simdjson +/* end file src/generic/stage1/json_string_scanner.h */ +/* begin file src/generic/stage1/json_scanner.h */ +namespace simdjson { +namespace haswell { +namespace { +namespace stage1 { + +/** + * A block of scanned json, with information on operators and scalars. + * + * We seek to identify pseudo-structural characters. Anything that is inside + * a string must be omitted (hence & ~_string.string_tail()). + * Otherwise, pseudo-structural characters come in two forms. + * 1. We have the structural characters ([,],{,},:, comma). The + * term 'structural character' is from the JSON RFC. + * 2. We have the 'scalar pseudo-structural characters'. + * Scalars are quotes, and any character except structural characters and white space. + * + * To identify the scalar pseudo-structural characters, we must look at what comes + * before them: it must be a space, a quote or a structural characters. + * Starting with simdjson v0.3, we identify them by + * negation: we identify everything that is followed by a non-quote scalar, + * and we negate that. Whatever remains must be a 'scalar pseudo-structural character'. + */ +struct json_block { +public: + /** + * The start of structurals. + * In simdjson prior to v0.3, these were called the pseudo-structural characters. + **/ + simdjson_really_inline uint64_t structural_start() { return potential_structural_start() & ~_string.string_tail(); } + /** All JSON whitespace (i.e. not in a string) */ + simdjson_really_inline uint64_t whitespace() { return non_quote_outside_string(_characters.whitespace()); } + + // Helpers + + /** Whether the given characters are inside a string (only works on non-quotes) */ + simdjson_really_inline uint64_t non_quote_inside_string(uint64_t mask) { return _string.non_quote_inside_string(mask); } + /** Whether the given characters are outside a string (only works on non-quotes) */ + simdjson_really_inline uint64_t non_quote_outside_string(uint64_t mask) { return _string.non_quote_outside_string(mask); } + + // string and escape characters + json_string_block _string; + // whitespace, structural characters ('operators'), scalars + json_character_block _characters; + // whether the previous character was a scalar + uint64_t _follows_potential_nonquote_scalar; +private: + // Potential structurals (i.e. disregarding strings) + + /** + * structural elements ([,],{,},:, comma) plus scalar starts like 123, true and "abc". + * They may reside inside a string. + **/ + simdjson_really_inline uint64_t potential_structural_start() { return _characters.op() | potential_scalar_start(); } + /** + * The start of non-operator runs, like 123, true and "abc". + * It main reside inside a string. + **/ + simdjson_really_inline uint64_t potential_scalar_start() { + // The term "scalar" refers to anything except structural characters and white space + // (so letters, numbers, quotes). + // Whenever it is preceded by something that is not a structural element ({,},[,],:, ") nor a white-space + // then we know that it is irrelevant structurally. + return _characters.scalar() & ~follows_potential_scalar(); + } + /** + * Whether the given character is immediately after a non-operator like 123, true. + * The characters following a quote are not included. + */ + simdjson_really_inline uint64_t follows_potential_scalar() { + // _follows_potential_nonquote_scalar: is defined as marking any character that follows a character + // that is not a structural element ({,},[,],:, comma) nor a quote (") and that is not a + // white space. + // It is understood that within quoted region, anything at all could be marked (irrelevant). + return _follows_potential_nonquote_scalar; + } +}; + +/** + * Scans JSON for important bits: structural characters or 'operators', strings, and scalars. + * + * The scanner starts by calculating two distinct things: + * - string characters (taking \" into account) + * - structural characters or 'operators' ([]{},:, comma) + * and scalars (runs of non-operators like 123, true and "abc") + * + * To minimize data dependency (a key component of the scanner's speed), it finds these in parallel: + * in particular, the operator/scalar bit will find plenty of things that are actually part of + * strings. When we're done, json_block will fuse the two together by masking out tokens that are + * part of a string. + */ +class json_scanner { +public: + json_scanner() {} + simdjson_really_inline json_block next(const simd::simd8x64& in); + // Returns either UNCLOSED_STRING or SUCCESS + simdjson_really_inline error_code finish(); + +private: + // Whether the last character of the previous iteration is part of a scalar token + // (anything except whitespace or a structural character/'operator'). + uint64_t prev_scalar = 0ULL; + json_string_scanner string_scanner{}; +}; + + +// +// Check if the current character immediately follows a matching character. +// +// For example, this checks for quotes with backslashes in front of them: +// +// const uint64_t backslashed_quote = in.eq('"') & immediately_follows(in.eq('\'), prev_backslash); +// +simdjson_really_inline uint64_t follows(const uint64_t match, uint64_t &overflow) { + const uint64_t result = match << 1 | overflow; + overflow = match >> 63; + return result; +} + +simdjson_really_inline json_block json_scanner::next(const simd::simd8x64& in) { + json_string_block strings = string_scanner.next(in); + // identifies the white-space and the structurat characters + json_character_block characters = json_character_block::classify(in); + // The term "scalar" refers to anything except structural characters and white space + // (so letters, numbers, quotes). + // We want follows_scalar to mark anything that follows a non-quote scalar (so letters and numbers). + // + // A terminal quote should either be followed by a structural character (comma, brace, bracket, colon) + // or nothing. However, we still want ' "a string"true ' to mark the 't' of 'true' as a potential + // pseudo-structural character just like we would if we had ' "a string" true '; otherwise we + // may need to add an extra check when parsing strings. + // + // Performance: there are many ways to skin this cat. + const uint64_t nonquote_scalar = characters.scalar() & ~strings.quote(); + uint64_t follows_nonquote_scalar = follows(nonquote_scalar, prev_scalar); + return { + strings, + characters, + follows_nonquote_scalar + }; +} + +simdjson_really_inline error_code json_scanner::finish() { + return string_scanner.finish(); +} + +} // namespace stage1 +} // unnamed namespace +} // namespace haswell +} // namespace simdjson +/* end file src/generic/stage1/json_scanner.h */ +/* begin file src/generic/stage1/json_minifier.h */ +// This file contains the common code every implementation uses in stage1 +// It is intended to be included multiple times and compiled multiple times +// We assume the file in which it is included already includes +// "simdjson/stage1.h" (this simplifies amalgation) + +namespace simdjson { +namespace haswell { +namespace { +namespace stage1 { + +class json_minifier { +public: + template + static error_code minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) noexcept; + +private: + simdjson_really_inline json_minifier(uint8_t *_dst) + : dst{_dst} + {} + template + simdjson_really_inline void step(const uint8_t *block_buf, buf_block_reader &reader) noexcept; + simdjson_really_inline void next(const simd::simd8x64& in, json_block block); + simdjson_really_inline error_code finish(uint8_t *dst_start, size_t &dst_len); + json_scanner scanner{}; + uint8_t *dst; +}; + +simdjson_really_inline void json_minifier::next(const simd::simd8x64& in, json_block block) { + uint64_t mask = block.whitespace(); + in.compress(mask, dst); + dst += 64 - count_ones(mask); +} + +simdjson_really_inline error_code json_minifier::finish(uint8_t *dst_start, size_t &dst_len) { + error_code error = scanner.finish(); + if (error) { dst_len = 0; return error; } + dst_len = dst - dst_start; + return SUCCESS; +} + +template<> +simdjson_really_inline void json_minifier::step<128>(const uint8_t *block_buf, buf_block_reader<128> &reader) noexcept { + simd::simd8x64 in_1(block_buf); + simd::simd8x64 in_2(block_buf+64); + json_block block_1 = scanner.next(in_1); + json_block block_2 = scanner.next(in_2); + this->next(in_1, block_1); + this->next(in_2, block_2); + reader.advance(); +} + +template<> +simdjson_really_inline void json_minifier::step<64>(const uint8_t *block_buf, buf_block_reader<64> &reader) noexcept { + simd::simd8x64 in_1(block_buf); + json_block block_1 = scanner.next(in_1); + this->next(block_buf, block_1); + reader.advance(); +} + +template +error_code json_minifier::minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) noexcept { + buf_block_reader reader(buf, len); + json_minifier minifier(dst); + + // Index the first n-1 blocks + while (reader.has_full_block()) { + minifier.step(reader.full_block(), reader); + } + + // Index the last (remainder) block, padded with spaces + uint8_t block[STEP_SIZE]; + size_t remaining_bytes = reader.get_remainder(block); + if (remaining_bytes > 0) { + // We do not want to write directly to the output stream. Rather, we write + // to a local buffer (for safety). + uint8_t out_block[STEP_SIZE]; + uint8_t * const guarded_dst{minifier.dst}; + minifier.dst = out_block; + minifier.step(block, reader); + size_t to_write = minifier.dst - out_block; + // In some cases, we could be enticed to consider the padded spaces + // as part of the string. This is fine as long as we do not write more + // than we consumed. + if(to_write > remaining_bytes) { to_write = remaining_bytes; } + memcpy(guarded_dst, out_block, to_write); + minifier.dst = guarded_dst + to_write; + } + return minifier.finish(dst, dst_len); +} + +} // namespace stage1 +} // unnamed namespace +} // namespace haswell +} // namespace simdjson +/* end file src/generic/stage1/json_minifier.h */ +/* begin file src/generic/stage1/find_next_document_index.h */ +namespace simdjson { +namespace haswell { +namespace { + +/** + * This algorithm is used to quickly identify the last structural position that + * makes up a complete document. + * + * It does this by going backwards and finding the last *document boundary* (a + * place where one value follows another without a comma between them). If the + * last document (the characters after the boundary) has an equal number of + * start and end brackets, it is considered complete. + * + * Simply put, we iterate over the structural characters, starting from + * the end. We consider that we found the end of a JSON document when the + * first element of the pair is NOT one of these characters: '{' '[' ';' ',' + * and when the second element is NOT one of these characters: '}' '}' ';' ','. + * + * This simple comparison works most of the time, but it does not cover cases + * where the batch's structural indexes contain a perfect amount of documents. + * In such a case, we do not have access to the structural index which follows + * the last document, therefore, we do not have access to the second element in + * the pair, and that means we cannot identify the last document. To fix this + * issue, we keep a count of the open and closed curly/square braces we found + * while searching for the pair. When we find a pair AND the count of open and + * closed curly/square braces is the same, we know that we just passed a + * complete document, therefore the last json buffer location is the end of the + * batch. + */ +simdjson_really_inline uint32_t find_next_document_index(dom_parser_implementation &parser) { + // TODO don't count separately, just figure out depth + auto arr_cnt = 0; + auto obj_cnt = 0; + for (auto i = parser.n_structural_indexes - 1; i > 0; i--) { + auto idxb = parser.structural_indexes[i]; + switch (parser.buf[idxb]) { + case ':': + case ',': + continue; + case '}': + obj_cnt--; + continue; + case ']': + arr_cnt--; + continue; + case '{': + obj_cnt++; + break; + case '[': + arr_cnt++; + break; + } + auto idxa = parser.structural_indexes[i - 1]; + switch (parser.buf[idxa]) { + case '{': + case '[': + case ':': + case ',': + continue; + } + // Last document is complete, so the next document will appear after! + if (!arr_cnt && !obj_cnt) { + return parser.n_structural_indexes; + } + // Last document is incomplete; mark the document at i + 1 as the next one + return i; + } + return 0; +} + +} // unnamed namespace +} // namespace haswell +} // namespace simdjson +/* end file src/generic/stage1/find_next_document_index.h */ + +namespace simdjson { +namespace haswell { +namespace { +namespace stage1 { + +class bit_indexer { +public: + uint32_t *tail; + + simdjson_really_inline bit_indexer(uint32_t *index_buf) : tail(index_buf) {} + + // flatten out values in 'bits' assuming that they are are to have values of idx + // plus their position in the bitvector, and store these indexes at + // base_ptr[base] incrementing base as we go + // will potentially store extra values beyond end of valid bits, so base_ptr + // needs to be large enough to handle this + simdjson_really_inline void write(uint32_t idx, uint64_t bits) { + // In some instances, the next branch is expensive because it is mispredicted. + // Unfortunately, in other cases, + // it helps tremendously. + if (bits == 0) + return; + int cnt = static_cast(count_ones(bits)); + + // Do the first 8 all together + for (int i=0; i<8; i++) { + this->tail[i] = idx + trailing_zeroes(bits); + bits = clear_lowest_bit(bits); + } + + // Do the next 8 all together (we hope in most cases it won't happen at all + // and the branch is easily predicted). + if (simdjson_unlikely(cnt > 8)) { + for (int i=8; i<16; i++) { + this->tail[i] = idx + trailing_zeroes(bits); + bits = clear_lowest_bit(bits); + } + + // Most files don't have 16+ structurals per block, so we take several basically guaranteed + // branch mispredictions here. 16+ structurals per block means either punctuation ({} [] , :) + // or the start of a value ("abc" true 123) every four characters. + if (simdjson_unlikely(cnt > 16)) { + int i = 16; + do { + this->tail[i] = idx + trailing_zeroes(bits); + bits = clear_lowest_bit(bits); + i++; + } while (i < cnt); + } + } + + this->tail += cnt; + } +}; + +class json_structural_indexer { +public: + /** + * Find the important bits of JSON in a 128-byte chunk, and add them to structural_indexes. + * + * @param partial Setting the partial parameter to true allows the find_structural_bits to + * tolerate unclosed strings. The caller should still ensure that the input is valid UTF-8. If + * you are processing substrings, you may want to call on a function like trimmed_length_safe_utf8. + */ + template + static error_code index(const uint8_t *buf, size_t len, dom_parser_implementation &parser, bool partial) noexcept; + +private: + simdjson_really_inline json_structural_indexer(uint32_t *structural_indexes); + template + simdjson_really_inline void step(const uint8_t *block, buf_block_reader &reader) noexcept; + simdjson_really_inline void next(const simd::simd8x64& in, json_block block, size_t idx); + simdjson_really_inline error_code finish(dom_parser_implementation &parser, size_t idx, size_t len, bool partial); + + json_scanner scanner{}; + utf8_checker checker{}; + bit_indexer indexer; + uint64_t prev_structurals = 0; + uint64_t unescaped_chars_error = 0; +}; + +simdjson_really_inline json_structural_indexer::json_structural_indexer(uint32_t *structural_indexes) : indexer{structural_indexes} {} + +// Skip the last character if it is partial +simdjson_really_inline size_t trim_partial_utf8(const uint8_t *buf, size_t len) { + if (simdjson_unlikely(len < 3)) { + switch (len) { + case 2: + if (buf[len-1] >= 0b11000000) { return len-1; } // 2-, 3- and 4-byte characters with only 1 byte left + if (buf[len-2] >= 0b11100000) { return len-2; } // 3- and 4-byte characters with only 2 bytes left + return len; + case 1: + if (buf[len-1] >= 0b11000000) { return len-1; } // 2-, 3- and 4-byte characters with only 1 byte left + return len; + case 0: + return len; + } + } + if (buf[len-1] >= 0b11000000) { return len-1; } // 2-, 3- and 4-byte characters with only 1 byte left + if (buf[len-2] >= 0b11100000) { return len-2; } // 3- and 4-byte characters with only 1 byte left + if (buf[len-3] >= 0b11110000) { return len-3; } // 4-byte characters with only 3 bytes left + return len; +} + +// +// PERF NOTES: +// We pipe 2 inputs through these stages: +// 1. Load JSON into registers. This takes a long time and is highly parallelizable, so we load +// 2 inputs' worth at once so that by the time step 2 is looking for them input, it's available. +// 2. Scan the JSON for critical data: strings, scalars and operators. This is the critical path. +// The output of step 1 depends entirely on this information. These functions don't quite use +// up enough CPU: the second half of the functions is highly serial, only using 1 execution core +// at a time. The second input's scans has some dependency on the first ones finishing it, but +// they can make a lot of progress before they need that information. +// 3. Step 1 doesn't use enough capacity, so we run some extra stuff while we're waiting for that +// to finish: utf-8 checks and generating the output from the last iteration. +// +// The reason we run 2 inputs at a time, is steps 2 and 3 are *still* not enough to soak up all +// available capacity with just one input. Running 2 at a time seems to give the CPU a good enough +// workout. +// +template +error_code json_structural_indexer::index(const uint8_t *buf, size_t len, dom_parser_implementation &parser, bool partial) noexcept { + if (simdjson_unlikely(len > parser.capacity())) { return CAPACITY; } + if (partial) { len = trim_partial_utf8(buf, len); } + + buf_block_reader reader(buf, len); + json_structural_indexer indexer(parser.structural_indexes.get()); + + // Read all but the last block + while (reader.has_full_block()) { + indexer.step(reader.full_block(), reader); + } + + // Take care of the last block (will always be there unless file is empty) + uint8_t block[STEP_SIZE]; + if (simdjson_unlikely(reader.get_remainder(block) == 0)) { return EMPTY; } + indexer.step(block, reader); + + return indexer.finish(parser, reader.block_index(), len, partial); +} + +template<> +simdjson_really_inline void json_structural_indexer::step<128>(const uint8_t *block, buf_block_reader<128> &reader) noexcept { + simd::simd8x64 in_1(block); + simd::simd8x64 in_2(block+64); + json_block block_1 = scanner.next(in_1); + json_block block_2 = scanner.next(in_2); + this->next(in_1, block_1, reader.block_index()); + this->next(in_2, block_2, reader.block_index()+64); + reader.advance(); +} + +template<> +simdjson_really_inline void json_structural_indexer::step<64>(const uint8_t *block, buf_block_reader<64> &reader) noexcept { + simd::simd8x64 in_1(block); + json_block block_1 = scanner.next(in_1); + this->next(in_1, block_1, reader.block_index()); + reader.advance(); +} + +simdjson_really_inline void json_structural_indexer::next(const simd::simd8x64& in, json_block block, size_t idx) { + uint64_t unescaped = in.lteq(0x1F); + checker.check_next_input(in); + indexer.write(uint32_t(idx-64), prev_structurals); // Output *last* iteration's structurals to the parser + prev_structurals = block.structural_start(); + unescaped_chars_error |= block.non_quote_inside_string(unescaped); +} + +simdjson_really_inline error_code json_structural_indexer::finish(dom_parser_implementation &parser, size_t idx, size_t len, bool partial) { + // Write out the final iteration's structurals + indexer.write(uint32_t(idx-64), prev_structurals); + + error_code error = scanner.finish(); + // We deliberately break down the next expression so that it is + // human readable. + const bool should_we_exit = partial ? + ((error != SUCCESS) && (error != UNCLOSED_STRING)) // when partial we tolerate UNCLOSED_STRING + : (error != SUCCESS); // if partial is false, we must have SUCCESS + const bool have_unclosed_string = (error == UNCLOSED_STRING); + if (simdjson_unlikely(should_we_exit)) { return error; } + + if (unescaped_chars_error) { + return UNESCAPED_CHARS; + } + + parser.n_structural_indexes = uint32_t(indexer.tail - parser.structural_indexes.get()); + /*** + * This is related to https://github.com/simdjson/simdjson/issues/906 + * Basically, we want to make sure that if the parsing continues beyond the last (valid) + * structural character, it quickly stops. + * Only three structural characters can be repeated without triggering an error in JSON: [,] and }. + * We repeat the padding character (at 'len'). We don't know what it is, but if the parsing + * continues, then it must be [,] or }. + * Suppose it is ] or }. We backtrack to the first character, what could it be that would + * not trigger an error? It could be ] or } but no, because you can't start a document that way. + * It can't be a comma, a colon or any simple value. So the only way we could continue is + * if the repeated character is [. But if so, the document must start with [. But if the document + * starts with [, it should end with ]. If we enforce that rule, then we would get + * ][[ which is invalid. + **/ + parser.structural_indexes[parser.n_structural_indexes] = uint32_t(len); + parser.structural_indexes[parser.n_structural_indexes + 1] = uint32_t(len); + parser.structural_indexes[parser.n_structural_indexes + 2] = 0; + parser.next_structural_index = 0; + // a valid JSON file cannot have zero structural indexes - we should have found something + if (simdjson_unlikely(parser.n_structural_indexes == 0u)) { + return EMPTY; + } + if (simdjson_unlikely(parser.structural_indexes[parser.n_structural_indexes - 1] > len)) { + return UNEXPECTED_ERROR; + } + if (partial) { + // If we have an unclosed string, then the last structural + // will be the quote and we want to make sure to omit it. + if(have_unclosed_string) { + parser.n_structural_indexes--; + // a valid JSON file cannot have zero structural indexes - we should have found something + if (simdjson_unlikely(parser.n_structural_indexes == 0u)) { return CAPACITY; } + } + auto new_structural_indexes = find_next_document_index(parser); + if (new_structural_indexes == 0 && parser.n_structural_indexes > 0) { + return CAPACITY; // If the buffer is partial but the document is incomplete, it's too big to parse. + } + parser.n_structural_indexes = new_structural_indexes; + } + checker.check_eof(); + return checker.errors(); +} + +} // namespace stage1 +} // unnamed namespace +} // namespace haswell +} // namespace simdjson +/* end file src/generic/stage1/json_structural_indexer.h */ +/* begin file src/generic/stage1/utf8_validator.h */ +namespace simdjson { +namespace haswell { +namespace { +namespace stage1 { + +/** + * Validates that the string is actual UTF-8. + */ +template +bool generic_validate_utf8(const uint8_t * input, size_t length) { + checker c{}; + buf_block_reader<64> reader(input, length); + while (reader.has_full_block()) { + simd::simd8x64 in(reader.full_block()); + c.check_next_input(in); + reader.advance(); + } + uint8_t block[64]{}; + reader.get_remainder(block); + simd::simd8x64 in(block); + c.check_next_input(in); + reader.advance(); + c.check_eof(); + return c.errors() == error_code::SUCCESS; +} + +bool generic_validate_utf8(const char * input, size_t length) { + return generic_validate_utf8((const uint8_t *)input,length); +} + +} // namespace stage1 +} // unnamed namespace +} // namespace haswell +} // namespace simdjson +/* end file src/generic/stage1/utf8_validator.h */ + +// +// Stage 2 +// +/* begin file src/generic/stage2/tape_builder.h */ +/* begin file src/generic/stage2/json_iterator.h */ +/* begin file src/generic/stage2/logger.h */ +// This is for an internal-only stage 2 specific logger. +// Set LOG_ENABLED = true to log what stage 2 is doing! +namespace simdjson { +namespace haswell { +namespace { +namespace logger { + + static constexpr const char * DASHES = "----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------"; + +#if SIMDJSON_VERBOSE_LOGGING + static constexpr const bool LOG_ENABLED = true; +#else + static constexpr const bool LOG_ENABLED = false; +#endif + static constexpr const int LOG_EVENT_LEN = 20; + static constexpr const int LOG_BUFFER_LEN = 30; + static constexpr const int LOG_SMALL_BUFFER_LEN = 10; + static constexpr const int LOG_INDEX_LEN = 5; + + static int log_depth; // Not threadsafe. Log only. + + // Helper to turn unprintable or newline characters into spaces + static simdjson_really_inline char printable_char(char c) { + if (c >= 0x20) { + return c; + } else { + return ' '; + } + } + + // Print the header and set up log_start + static simdjson_really_inline void log_start() { + if (LOG_ENABLED) { + log_depth = 0; + printf("\n"); + printf("| %-*s | %-*s | %-*s | %-*s | Detail |\n", LOG_EVENT_LEN, "Event", LOG_BUFFER_LEN, "Buffer", LOG_SMALL_BUFFER_LEN, "Next", 5, "Next#"); + printf("|%.*s|%.*s|%.*s|%.*s|--------|\n", LOG_EVENT_LEN+2, DASHES, LOG_BUFFER_LEN+2, DASHES, LOG_SMALL_BUFFER_LEN+2, DASHES, 5+2, DASHES); + } + } + + simdjson_unused static simdjson_really_inline void log_string(const char *message) { + if (LOG_ENABLED) { + printf("%s\n", message); + } + } + + // Logs a single line from the stage 2 DOM parser + template + static simdjson_really_inline void log_line(S &structurals, const char *title_prefix, const char *title, const char *detail) { + if (LOG_ENABLED) { + printf("| %*s%s%-*s ", log_depth*2, "", title_prefix, LOG_EVENT_LEN - log_depth*2 - int(strlen(title_prefix)), title); + auto current_index = structurals.at_beginning() ? nullptr : structurals.next_structural-1; + auto next_index = structurals.next_structural; + auto current = current_index ? &structurals.buf[*current_index] : (const uint8_t*)" "; + auto next = &structurals.buf[*next_index]; + { + // Print the next N characters in the buffer. + printf("| "); + // Otherwise, print the characters starting from the buffer position. + // Print spaces for unprintable or newline characters. + for (int i=0;i + simdjson_warn_unused simdjson_really_inline error_code walk_document(V &visitor) noexcept; + + /** + * Create an iterator capable of walking a JSON document. + * + * The document must have already passed through stage 1. + */ + simdjson_really_inline json_iterator(dom_parser_implementation &_dom_parser, size_t start_structural_index); + + /** + * Look at the next token. + * + * Tokens can be strings, numbers, booleans, null, or operators (`[{]},:`)). + * + * They may include invalid JSON as well (such as `1.2.3` or `ture`). + */ + simdjson_really_inline const uint8_t *peek() const noexcept; + /** + * Advance to the next token. + * + * Tokens can be strings, numbers, booleans, null, or operators (`[{]},:`)). + * + * They may include invalid JSON as well (such as `1.2.3` or `ture`). + */ + simdjson_really_inline const uint8_t *advance() noexcept; + /** + * Get the remaining length of the document, from the start of the current token. + */ + simdjson_really_inline size_t remaining_len() const noexcept; + /** + * Check if we are at the end of the document. + * + * If this is true, there are no more tokens. + */ + simdjson_really_inline bool at_eof() const noexcept; + /** + * Check if we are at the beginning of the document. + */ + simdjson_really_inline bool at_beginning() const noexcept; + simdjson_really_inline uint8_t last_structural() const noexcept; + + /** + * Log that a value has been found. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_value(const char *type) const noexcept; + /** + * Log the start of a multipart value. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_start_value(const char *type) const noexcept; + /** + * Log the end of a multipart value. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_end_value(const char *type) const noexcept; + /** + * Log an error. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_error(const char *error) const noexcept; + + template + simdjson_warn_unused simdjson_really_inline error_code visit_root_primitive(V &visitor, const uint8_t *value) noexcept; + template + simdjson_warn_unused simdjson_really_inline error_code visit_primitive(V &visitor, const uint8_t *value) noexcept; +}; + +template +simdjson_warn_unused simdjson_really_inline error_code json_iterator::walk_document(V &visitor) noexcept { + logger::log_start(); + + // + // Start the document + // + if (at_eof()) { return EMPTY; } + log_start_value("document"); + SIMDJSON_TRY( visitor.visit_document_start(*this) ); + + // + // Read first value + // + { + auto value = advance(); + + // Make sure the outer hash or array is closed before continuing; otherwise, there are ways we + // could get into memory corruption. See https://github.com/simdjson/simdjson/issues/906 + if (!STREAMING) { + switch (*value) { + case '{': if (last_structural() != '}') { return TAPE_ERROR; }; break; + case '[': if (last_structural() != ']') { return TAPE_ERROR; }; break; + } + } + + switch (*value) { + case '{': if (*peek() == '}') { advance(); log_value("empty object"); SIMDJSON_TRY( visitor.visit_empty_object(*this) ); break; } goto object_begin; + case '[': if (*peek() == ']') { advance(); log_value("empty array"); SIMDJSON_TRY( visitor.visit_empty_array(*this) ); break; } goto array_begin; + default: SIMDJSON_TRY( visitor.visit_root_primitive(*this, value) ); break; + } + } + goto document_end; + +// +// Object parser states +// +object_begin: + log_start_value("object"); + depth++; + if (depth >= dom_parser.max_depth()) { log_error("Exceeded max depth!"); return DEPTH_ERROR; } + dom_parser.is_array[depth] = false; + SIMDJSON_TRY( visitor.visit_object_start(*this) ); + + { + auto key = advance(); + if (*key != '"') { log_error("Object does not start with a key"); return TAPE_ERROR; } + SIMDJSON_TRY( visitor.increment_count(*this) ); + SIMDJSON_TRY( visitor.visit_key(*this, key) ); + } + +object_field: + if (simdjson_unlikely( *advance() != ':' )) { log_error("Missing colon after key in object"); return TAPE_ERROR; } + { + auto value = advance(); + switch (*value) { + case '{': if (*peek() == '}') { advance(); log_value("empty object"); SIMDJSON_TRY( visitor.visit_empty_object(*this) ); break; } goto object_begin; + case '[': if (*peek() == ']') { advance(); log_value("empty array"); SIMDJSON_TRY( visitor.visit_empty_array(*this) ); break; } goto array_begin; + default: SIMDJSON_TRY( visitor.visit_primitive(*this, value) ); break; + } + } + +object_continue: + switch (*advance()) { + case ',': + SIMDJSON_TRY( visitor.increment_count(*this) ); + { + auto key = advance(); + if (simdjson_unlikely( *key != '"' )) { log_error("Key string missing at beginning of field in object"); return TAPE_ERROR; } + SIMDJSON_TRY( visitor.visit_key(*this, key) ); + } + goto object_field; + case '}': log_end_value("object"); SIMDJSON_TRY( visitor.visit_object_end(*this) ); goto scope_end; + default: log_error("No comma between object fields"); return TAPE_ERROR; + } + +scope_end: + depth--; + if (depth == 0) { goto document_end; } + if (dom_parser.is_array[depth]) { goto array_continue; } + goto object_continue; + +// +// Array parser states +// +array_begin: + log_start_value("array"); + depth++; + if (depth >= dom_parser.max_depth()) { log_error("Exceeded max depth!"); return DEPTH_ERROR; } + dom_parser.is_array[depth] = true; + SIMDJSON_TRY( visitor.visit_array_start(*this) ); + SIMDJSON_TRY( visitor.increment_count(*this) ); + +array_value: + { + auto value = advance(); + switch (*value) { + case '{': if (*peek() == '}') { advance(); log_value("empty object"); SIMDJSON_TRY( visitor.visit_empty_object(*this) ); break; } goto object_begin; + case '[': if (*peek() == ']') { advance(); log_value("empty array"); SIMDJSON_TRY( visitor.visit_empty_array(*this) ); break; } goto array_begin; + default: SIMDJSON_TRY( visitor.visit_primitive(*this, value) ); break; + } + } + +array_continue: + switch (*advance()) { + case ',': SIMDJSON_TRY( visitor.increment_count(*this) ); goto array_value; + case ']': log_end_value("array"); SIMDJSON_TRY( visitor.visit_array_end(*this) ); goto scope_end; + default: log_error("Missing comma between array values"); return TAPE_ERROR; + } + +document_end: + log_end_value("document"); + SIMDJSON_TRY( visitor.visit_document_end(*this) ); + + dom_parser.next_structural_index = uint32_t(next_structural - &dom_parser.structural_indexes[0]); + + // If we didn't make it to the end, it's an error + if ( !STREAMING && dom_parser.next_structural_index != dom_parser.n_structural_indexes ) { + log_error("More than one JSON value at the root of the document, or extra characters at the end of the JSON!"); + return TAPE_ERROR; + } + + return SUCCESS; + +} // walk_document() + +simdjson_really_inline json_iterator::json_iterator(dom_parser_implementation &_dom_parser, size_t start_structural_index) + : buf{_dom_parser.buf}, + next_structural{&_dom_parser.structural_indexes[start_structural_index]}, + dom_parser{_dom_parser} { +} + +simdjson_really_inline const uint8_t *json_iterator::peek() const noexcept { + return &buf[*(next_structural)]; +} +simdjson_really_inline const uint8_t *json_iterator::advance() noexcept { + return &buf[*(next_structural++)]; +} +simdjson_really_inline size_t json_iterator::remaining_len() const noexcept { + return dom_parser.len - *(next_structural-1); +} + +simdjson_really_inline bool json_iterator::at_eof() const noexcept { + return next_structural == &dom_parser.structural_indexes[dom_parser.n_structural_indexes]; +} +simdjson_really_inline bool json_iterator::at_beginning() const noexcept { + return next_structural == dom_parser.structural_indexes.get(); +} +simdjson_really_inline uint8_t json_iterator::last_structural() const noexcept { + return buf[dom_parser.structural_indexes[dom_parser.n_structural_indexes - 1]]; +} + +simdjson_really_inline void json_iterator::log_value(const char *type) const noexcept { + logger::log_line(*this, "", type, ""); +} + +simdjson_really_inline void json_iterator::log_start_value(const char *type) const noexcept { + logger::log_line(*this, "+", type, ""); + if (logger::LOG_ENABLED) { logger::log_depth++; } +} + +simdjson_really_inline void json_iterator::log_end_value(const char *type) const noexcept { + if (logger::LOG_ENABLED) { logger::log_depth--; } + logger::log_line(*this, "-", type, ""); +} + +simdjson_really_inline void json_iterator::log_error(const char *error) const noexcept { + logger::log_line(*this, "", "ERROR", error); +} + +template +simdjson_warn_unused simdjson_really_inline error_code json_iterator::visit_root_primitive(V &visitor, const uint8_t *value) noexcept { + switch (*value) { + case '"': return visitor.visit_root_string(*this, value); + case 't': return visitor.visit_root_true_atom(*this, value); + case 'f': return visitor.visit_root_false_atom(*this, value); + case 'n': return visitor.visit_root_null_atom(*this, value); + case '-': + case '0': case '1': case '2': case '3': case '4': + case '5': case '6': case '7': case '8': case '9': + return visitor.visit_root_number(*this, value); + default: + log_error("Document starts with a non-value character"); + return TAPE_ERROR; + } +} +template +simdjson_warn_unused simdjson_really_inline error_code json_iterator::visit_primitive(V &visitor, const uint8_t *value) noexcept { + switch (*value) { + case '"': return visitor.visit_string(*this, value); + case 't': return visitor.visit_true_atom(*this, value); + case 'f': return visitor.visit_false_atom(*this, value); + case 'n': return visitor.visit_null_atom(*this, value); + case '-': + case '0': case '1': case '2': case '3': case '4': + case '5': case '6': case '7': case '8': case '9': + return visitor.visit_number(*this, value); + default: + log_error("Non-value found when value was expected!"); + return TAPE_ERROR; + } +} + +} // namespace stage2 +} // unnamed namespace +} // namespace haswell +} // namespace simdjson +/* end file src/generic/stage2/json_iterator.h */ +/* begin file src/generic/stage2/tape_writer.h */ +namespace simdjson { +namespace haswell { +namespace { +namespace stage2 { + +struct tape_writer { + /** The next place to write to tape */ + uint64_t *next_tape_loc; + + /** Write a signed 64-bit value to tape. */ + simdjson_really_inline void append_s64(int64_t value) noexcept; + + /** Write an unsigned 64-bit value to tape. */ + simdjson_really_inline void append_u64(uint64_t value) noexcept; + + /** Write a double value to tape. */ + simdjson_really_inline void append_double(double value) noexcept; + + /** + * Append a tape entry (an 8-bit type,and 56 bits worth of value). + */ + simdjson_really_inline void append(uint64_t val, internal::tape_type t) noexcept; + + /** + * Skip the current tape entry without writing. + * + * Used to skip the start of the container, since we'll come back later to fill it in when the + * container ends. + */ + simdjson_really_inline void skip() noexcept; + + /** + * Skip the number of tape entries necessary to write a large u64 or i64. + */ + simdjson_really_inline void skip_large_integer() noexcept; + + /** + * Skip the number of tape entries necessary to write a double. + */ + simdjson_really_inline void skip_double() noexcept; + + /** + * Write a value to a known location on tape. + * + * Used to go back and write out the start of a container after the container ends. + */ + simdjson_really_inline static void write(uint64_t &tape_loc, uint64_t val, internal::tape_type t) noexcept; + +private: + /** + * Append both the tape entry, and a supplementary value following it. Used for types that need + * all 64 bits, such as double and uint64_t. + */ + template + simdjson_really_inline void append2(uint64_t val, T val2, internal::tape_type t) noexcept; +}; // struct number_writer + +simdjson_really_inline void tape_writer::append_s64(int64_t value) noexcept { + append2(0, value, internal::tape_type::INT64); +} + +simdjson_really_inline void tape_writer::append_u64(uint64_t value) noexcept { + append(0, internal::tape_type::UINT64); + *next_tape_loc = value; + next_tape_loc++; +} + +/** Write a double value to tape. */ +simdjson_really_inline void tape_writer::append_double(double value) noexcept { + append2(0, value, internal::tape_type::DOUBLE); +} + +simdjson_really_inline void tape_writer::skip() noexcept { + next_tape_loc++; +} + +simdjson_really_inline void tape_writer::skip_large_integer() noexcept { + next_tape_loc += 2; +} + +simdjson_really_inline void tape_writer::skip_double() noexcept { + next_tape_loc += 2; +} + +simdjson_really_inline void tape_writer::append(uint64_t val, internal::tape_type t) noexcept { + *next_tape_loc = val | ((uint64_t(char(t))) << 56); + next_tape_loc++; +} + +template +simdjson_really_inline void tape_writer::append2(uint64_t val, T val2, internal::tape_type t) noexcept { + append(val, t); + static_assert(sizeof(val2) == sizeof(*next_tape_loc), "Type is not 64 bits!"); + memcpy(next_tape_loc, &val2, sizeof(val2)); + next_tape_loc++; +} + +simdjson_really_inline void tape_writer::write(uint64_t &tape_loc, uint64_t val, internal::tape_type t) noexcept { + tape_loc = val | ((uint64_t(char(t))) << 56); +} + +} // namespace stage2 +} // unnamed namespace +} // namespace haswell +} // namespace simdjson +/* end file src/generic/stage2/tape_writer.h */ + +namespace simdjson { +namespace haswell { +namespace { +namespace stage2 { + +struct tape_builder { + template + simdjson_warn_unused static simdjson_really_inline error_code parse_document( + dom_parser_implementation &dom_parser, + dom::document &doc) noexcept; + + /** Called when a non-empty document starts. */ + simdjson_warn_unused simdjson_really_inline error_code visit_document_start(json_iterator &iter) noexcept; + /** Called when a non-empty document ends without error. */ + simdjson_warn_unused simdjson_really_inline error_code visit_document_end(json_iterator &iter) noexcept; + + /** Called when a non-empty array starts. */ + simdjson_warn_unused simdjson_really_inline error_code visit_array_start(json_iterator &iter) noexcept; + /** Called when a non-empty array ends. */ + simdjson_warn_unused simdjson_really_inline error_code visit_array_end(json_iterator &iter) noexcept; + /** Called when an empty array is found. */ + simdjson_warn_unused simdjson_really_inline error_code visit_empty_array(json_iterator &iter) noexcept; + + /** Called when a non-empty object starts. */ + simdjson_warn_unused simdjson_really_inline error_code visit_object_start(json_iterator &iter) noexcept; + /** + * Called when a key in a field is encountered. + * + * primitive, visit_object_start, visit_empty_object, visit_array_start, or visit_empty_array + * will be called after this with the field value. + */ + simdjson_warn_unused simdjson_really_inline error_code visit_key(json_iterator &iter, const uint8_t *key) noexcept; + /** Called when a non-empty object ends. */ + simdjson_warn_unused simdjson_really_inline error_code visit_object_end(json_iterator &iter) noexcept; + /** Called when an empty object is found. */ + simdjson_warn_unused simdjson_really_inline error_code visit_empty_object(json_iterator &iter) noexcept; + + /** + * Called when a string, number, boolean or null is found. + */ + simdjson_warn_unused simdjson_really_inline error_code visit_primitive(json_iterator &iter, const uint8_t *value) noexcept; + /** + * Called when a string, number, boolean or null is found at the top level of a document (i.e. + * when there is no array or object and the entire document is a single string, number, boolean or + * null. + * + * This is separate from primitive() because simdjson's normal primitive parsing routines assume + * there is at least one more token after the value, which is only true in an array or object. + */ + simdjson_warn_unused simdjson_really_inline error_code visit_root_primitive(json_iterator &iter, const uint8_t *value) noexcept; + + simdjson_warn_unused simdjson_really_inline error_code visit_string(json_iterator &iter, const uint8_t *value, bool key = false) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_number(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_true_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_false_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_null_atom(json_iterator &iter, const uint8_t *value) noexcept; + + simdjson_warn_unused simdjson_really_inline error_code visit_root_string(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_number(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_true_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_false_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_null_atom(json_iterator &iter, const uint8_t *value) noexcept; + + /** Called each time a new field or element in an array or object is found. */ + simdjson_warn_unused simdjson_really_inline error_code increment_count(json_iterator &iter) noexcept; + + /** Next location to write to tape */ + tape_writer tape; +private: + /** Next write location in the string buf for stage 2 parsing */ + uint8_t *current_string_buf_loc; + + simdjson_really_inline tape_builder(dom::document &doc) noexcept; + + simdjson_really_inline uint32_t next_tape_index(json_iterator &iter) const noexcept; + simdjson_really_inline void start_container(json_iterator &iter) noexcept; + simdjson_warn_unused simdjson_really_inline error_code end_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept; + simdjson_warn_unused simdjson_really_inline error_code empty_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept; + simdjson_really_inline uint8_t *on_start_string(json_iterator &iter) noexcept; + simdjson_really_inline void on_end_string(uint8_t *dst) noexcept; +}; // class tape_builder + +template +simdjson_warn_unused simdjson_really_inline error_code tape_builder::parse_document( + dom_parser_implementation &dom_parser, + dom::document &doc) noexcept { + dom_parser.doc = &doc; + json_iterator iter(dom_parser, STREAMING ? dom_parser.next_structural_index : 0); + tape_builder builder(doc); + return iter.walk_document(builder); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_primitive(json_iterator &iter, const uint8_t *value) noexcept { + return iter.visit_root_primitive(*this, value); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_primitive(json_iterator &iter, const uint8_t *value) noexcept { + return iter.visit_primitive(*this, value); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_empty_object(json_iterator &iter) noexcept { + return empty_container(iter, internal::tape_type::START_OBJECT, internal::tape_type::END_OBJECT); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_empty_array(json_iterator &iter) noexcept { + return empty_container(iter, internal::tape_type::START_ARRAY, internal::tape_type::END_ARRAY); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_document_start(json_iterator &iter) noexcept { + start_container(iter); + return SUCCESS; +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_object_start(json_iterator &iter) noexcept { + start_container(iter); + return SUCCESS; +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_array_start(json_iterator &iter) noexcept { + start_container(iter); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_object_end(json_iterator &iter) noexcept { + return end_container(iter, internal::tape_type::START_OBJECT, internal::tape_type::END_OBJECT); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_array_end(json_iterator &iter) noexcept { + return end_container(iter, internal::tape_type::START_ARRAY, internal::tape_type::END_ARRAY); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_document_end(json_iterator &iter) noexcept { + constexpr uint32_t start_tape_index = 0; + tape.append(start_tape_index, internal::tape_type::ROOT); + tape_writer::write(iter.dom_parser.doc->tape[start_tape_index], next_tape_index(iter), internal::tape_type::ROOT); + return SUCCESS; +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_key(json_iterator &iter, const uint8_t *key) noexcept { + return visit_string(iter, key, true); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::increment_count(json_iterator &iter) noexcept { + iter.dom_parser.open_containers[iter.depth].count++; // we have a key value pair in the object at parser.dom_parser.depth - 1 + return SUCCESS; +} + +simdjson_really_inline tape_builder::tape_builder(dom::document &doc) noexcept : tape{doc.tape.get()}, current_string_buf_loc{doc.string_buf.get()} {} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_string(json_iterator &iter, const uint8_t *value, bool key) noexcept { + iter.log_value(key ? "key" : "string"); + uint8_t *dst = on_start_string(iter); + dst = stringparsing::parse_string(value+1, dst); + if (dst == nullptr) { + iter.log_error("Invalid escape in string"); + return STRING_ERROR; + } + on_end_string(dst); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_string(json_iterator &iter, const uint8_t *value) noexcept { + return visit_string(iter, value); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_number(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("number"); + return numberparsing::parse_number(value, tape); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_number(json_iterator &iter, const uint8_t *value) noexcept { + // + // We need to make a copy to make sure that the string is space terminated. + // This is not about padding the input, which should already padded up + // to len + SIMDJSON_PADDING. However, we have no control at this stage + // on how the padding was done. What if the input string was padded with nulls? + // It is quite common for an input string to have an extra null character (C string). + // We do not want to allow 9\0 (where \0 is the null character) inside a JSON + // document, but the string "9\0" by itself is fine. So we make a copy and + // pad the input with spaces when we know that there is just one input element. + // This copy is relatively expensive, but it will almost never be called in + // practice unless you are in the strange scenario where you have many JSON + // documents made of single atoms. + // + uint8_t *copy = static_cast(malloc(iter.remaining_len() + SIMDJSON_PADDING)); + if (copy == nullptr) { return MEMALLOC; } + std::memcpy(copy, value, iter.remaining_len()); + std::memset(copy + iter.remaining_len(), ' ', SIMDJSON_PADDING); + error_code error = visit_number(iter, copy); + free(copy); + return error; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_true_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("true"); + if (!atomparsing::is_valid_true_atom(value)) { return T_ATOM_ERROR; } + tape.append(0, internal::tape_type::TRUE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_true_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("true"); + if (!atomparsing::is_valid_true_atom(value, iter.remaining_len())) { return T_ATOM_ERROR; } + tape.append(0, internal::tape_type::TRUE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_false_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("false"); + if (!atomparsing::is_valid_false_atom(value)) { return F_ATOM_ERROR; } + tape.append(0, internal::tape_type::FALSE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_false_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("false"); + if (!atomparsing::is_valid_false_atom(value, iter.remaining_len())) { return F_ATOM_ERROR; } + tape.append(0, internal::tape_type::FALSE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_null_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("null"); + if (!atomparsing::is_valid_null_atom(value)) { return N_ATOM_ERROR; } + tape.append(0, internal::tape_type::NULL_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_null_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("null"); + if (!atomparsing::is_valid_null_atom(value, iter.remaining_len())) { return N_ATOM_ERROR; } + tape.append(0, internal::tape_type::NULL_VALUE); + return SUCCESS; +} + +// private: + +simdjson_really_inline uint32_t tape_builder::next_tape_index(json_iterator &iter) const noexcept { + return uint32_t(tape.next_tape_loc - iter.dom_parser.doc->tape.get()); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::empty_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept { + auto start_index = next_tape_index(iter); + tape.append(start_index+2, start); + tape.append(start_index, end); + return SUCCESS; +} + +simdjson_really_inline void tape_builder::start_container(json_iterator &iter) noexcept { + iter.dom_parser.open_containers[iter.depth].tape_index = next_tape_index(iter); + iter.dom_parser.open_containers[iter.depth].count = 0; + tape.skip(); // We don't actually *write* the start element until the end. +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::end_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept { + // Write the ending tape element, pointing at the start location + const uint32_t start_tape_index = iter.dom_parser.open_containers[iter.depth].tape_index; + tape.append(start_tape_index, end); + // Write the start tape element, pointing at the end location (and including count) + // count can overflow if it exceeds 24 bits... so we saturate + // the convention being that a cnt of 0xffffff or more is undetermined in value (>= 0xffffff). + const uint32_t count = iter.dom_parser.open_containers[iter.depth].count; + const uint32_t cntsat = count > 0xFFFFFF ? 0xFFFFFF : count; + tape_writer::write(iter.dom_parser.doc->tape[start_tape_index], next_tape_index(iter) | (uint64_t(cntsat) << 32), start); + return SUCCESS; +} + +simdjson_really_inline uint8_t *tape_builder::on_start_string(json_iterator &iter) noexcept { + // we advance the point, accounting for the fact that we have a NULL termination + tape.append(current_string_buf_loc - iter.dom_parser.doc->string_buf.get(), internal::tape_type::STRING); + return current_string_buf_loc + sizeof(uint32_t); +} + +simdjson_really_inline void tape_builder::on_end_string(uint8_t *dst) noexcept { + uint32_t str_length = uint32_t(dst - (current_string_buf_loc + sizeof(uint32_t))); + // TODO check for overflow in case someone has a crazy string (>=4GB?) + // But only add the overflow check when the document itself exceeds 4GB + // Currently unneeded because we refuse to parse docs larger or equal to 4GB. + memcpy(current_string_buf_loc, &str_length, sizeof(uint32_t)); + // NULL termination is still handy if you expect all your strings to + // be NULL terminated? It comes at a small cost + *dst = 0; + current_string_buf_loc = dst + 1; +} + +} // namespace stage2 +} // unnamed namespace +} // namespace haswell +} // namespace simdjson +/* end file src/generic/stage2/tape_builder.h */ + +// +// Implementation-specific overrides +// +namespace simdjson { +namespace haswell { +namespace { +namespace stage1 { + +simdjson_really_inline uint64_t json_string_scanner::find_escaped(uint64_t backslash) { + if (!backslash) { uint64_t escaped = prev_escaped; prev_escaped = 0; return escaped; } + return find_escaped_branchless(backslash); +} + +} // namespace stage1 +} // unnamed namespace + +simdjson_warn_unused error_code implementation::minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) const noexcept { + return haswell::stage1::json_minifier::minify<128>(buf, len, dst, dst_len); +} + +simdjson_warn_unused error_code dom_parser_implementation::stage1(const uint8_t *_buf, size_t _len, bool streaming) noexcept { + this->buf = _buf; + this->len = _len; + return haswell::stage1::json_structural_indexer::index<128>(_buf, _len, *this, streaming); +} + +simdjson_warn_unused bool implementation::validate_utf8(const char *buf, size_t len) const noexcept { + return haswell::stage1::generic_validate_utf8(buf,len); +} + +simdjson_warn_unused error_code dom_parser_implementation::stage2(dom::document &_doc) noexcept { + return stage2::tape_builder::parse_document(*this, _doc); +} + +simdjson_warn_unused error_code dom_parser_implementation::stage2_next(dom::document &_doc) noexcept { + return stage2::tape_builder::parse_document(*this, _doc); +} + +simdjson_warn_unused error_code dom_parser_implementation::parse(const uint8_t *_buf, size_t _len, dom::document &_doc) noexcept { + auto error = stage1(_buf, _len, false); + if (error) { return error; } + return stage2(_doc); +} + +} // namespace haswell +} // namespace simdjson + +/* begin file include/simdjson/haswell/end.h */ +SIMDJSON_UNTARGET_REGION +#undef haswell +/* end file include/simdjson/haswell/end.h */ +/* end file src/haswell/dom_parser_implementation.cpp */ +#endif +#if SIMDJSON_IMPLEMENTATION_PPC64 +/* begin file src/ppc64/implementation.cpp */ +/* begin file include/simdjson/ppc64/begin.h */ +// redefining SIMDJSON_IMPLEMENTATION to "ppc64" +// #define SIMDJSON_IMPLEMENTATION ppc64 +/* end file include/simdjson/ppc64/begin.h */ + +namespace simdjson { +namespace ppc64 { + +simdjson_warn_unused error_code implementation::create_dom_parser_implementation( + size_t capacity, + size_t max_depth, + std::unique_ptr& dst +) const noexcept { + dst.reset( new (std::nothrow) dom_parser_implementation() ); + if (!dst) { return MEMALLOC; } + dst->set_capacity(capacity); + dst->set_max_depth(max_depth); + return SUCCESS; +} + +} // namespace ppc64 +} // namespace simdjson + +/* begin file include/simdjson/ppc64/end.h */ +#undef ppc64 +/* end file include/simdjson/ppc64/end.h */ +/* end file src/ppc64/implementation.cpp */ +/* begin file src/ppc64/dom_parser_implementation.cpp */ +/* begin file include/simdjson/ppc64/begin.h */ +// redefining SIMDJSON_IMPLEMENTATION to "ppc64" +// #define SIMDJSON_IMPLEMENTATION ppc64 +/* end file include/simdjson/ppc64/begin.h */ + +// +// Stage 1 +// +namespace simdjson { +namespace ppc64 { +namespace { + +using namespace simd; + +struct json_character_block { + static simdjson_really_inline json_character_block classify(const simd::simd8x64& in); + + simdjson_really_inline uint64_t whitespace() const { return _whitespace; } + simdjson_really_inline uint64_t op() const { return _op; } + simdjson_really_inline uint64_t scalar() { return ~(op() | whitespace()); } + + uint64_t _whitespace; + uint64_t _op; +}; + +simdjson_really_inline json_character_block json_character_block::classify(const simd::simd8x64& in) { + const simd8 table1(16, 0, 0, 0, 0, 0, 0, 0, 0, 8, 12, 1, 2, 9, 0, 0); + const simd8 table2(8, 0, 18, 4, 0, 1, 0, 1, 0, 0, 0, 3, 2, 1, 0, 0); + + simd8x64 v( + (in.chunks[0] & 0xf).lookup_16(table1) & (in.chunks[0].shr<4>()).lookup_16(table2), + (in.chunks[1] & 0xf).lookup_16(table1) & (in.chunks[1].shr<4>()).lookup_16(table2), + (in.chunks[2] & 0xf).lookup_16(table1) & (in.chunks[2].shr<4>()).lookup_16(table2), + (in.chunks[3] & 0xf).lookup_16(table1) & (in.chunks[3].shr<4>()).lookup_16(table2) + ); + + uint64_t op = simd8x64( + v.chunks[0].any_bits_set(0x7), + v.chunks[1].any_bits_set(0x7), + v.chunks[2].any_bits_set(0x7), + v.chunks[3].any_bits_set(0x7) + ).to_bitmask(); + + uint64_t whitespace = simd8x64( + v.chunks[0].any_bits_set(0x18), + v.chunks[1].any_bits_set(0x18), + v.chunks[2].any_bits_set(0x18), + v.chunks[3].any_bits_set(0x18) + ).to_bitmask(); + + return { whitespace, op }; +} + +simdjson_really_inline bool is_ascii(const simd8x64& input) { + // careful: 0x80 is not ascii. + return input.reduce_or().saturating_sub(0b01111111u).bits_not_set_anywhere(); +} + +simdjson_unused simdjson_really_inline simd8 must_be_continuation(const simd8 prev1, const simd8 prev2, const simd8 prev3) { + simd8 is_second_byte = prev1.saturating_sub(0b11000000u-1); // Only 11______ will be > 0 + simd8 is_third_byte = prev2.saturating_sub(0b11100000u-1); // Only 111_____ will be > 0 + simd8 is_fourth_byte = prev3.saturating_sub(0b11110000u-1); // Only 1111____ will be > 0 + // Caller requires a bool (all 1's). All values resulting from the subtraction will be <= 64, so signed comparison is fine. + return simd8(is_second_byte | is_third_byte | is_fourth_byte) > int8_t(0); +} + +simdjson_really_inline simd8 must_be_2_3_continuation(const simd8 prev2, const simd8 prev3) { + simd8 is_third_byte = prev2.saturating_sub(0b11100000u-1); // Only 111_____ will be > 0 + simd8 is_fourth_byte = prev3.saturating_sub(0b11110000u-1); // Only 1111____ will be > 0 + // Caller requires a bool (all 1's). All values resulting from the subtraction will be <= 64, so signed comparison is fine. + return simd8(is_third_byte | is_fourth_byte) > int8_t(0); +} + +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson + +/* begin file src/generic/stage1/utf8_lookup4_algorithm.h */ +namespace simdjson { +namespace ppc64 { +namespace { +namespace utf8_validation { + +using namespace simd; + + simdjson_really_inline simd8 check_special_cases(const simd8 input, const simd8 prev1) { +// Bit 0 = Too Short (lead byte/ASCII followed by lead byte/ASCII) +// Bit 1 = Too Long (ASCII followed by continuation) +// Bit 2 = Overlong 3-byte +// Bit 4 = Surrogate +// Bit 5 = Overlong 2-byte +// Bit 7 = Two Continuations + constexpr const uint8_t TOO_SHORT = 1<<0; // 11______ 0_______ + // 11______ 11______ + constexpr const uint8_t TOO_LONG = 1<<1; // 0_______ 10______ + constexpr const uint8_t OVERLONG_3 = 1<<2; // 11100000 100_____ + constexpr const uint8_t SURROGATE = 1<<4; // 11101101 101_____ + constexpr const uint8_t OVERLONG_2 = 1<<5; // 1100000_ 10______ + constexpr const uint8_t TWO_CONTS = 1<<7; // 10______ 10______ + constexpr const uint8_t TOO_LARGE = 1<<3; // 11110100 1001____ + // 11110100 101_____ + // 11110101 1001____ + // 11110101 101_____ + // 1111011_ 1001____ + // 1111011_ 101_____ + // 11111___ 1001____ + // 11111___ 101_____ + constexpr const uint8_t TOO_LARGE_1000 = 1<<6; + // 11110101 1000____ + // 1111011_ 1000____ + // 11111___ 1000____ + constexpr const uint8_t OVERLONG_4 = 1<<6; // 11110000 1000____ + + const simd8 byte_1_high = prev1.shr<4>().lookup_16( + // 0_______ ________ + TOO_LONG, TOO_LONG, TOO_LONG, TOO_LONG, + TOO_LONG, TOO_LONG, TOO_LONG, TOO_LONG, + // 10______ ________ + TWO_CONTS, TWO_CONTS, TWO_CONTS, TWO_CONTS, + // 1100____ ________ + TOO_SHORT | OVERLONG_2, + // 1101____ ________ + TOO_SHORT, + // 1110____ ________ + TOO_SHORT | OVERLONG_3 | SURROGATE, + // 1111____ ________ + TOO_SHORT | TOO_LARGE | TOO_LARGE_1000 | OVERLONG_4 + ); + constexpr const uint8_t CARRY = TOO_SHORT | TOO_LONG | TWO_CONTS; // These all have ____ in byte 1 . + const simd8 byte_1_low = (prev1 & 0x0F).lookup_16( + // ____0000 ________ + CARRY | OVERLONG_3 | OVERLONG_2 | OVERLONG_4, + // ____0001 ________ + CARRY | OVERLONG_2, + // ____001_ ________ + CARRY, + CARRY, + + // ____0100 ________ + CARRY | TOO_LARGE, + // ____0101 ________ + CARRY | TOO_LARGE | TOO_LARGE_1000, + // ____011_ ________ + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + + // ____1___ ________ + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + // ____1101 ________ + CARRY | TOO_LARGE | TOO_LARGE_1000 | SURROGATE, + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000 + ); + const simd8 byte_2_high = input.shr<4>().lookup_16( + // ________ 0_______ + TOO_SHORT, TOO_SHORT, TOO_SHORT, TOO_SHORT, + TOO_SHORT, TOO_SHORT, TOO_SHORT, TOO_SHORT, + + // ________ 1000____ + TOO_LONG | OVERLONG_2 | TWO_CONTS | OVERLONG_3 | TOO_LARGE_1000 | OVERLONG_4, + // ________ 1001____ + TOO_LONG | OVERLONG_2 | TWO_CONTS | OVERLONG_3 | TOO_LARGE, + // ________ 101_____ + TOO_LONG | OVERLONG_2 | TWO_CONTS | SURROGATE | TOO_LARGE, + TOO_LONG | OVERLONG_2 | TWO_CONTS | SURROGATE | TOO_LARGE, + + // ________ 11______ + TOO_SHORT, TOO_SHORT, TOO_SHORT, TOO_SHORT + ); + return (byte_1_high & byte_1_low & byte_2_high); + } + simdjson_really_inline simd8 check_multibyte_lengths(const simd8 input, + const simd8 prev_input, const simd8 sc) { + simd8 prev2 = input.prev<2>(prev_input); + simd8 prev3 = input.prev<3>(prev_input); + simd8 must23 = simd8(must_be_2_3_continuation(prev2, prev3)); + simd8 must23_80 = must23 & uint8_t(0x80); + return must23_80 ^ sc; + } + + // + // Return nonzero if there are incomplete multibyte characters at the end of the block: + // e.g. if there is a 4-byte character, but it's 3 bytes from the end. + // + simdjson_really_inline simd8 is_incomplete(const simd8 input) { + // If the previous input's last 3 bytes match this, they're too short (they ended at EOF): + // ... 1111____ 111_____ 11______ + static const uint8_t max_array[32] = { + 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 0b11110000u-1, 0b11100000u-1, 0b11000000u-1 + }; + const simd8 max_value(&max_array[sizeof(max_array)-sizeof(simd8)]); + return input.gt_bits(max_value); + } + + struct utf8_checker { + // If this is nonzero, there has been a UTF-8 error. + simd8 error; + // The last input we received + simd8 prev_input_block; + // Whether the last input we received was incomplete (used for ASCII fast path) + simd8 prev_incomplete; + + // + // Check whether the current bytes are valid UTF-8. + // + simdjson_really_inline void check_utf8_bytes(const simd8 input, const simd8 prev_input) { + // Flip prev1...prev3 so we can easily determine if they are 2+, 3+ or 4+ lead bytes + // (2, 3, 4-byte leads become large positive numbers instead of small negative numbers) + simd8 prev1 = input.prev<1>(prev_input); + simd8 sc = check_special_cases(input, prev1); + this->error |= check_multibyte_lengths(input, prev_input, sc); + } + + // The only problem that can happen at EOF is that a multibyte character is too short + // or a byte value too large in the last bytes: check_special_cases only checks for bytes + // too large in the first of two bytes. + simdjson_really_inline void check_eof() { + // If the previous block had incomplete UTF-8 characters at the end, an ASCII block can't + // possibly finish them. + this->error |= this->prev_incomplete; + } + + simdjson_really_inline void check_next_input(const simd8x64& input) { + if(simdjson_likely(is_ascii(input))) { + this->error |= this->prev_incomplete; + } else { + // you might think that a for-loop would work, but under Visual Studio, it is not good enough. + static_assert((simd8x64::NUM_CHUNKS == 2) || (simd8x64::NUM_CHUNKS == 4), + "We support either two or four chunks per 64-byte block."); + if(simd8x64::NUM_CHUNKS == 2) { + this->check_utf8_bytes(input.chunks[0], this->prev_input_block); + this->check_utf8_bytes(input.chunks[1], input.chunks[0]); + } else if(simd8x64::NUM_CHUNKS == 4) { + this->check_utf8_bytes(input.chunks[0], this->prev_input_block); + this->check_utf8_bytes(input.chunks[1], input.chunks[0]); + this->check_utf8_bytes(input.chunks[2], input.chunks[1]); + this->check_utf8_bytes(input.chunks[3], input.chunks[2]); + } + this->prev_incomplete = is_incomplete(input.chunks[simd8x64::NUM_CHUNKS-1]); + this->prev_input_block = input.chunks[simd8x64::NUM_CHUNKS-1]; + + } + } + // do not forget to call check_eof! + simdjson_really_inline error_code errors() { + return this->error.any_bits_set_anywhere() ? error_code::UTF8_ERROR : error_code::SUCCESS; + } + + }; // struct utf8_checker +} // namespace utf8_validation + +using utf8_validation::utf8_checker; + +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson +/* end file src/generic/stage1/utf8_lookup4_algorithm.h */ +/* begin file src/generic/stage1/json_structural_indexer.h */ +// This file contains the common code every implementation uses in stage1 +// It is intended to be included multiple times and compiled multiple times +// We assume the file in which it is included already includes +// "simdjson/stage1.h" (this simplifies amalgation) + +/* begin file src/generic/stage1/buf_block_reader.h */ +namespace simdjson { +namespace ppc64 { +namespace { + +// Walks through a buffer in block-sized increments, loading the last part with spaces +template +struct buf_block_reader { +public: + simdjson_really_inline buf_block_reader(const uint8_t *_buf, size_t _len); + simdjson_really_inline size_t block_index(); + simdjson_really_inline bool has_full_block() const; + simdjson_really_inline const uint8_t *full_block() const; + /** + * Get the last block, padded with spaces. + * + * There will always be a last block, with at least 1 byte, unless len == 0 (in which case this + * function fills the buffer with spaces and returns 0. In particular, if len == STEP_SIZE there + * will be 0 full_blocks and 1 remainder block with STEP_SIZE bytes and no spaces for padding. + * + * @return the number of effective characters in the last block. + */ + simdjson_really_inline size_t get_remainder(uint8_t *dst) const; + simdjson_really_inline void advance(); +private: + const uint8_t *buf; + const size_t len; + const size_t lenminusstep; + size_t idx; +}; + +// Routines to print masks and text for debugging bitmask operations +simdjson_unused static char * format_input_text_64(const uint8_t *text) { + static char *buf = (char*)malloc(sizeof(simd8x64) + 1); + for (size_t i=0; i); i++) { + buf[i] = int8_t(text[i]) < ' ' ? '_' : int8_t(text[i]); + } + buf[sizeof(simd8x64)] = '\0'; + return buf; +} + +// Routines to print masks and text for debugging bitmask operations +simdjson_unused static char * format_input_text(const simd8x64& in) { + static char *buf = (char*)malloc(sizeof(simd8x64) + 1); + in.store((uint8_t*)buf); + for (size_t i=0; i); i++) { + if (buf[i] < ' ') { buf[i] = '_'; } + } + buf[sizeof(simd8x64)] = '\0'; + return buf; +} + +simdjson_unused static char * format_mask(uint64_t mask) { + static char *buf = (char*)malloc(64 + 1); + for (size_t i=0; i<64; i++) { + buf[i] = (mask & (size_t(1) << i)) ? 'X' : ' '; + } + buf[64] = '\0'; + return buf; +} + +template +simdjson_really_inline buf_block_reader::buf_block_reader(const uint8_t *_buf, size_t _len) : buf{_buf}, len{_len}, lenminusstep{len < STEP_SIZE ? 0 : len - STEP_SIZE}, idx{0} {} + +template +simdjson_really_inline size_t buf_block_reader::block_index() { return idx; } + +template +simdjson_really_inline bool buf_block_reader::has_full_block() const { + return idx < lenminusstep; +} + +template +simdjson_really_inline const uint8_t *buf_block_reader::full_block() const { + return &buf[idx]; +} + +template +simdjson_really_inline size_t buf_block_reader::get_remainder(uint8_t *dst) const { + if(len == idx) { return 0; } // memcpy(dst, null, 0) will trigger an error with some sanitizers + std::memset(dst, 0x20, STEP_SIZE); // std::memset STEP_SIZE because it's more efficient to write out 8 or 16 bytes at once. + std::memcpy(dst, buf + idx, len - idx); + return len - idx; +} + +template +simdjson_really_inline void buf_block_reader::advance() { + idx += STEP_SIZE; +} + +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson +/* end file src/generic/stage1/buf_block_reader.h */ +/* begin file src/generic/stage1/json_string_scanner.h */ +namespace simdjson { +namespace ppc64 { +namespace { +namespace stage1 { + +struct json_string_block { + // Escaped characters (characters following an escape() character) + simdjson_really_inline uint64_t escaped() const { return _escaped; } + // Escape characters (backslashes that are not escaped--i.e. in \\, includes only the first \) + simdjson_really_inline uint64_t escape() const { return _backslash & ~_escaped; } + // Real (non-backslashed) quotes + simdjson_really_inline uint64_t quote() const { return _quote; } + // Start quotes of strings + simdjson_really_inline uint64_t string_start() const { return _quote & _in_string; } + // End quotes of strings + simdjson_really_inline uint64_t string_end() const { return _quote & ~_in_string; } + // Only characters inside the string (not including the quotes) + simdjson_really_inline uint64_t string_content() const { return _in_string & ~_quote; } + // Return a mask of whether the given characters are inside a string (only works on non-quotes) + simdjson_really_inline uint64_t non_quote_inside_string(uint64_t mask) const { return mask & _in_string; } + // Return a mask of whether the given characters are inside a string (only works on non-quotes) + simdjson_really_inline uint64_t non_quote_outside_string(uint64_t mask) const { return mask & ~_in_string; } + // Tail of string (everything except the start quote) + simdjson_really_inline uint64_t string_tail() const { return _in_string ^ _quote; } + + // backslash characters + uint64_t _backslash; + // escaped characters (backslashed--does not include the hex characters after \u) + uint64_t _escaped; + // real quotes (non-backslashed ones) + uint64_t _quote; + // string characters (includes start quote but not end quote) + uint64_t _in_string; +}; + +// Scans blocks for string characters, storing the state necessary to do so +class json_string_scanner { +public: + simdjson_really_inline json_string_block next(const simd::simd8x64& in); + // Returns either UNCLOSED_STRING or SUCCESS + simdjson_really_inline error_code finish(); + +private: + // Intended to be defined by the implementation + simdjson_really_inline uint64_t find_escaped(uint64_t escape); + simdjson_really_inline uint64_t find_escaped_branchless(uint64_t escape); + + // Whether the last iteration was still inside a string (all 1's = true, all 0's = false). + uint64_t prev_in_string = 0ULL; + // Whether the first character of the next iteration is escaped. + uint64_t prev_escaped = 0ULL; +}; + +// +// Finds escaped characters (characters following \). +// +// Handles runs of backslashes like \\\" and \\\\" correctly (yielding 0101 and 01010, respectively). +// +// Does this by: +// - Shift the escape mask to get potentially escaped characters (characters after backslashes). +// - Mask escaped sequences that start on *even* bits with 1010101010 (odd bits are escaped, even bits are not) +// - Mask escaped sequences that start on *odd* bits with 0101010101 (even bits are escaped, odd bits are not) +// +// To distinguish between escaped sequences starting on even/odd bits, it finds the start of all +// escape sequences, filters out the ones that start on even bits, and adds that to the mask of +// escape sequences. This causes the addition to clear out the sequences starting on odd bits (since +// the start bit causes a carry), and leaves even-bit sequences alone. +// +// Example: +// +// text | \\\ | \\\"\\\" \\\" \\"\\" | +// escape | xxx | xx xxx xxx xx xx | Removed overflow backslash; will | it into follows_escape +// odd_starts | x | x x x | escape & ~even_bits & ~follows_escape +// even_seq | c| cxxx c xx c | c = carry bit -- will be masked out later +// invert_mask | | cxxx c xx c| even_seq << 1 +// follows_escape | xx | x xx xxx xxx xx xx | Includes overflow bit +// escaped | x | x x x x x x x x | +// desired | x | x x x x x x x x | +// text | \\\ | \\\"\\\" \\\" \\"\\" | +// +simdjson_really_inline uint64_t json_string_scanner::find_escaped_branchless(uint64_t backslash) { + // If there was overflow, pretend the first character isn't a backslash + backslash &= ~prev_escaped; + uint64_t follows_escape = backslash << 1 | prev_escaped; + + // Get sequences starting on even bits by clearing out the odd series using + + const uint64_t even_bits = 0x5555555555555555ULL; + uint64_t odd_sequence_starts = backslash & ~even_bits & ~follows_escape; + uint64_t sequences_starting_on_even_bits; + prev_escaped = add_overflow(odd_sequence_starts, backslash, &sequences_starting_on_even_bits); + uint64_t invert_mask = sequences_starting_on_even_bits << 1; // The mask we want to return is the *escaped* bits, not escapes. + + // Mask every other backslashed character as an escaped character + // Flip the mask for sequences that start on even bits, to correct them + return (even_bits ^ invert_mask) & follows_escape; +} + +// +// Return a mask of all string characters plus end quotes. +// +// prev_escaped is overflow saying whether the next character is escaped. +// prev_in_string is overflow saying whether we're still in a string. +// +// Backslash sequences outside of quotes will be detected in stage 2. +// +simdjson_really_inline json_string_block json_string_scanner::next(const simd::simd8x64& in) { + const uint64_t backslash = in.eq('\\'); + const uint64_t escaped = find_escaped(backslash); + const uint64_t quote = in.eq('"') & ~escaped; + + // + // prefix_xor flips on bits inside the string (and flips off the end quote). + // + // Then we xor with prev_in_string: if we were in a string already, its effect is flipped + // (characters inside strings are outside, and characters outside strings are inside). + // + const uint64_t in_string = prefix_xor(quote) ^ prev_in_string; + + // + // Check if we're still in a string at the end of the box so the next block will know + // + // right shift of a signed value expected to be well-defined and standard + // compliant as of C++20, John Regher from Utah U. says this is fine code + // + prev_in_string = uint64_t(static_cast(in_string) >> 63); + + // Use ^ to turn the beginning quote off, and the end quote on. + return { + backslash, + escaped, + quote, + in_string + }; +} + +simdjson_really_inline error_code json_string_scanner::finish() { + if (prev_in_string) { + return UNCLOSED_STRING; + } + return SUCCESS; +} + +} // namespace stage1 +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson +/* end file src/generic/stage1/json_string_scanner.h */ +/* begin file src/generic/stage1/json_scanner.h */ +namespace simdjson { +namespace ppc64 { +namespace { +namespace stage1 { + +/** + * A block of scanned json, with information on operators and scalars. + * + * We seek to identify pseudo-structural characters. Anything that is inside + * a string must be omitted (hence & ~_string.string_tail()). + * Otherwise, pseudo-structural characters come in two forms. + * 1. We have the structural characters ([,],{,},:, comma). The + * term 'structural character' is from the JSON RFC. + * 2. We have the 'scalar pseudo-structural characters'. + * Scalars are quotes, and any character except structural characters and white space. + * + * To identify the scalar pseudo-structural characters, we must look at what comes + * before them: it must be a space, a quote or a structural characters. + * Starting with simdjson v0.3, we identify them by + * negation: we identify everything that is followed by a non-quote scalar, + * and we negate that. Whatever remains must be a 'scalar pseudo-structural character'. + */ +struct json_block { +public: + /** + * The start of structurals. + * In simdjson prior to v0.3, these were called the pseudo-structural characters. + **/ + simdjson_really_inline uint64_t structural_start() { return potential_structural_start() & ~_string.string_tail(); } + /** All JSON whitespace (i.e. not in a string) */ + simdjson_really_inline uint64_t whitespace() { return non_quote_outside_string(_characters.whitespace()); } + + // Helpers + + /** Whether the given characters are inside a string (only works on non-quotes) */ + simdjson_really_inline uint64_t non_quote_inside_string(uint64_t mask) { return _string.non_quote_inside_string(mask); } + /** Whether the given characters are outside a string (only works on non-quotes) */ + simdjson_really_inline uint64_t non_quote_outside_string(uint64_t mask) { return _string.non_quote_outside_string(mask); } + + // string and escape characters + json_string_block _string; + // whitespace, structural characters ('operators'), scalars + json_character_block _characters; + // whether the previous character was a scalar + uint64_t _follows_potential_nonquote_scalar; +private: + // Potential structurals (i.e. disregarding strings) + + /** + * structural elements ([,],{,},:, comma) plus scalar starts like 123, true and "abc". + * They may reside inside a string. + **/ + simdjson_really_inline uint64_t potential_structural_start() { return _characters.op() | potential_scalar_start(); } + /** + * The start of non-operator runs, like 123, true and "abc". + * It main reside inside a string. + **/ + simdjson_really_inline uint64_t potential_scalar_start() { + // The term "scalar" refers to anything except structural characters and white space + // (so letters, numbers, quotes). + // Whenever it is preceded by something that is not a structural element ({,},[,],:, ") nor a white-space + // then we know that it is irrelevant structurally. + return _characters.scalar() & ~follows_potential_scalar(); + } + /** + * Whether the given character is immediately after a non-operator like 123, true. + * The characters following a quote are not included. + */ + simdjson_really_inline uint64_t follows_potential_scalar() { + // _follows_potential_nonquote_scalar: is defined as marking any character that follows a character + // that is not a structural element ({,},[,],:, comma) nor a quote (") and that is not a + // white space. + // It is understood that within quoted region, anything at all could be marked (irrelevant). + return _follows_potential_nonquote_scalar; + } +}; + +/** + * Scans JSON for important bits: structural characters or 'operators', strings, and scalars. + * + * The scanner starts by calculating two distinct things: + * - string characters (taking \" into account) + * - structural characters or 'operators' ([]{},:, comma) + * and scalars (runs of non-operators like 123, true and "abc") + * + * To minimize data dependency (a key component of the scanner's speed), it finds these in parallel: + * in particular, the operator/scalar bit will find plenty of things that are actually part of + * strings. When we're done, json_block will fuse the two together by masking out tokens that are + * part of a string. + */ +class json_scanner { +public: + json_scanner() {} + simdjson_really_inline json_block next(const simd::simd8x64& in); + // Returns either UNCLOSED_STRING or SUCCESS + simdjson_really_inline error_code finish(); + +private: + // Whether the last character of the previous iteration is part of a scalar token + // (anything except whitespace or a structural character/'operator'). + uint64_t prev_scalar = 0ULL; + json_string_scanner string_scanner{}; +}; + + +// +// Check if the current character immediately follows a matching character. +// +// For example, this checks for quotes with backslashes in front of them: +// +// const uint64_t backslashed_quote = in.eq('"') & immediately_follows(in.eq('\'), prev_backslash); +// +simdjson_really_inline uint64_t follows(const uint64_t match, uint64_t &overflow) { + const uint64_t result = match << 1 | overflow; + overflow = match >> 63; + return result; +} + +simdjson_really_inline json_block json_scanner::next(const simd::simd8x64& in) { + json_string_block strings = string_scanner.next(in); + // identifies the white-space and the structurat characters + json_character_block characters = json_character_block::classify(in); + // The term "scalar" refers to anything except structural characters and white space + // (so letters, numbers, quotes). + // We want follows_scalar to mark anything that follows a non-quote scalar (so letters and numbers). + // + // A terminal quote should either be followed by a structural character (comma, brace, bracket, colon) + // or nothing. However, we still want ' "a string"true ' to mark the 't' of 'true' as a potential + // pseudo-structural character just like we would if we had ' "a string" true '; otherwise we + // may need to add an extra check when parsing strings. + // + // Performance: there are many ways to skin this cat. + const uint64_t nonquote_scalar = characters.scalar() & ~strings.quote(); + uint64_t follows_nonquote_scalar = follows(nonquote_scalar, prev_scalar); + return { + strings, + characters, + follows_nonquote_scalar + }; +} + +simdjson_really_inline error_code json_scanner::finish() { + return string_scanner.finish(); +} + +} // namespace stage1 +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson +/* end file src/generic/stage1/json_scanner.h */ +/* begin file src/generic/stage1/json_minifier.h */ +// This file contains the common code every implementation uses in stage1 +// It is intended to be included multiple times and compiled multiple times +// We assume the file in which it is included already includes +// "simdjson/stage1.h" (this simplifies amalgation) + +namespace simdjson { +namespace ppc64 { +namespace { +namespace stage1 { + +class json_minifier { +public: + template + static error_code minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) noexcept; + +private: + simdjson_really_inline json_minifier(uint8_t *_dst) + : dst{_dst} + {} + template + simdjson_really_inline void step(const uint8_t *block_buf, buf_block_reader &reader) noexcept; + simdjson_really_inline void next(const simd::simd8x64& in, json_block block); + simdjson_really_inline error_code finish(uint8_t *dst_start, size_t &dst_len); + json_scanner scanner{}; + uint8_t *dst; +}; + +simdjson_really_inline void json_minifier::next(const simd::simd8x64& in, json_block block) { + uint64_t mask = block.whitespace(); + in.compress(mask, dst); + dst += 64 - count_ones(mask); +} + +simdjson_really_inline error_code json_minifier::finish(uint8_t *dst_start, size_t &dst_len) { + error_code error = scanner.finish(); + if (error) { dst_len = 0; return error; } + dst_len = dst - dst_start; + return SUCCESS; +} + +template<> +simdjson_really_inline void json_minifier::step<128>(const uint8_t *block_buf, buf_block_reader<128> &reader) noexcept { + simd::simd8x64 in_1(block_buf); + simd::simd8x64 in_2(block_buf+64); + json_block block_1 = scanner.next(in_1); + json_block block_2 = scanner.next(in_2); + this->next(in_1, block_1); + this->next(in_2, block_2); + reader.advance(); +} + +template<> +simdjson_really_inline void json_minifier::step<64>(const uint8_t *block_buf, buf_block_reader<64> &reader) noexcept { + simd::simd8x64 in_1(block_buf); + json_block block_1 = scanner.next(in_1); + this->next(block_buf, block_1); + reader.advance(); +} + +template +error_code json_minifier::minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) noexcept { + buf_block_reader reader(buf, len); + json_minifier minifier(dst); + + // Index the first n-1 blocks + while (reader.has_full_block()) { + minifier.step(reader.full_block(), reader); + } + + // Index the last (remainder) block, padded with spaces + uint8_t block[STEP_SIZE]; + size_t remaining_bytes = reader.get_remainder(block); + if (remaining_bytes > 0) { + // We do not want to write directly to the output stream. Rather, we write + // to a local buffer (for safety). + uint8_t out_block[STEP_SIZE]; + uint8_t * const guarded_dst{minifier.dst}; + minifier.dst = out_block; + minifier.step(block, reader); + size_t to_write = minifier.dst - out_block; + // In some cases, we could be enticed to consider the padded spaces + // as part of the string. This is fine as long as we do not write more + // than we consumed. + if(to_write > remaining_bytes) { to_write = remaining_bytes; } + memcpy(guarded_dst, out_block, to_write); + minifier.dst = guarded_dst + to_write; + } + return minifier.finish(dst, dst_len); +} + +} // namespace stage1 +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson +/* end file src/generic/stage1/json_minifier.h */ +/* begin file src/generic/stage1/find_next_document_index.h */ +namespace simdjson { +namespace ppc64 { +namespace { + +/** + * This algorithm is used to quickly identify the last structural position that + * makes up a complete document. + * + * It does this by going backwards and finding the last *document boundary* (a + * place where one value follows another without a comma between them). If the + * last document (the characters after the boundary) has an equal number of + * start and end brackets, it is considered complete. + * + * Simply put, we iterate over the structural characters, starting from + * the end. We consider that we found the end of a JSON document when the + * first element of the pair is NOT one of these characters: '{' '[' ';' ',' + * and when the second element is NOT one of these characters: '}' '}' ';' ','. + * + * This simple comparison works most of the time, but it does not cover cases + * where the batch's structural indexes contain a perfect amount of documents. + * In such a case, we do not have access to the structural index which follows + * the last document, therefore, we do not have access to the second element in + * the pair, and that means we cannot identify the last document. To fix this + * issue, we keep a count of the open and closed curly/square braces we found + * while searching for the pair. When we find a pair AND the count of open and + * closed curly/square braces is the same, we know that we just passed a + * complete document, therefore the last json buffer location is the end of the + * batch. + */ +simdjson_really_inline uint32_t find_next_document_index(dom_parser_implementation &parser) { + // TODO don't count separately, just figure out depth + auto arr_cnt = 0; + auto obj_cnt = 0; + for (auto i = parser.n_structural_indexes - 1; i > 0; i--) { + auto idxb = parser.structural_indexes[i]; + switch (parser.buf[idxb]) { + case ':': + case ',': + continue; + case '}': + obj_cnt--; + continue; + case ']': + arr_cnt--; + continue; + case '{': + obj_cnt++; + break; + case '[': + arr_cnt++; + break; + } + auto idxa = parser.structural_indexes[i - 1]; + switch (parser.buf[idxa]) { + case '{': + case '[': + case ':': + case ',': + continue; + } + // Last document is complete, so the next document will appear after! + if (!arr_cnt && !obj_cnt) { + return parser.n_structural_indexes; + } + // Last document is incomplete; mark the document at i + 1 as the next one + return i; + } + return 0; +} + +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson +/* end file src/generic/stage1/find_next_document_index.h */ + +namespace simdjson { +namespace ppc64 { +namespace { +namespace stage1 { + +class bit_indexer { +public: + uint32_t *tail; + + simdjson_really_inline bit_indexer(uint32_t *index_buf) : tail(index_buf) {} + + // flatten out values in 'bits' assuming that they are are to have values of idx + // plus their position in the bitvector, and store these indexes at + // base_ptr[base] incrementing base as we go + // will potentially store extra values beyond end of valid bits, so base_ptr + // needs to be large enough to handle this + simdjson_really_inline void write(uint32_t idx, uint64_t bits) { + // In some instances, the next branch is expensive because it is mispredicted. + // Unfortunately, in other cases, + // it helps tremendously. + if (bits == 0) + return; + int cnt = static_cast(count_ones(bits)); + + // Do the first 8 all together + for (int i=0; i<8; i++) { + this->tail[i] = idx + trailing_zeroes(bits); + bits = clear_lowest_bit(bits); + } + + // Do the next 8 all together (we hope in most cases it won't happen at all + // and the branch is easily predicted). + if (simdjson_unlikely(cnt > 8)) { + for (int i=8; i<16; i++) { + this->tail[i] = idx + trailing_zeroes(bits); + bits = clear_lowest_bit(bits); + } + + // Most files don't have 16+ structurals per block, so we take several basically guaranteed + // branch mispredictions here. 16+ structurals per block means either punctuation ({} [] , :) + // or the start of a value ("abc" true 123) every four characters. + if (simdjson_unlikely(cnt > 16)) { + int i = 16; + do { + this->tail[i] = idx + trailing_zeroes(bits); + bits = clear_lowest_bit(bits); + i++; + } while (i < cnt); + } + } + + this->tail += cnt; + } +}; + +class json_structural_indexer { +public: + /** + * Find the important bits of JSON in a 128-byte chunk, and add them to structural_indexes. + * + * @param partial Setting the partial parameter to true allows the find_structural_bits to + * tolerate unclosed strings. The caller should still ensure that the input is valid UTF-8. If + * you are processing substrings, you may want to call on a function like trimmed_length_safe_utf8. + */ + template + static error_code index(const uint8_t *buf, size_t len, dom_parser_implementation &parser, bool partial) noexcept; + +private: + simdjson_really_inline json_structural_indexer(uint32_t *structural_indexes); + template + simdjson_really_inline void step(const uint8_t *block, buf_block_reader &reader) noexcept; + simdjson_really_inline void next(const simd::simd8x64& in, json_block block, size_t idx); + simdjson_really_inline error_code finish(dom_parser_implementation &parser, size_t idx, size_t len, bool partial); + + json_scanner scanner{}; + utf8_checker checker{}; + bit_indexer indexer; + uint64_t prev_structurals = 0; + uint64_t unescaped_chars_error = 0; +}; + +simdjson_really_inline json_structural_indexer::json_structural_indexer(uint32_t *structural_indexes) : indexer{structural_indexes} {} + +// Skip the last character if it is partial +simdjson_really_inline size_t trim_partial_utf8(const uint8_t *buf, size_t len) { + if (simdjson_unlikely(len < 3)) { + switch (len) { + case 2: + if (buf[len-1] >= 0b11000000) { return len-1; } // 2-, 3- and 4-byte characters with only 1 byte left + if (buf[len-2] >= 0b11100000) { return len-2; } // 3- and 4-byte characters with only 2 bytes left + return len; + case 1: + if (buf[len-1] >= 0b11000000) { return len-1; } // 2-, 3- and 4-byte characters with only 1 byte left + return len; + case 0: + return len; + } + } + if (buf[len-1] >= 0b11000000) { return len-1; } // 2-, 3- and 4-byte characters with only 1 byte left + if (buf[len-2] >= 0b11100000) { return len-2; } // 3- and 4-byte characters with only 1 byte left + if (buf[len-3] >= 0b11110000) { return len-3; } // 4-byte characters with only 3 bytes left + return len; +} + +// +// PERF NOTES: +// We pipe 2 inputs through these stages: +// 1. Load JSON into registers. This takes a long time and is highly parallelizable, so we load +// 2 inputs' worth at once so that by the time step 2 is looking for them input, it's available. +// 2. Scan the JSON for critical data: strings, scalars and operators. This is the critical path. +// The output of step 1 depends entirely on this information. These functions don't quite use +// up enough CPU: the second half of the functions is highly serial, only using 1 execution core +// at a time. The second input's scans has some dependency on the first ones finishing it, but +// they can make a lot of progress before they need that information. +// 3. Step 1 doesn't use enough capacity, so we run some extra stuff while we're waiting for that +// to finish: utf-8 checks and generating the output from the last iteration. +// +// The reason we run 2 inputs at a time, is steps 2 and 3 are *still* not enough to soak up all +// available capacity with just one input. Running 2 at a time seems to give the CPU a good enough +// workout. +// +template +error_code json_structural_indexer::index(const uint8_t *buf, size_t len, dom_parser_implementation &parser, bool partial) noexcept { + if (simdjson_unlikely(len > parser.capacity())) { return CAPACITY; } + if (partial) { len = trim_partial_utf8(buf, len); } + + buf_block_reader reader(buf, len); + json_structural_indexer indexer(parser.structural_indexes.get()); + + // Read all but the last block + while (reader.has_full_block()) { + indexer.step(reader.full_block(), reader); + } + + // Take care of the last block (will always be there unless file is empty) + uint8_t block[STEP_SIZE]; + if (simdjson_unlikely(reader.get_remainder(block) == 0)) { return EMPTY; } + indexer.step(block, reader); + + return indexer.finish(parser, reader.block_index(), len, partial); +} + +template<> +simdjson_really_inline void json_structural_indexer::step<128>(const uint8_t *block, buf_block_reader<128> &reader) noexcept { + simd::simd8x64 in_1(block); + simd::simd8x64 in_2(block+64); + json_block block_1 = scanner.next(in_1); + json_block block_2 = scanner.next(in_2); + this->next(in_1, block_1, reader.block_index()); + this->next(in_2, block_2, reader.block_index()+64); + reader.advance(); +} + +template<> +simdjson_really_inline void json_structural_indexer::step<64>(const uint8_t *block, buf_block_reader<64> &reader) noexcept { + simd::simd8x64 in_1(block); + json_block block_1 = scanner.next(in_1); + this->next(in_1, block_1, reader.block_index()); + reader.advance(); +} + +simdjson_really_inline void json_structural_indexer::next(const simd::simd8x64& in, json_block block, size_t idx) { + uint64_t unescaped = in.lteq(0x1F); + checker.check_next_input(in); + indexer.write(uint32_t(idx-64), prev_structurals); // Output *last* iteration's structurals to the parser + prev_structurals = block.structural_start(); + unescaped_chars_error |= block.non_quote_inside_string(unescaped); +} + +simdjson_really_inline error_code json_structural_indexer::finish(dom_parser_implementation &parser, size_t idx, size_t len, bool partial) { + // Write out the final iteration's structurals + indexer.write(uint32_t(idx-64), prev_structurals); + + error_code error = scanner.finish(); + // We deliberately break down the next expression so that it is + // human readable. + const bool should_we_exit = partial ? + ((error != SUCCESS) && (error != UNCLOSED_STRING)) // when partial we tolerate UNCLOSED_STRING + : (error != SUCCESS); // if partial is false, we must have SUCCESS + const bool have_unclosed_string = (error == UNCLOSED_STRING); + if (simdjson_unlikely(should_we_exit)) { return error; } + + if (unescaped_chars_error) { + return UNESCAPED_CHARS; + } + + parser.n_structural_indexes = uint32_t(indexer.tail - parser.structural_indexes.get()); + /*** + * This is related to https://github.com/simdjson/simdjson/issues/906 + * Basically, we want to make sure that if the parsing continues beyond the last (valid) + * structural character, it quickly stops. + * Only three structural characters can be repeated without triggering an error in JSON: [,] and }. + * We repeat the padding character (at 'len'). We don't know what it is, but if the parsing + * continues, then it must be [,] or }. + * Suppose it is ] or }. We backtrack to the first character, what could it be that would + * not trigger an error? It could be ] or } but no, because you can't start a document that way. + * It can't be a comma, a colon or any simple value. So the only way we could continue is + * if the repeated character is [. But if so, the document must start with [. But if the document + * starts with [, it should end with ]. If we enforce that rule, then we would get + * ][[ which is invalid. + **/ + parser.structural_indexes[parser.n_structural_indexes] = uint32_t(len); + parser.structural_indexes[parser.n_structural_indexes + 1] = uint32_t(len); + parser.structural_indexes[parser.n_structural_indexes + 2] = 0; + parser.next_structural_index = 0; + // a valid JSON file cannot have zero structural indexes - we should have found something + if (simdjson_unlikely(parser.n_structural_indexes == 0u)) { + return EMPTY; + } + if (simdjson_unlikely(parser.structural_indexes[parser.n_structural_indexes - 1] > len)) { + return UNEXPECTED_ERROR; + } + if (partial) { + // If we have an unclosed string, then the last structural + // will be the quote and we want to make sure to omit it. + if(have_unclosed_string) { + parser.n_structural_indexes--; + // a valid JSON file cannot have zero structural indexes - we should have found something + if (simdjson_unlikely(parser.n_structural_indexes == 0u)) { return CAPACITY; } + } + auto new_structural_indexes = find_next_document_index(parser); + if (new_structural_indexes == 0 && parser.n_structural_indexes > 0) { + return CAPACITY; // If the buffer is partial but the document is incomplete, it's too big to parse. + } + parser.n_structural_indexes = new_structural_indexes; + } + checker.check_eof(); + return checker.errors(); +} + +} // namespace stage1 +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson +/* end file src/generic/stage1/json_structural_indexer.h */ +/* begin file src/generic/stage1/utf8_validator.h */ +namespace simdjson { +namespace ppc64 { +namespace { +namespace stage1 { + +/** + * Validates that the string is actual UTF-8. + */ +template +bool generic_validate_utf8(const uint8_t * input, size_t length) { + checker c{}; + buf_block_reader<64> reader(input, length); + while (reader.has_full_block()) { + simd::simd8x64 in(reader.full_block()); + c.check_next_input(in); + reader.advance(); + } + uint8_t block[64]{}; + reader.get_remainder(block); + simd::simd8x64 in(block); + c.check_next_input(in); + reader.advance(); + c.check_eof(); + return c.errors() == error_code::SUCCESS; +} + +bool generic_validate_utf8(const char * input, size_t length) { + return generic_validate_utf8((const uint8_t *)input,length); +} + +} // namespace stage1 +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson +/* end file src/generic/stage1/utf8_validator.h */ + +// +// Stage 2 +// + +/* begin file src/generic/stage2/tape_builder.h */ +/* begin file src/generic/stage2/json_iterator.h */ +/* begin file src/generic/stage2/logger.h */ +// This is for an internal-only stage 2 specific logger. +// Set LOG_ENABLED = true to log what stage 2 is doing! +namespace simdjson { +namespace ppc64 { +namespace { +namespace logger { + + static constexpr const char * DASHES = "----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------"; + +#if SIMDJSON_VERBOSE_LOGGING + static constexpr const bool LOG_ENABLED = true; +#else + static constexpr const bool LOG_ENABLED = false; +#endif + static constexpr const int LOG_EVENT_LEN = 20; + static constexpr const int LOG_BUFFER_LEN = 30; + static constexpr const int LOG_SMALL_BUFFER_LEN = 10; + static constexpr const int LOG_INDEX_LEN = 5; + + static int log_depth; // Not threadsafe. Log only. + + // Helper to turn unprintable or newline characters into spaces + static simdjson_really_inline char printable_char(char c) { + if (c >= 0x20) { + return c; + } else { + return ' '; + } + } + + // Print the header and set up log_start + static simdjson_really_inline void log_start() { + if (LOG_ENABLED) { + log_depth = 0; + printf("\n"); + printf("| %-*s | %-*s | %-*s | %-*s | Detail |\n", LOG_EVENT_LEN, "Event", LOG_BUFFER_LEN, "Buffer", LOG_SMALL_BUFFER_LEN, "Next", 5, "Next#"); + printf("|%.*s|%.*s|%.*s|%.*s|--------|\n", LOG_EVENT_LEN+2, DASHES, LOG_BUFFER_LEN+2, DASHES, LOG_SMALL_BUFFER_LEN+2, DASHES, 5+2, DASHES); + } + } + + simdjson_unused static simdjson_really_inline void log_string(const char *message) { + if (LOG_ENABLED) { + printf("%s\n", message); + } + } + + // Logs a single line from the stage 2 DOM parser + template + static simdjson_really_inline void log_line(S &structurals, const char *title_prefix, const char *title, const char *detail) { + if (LOG_ENABLED) { + printf("| %*s%s%-*s ", log_depth*2, "", title_prefix, LOG_EVENT_LEN - log_depth*2 - int(strlen(title_prefix)), title); + auto current_index = structurals.at_beginning() ? nullptr : structurals.next_structural-1; + auto next_index = structurals.next_structural; + auto current = current_index ? &structurals.buf[*current_index] : (const uint8_t*)" "; + auto next = &structurals.buf[*next_index]; + { + // Print the next N characters in the buffer. + printf("| "); + // Otherwise, print the characters starting from the buffer position. + // Print spaces for unprintable or newline characters. + for (int i=0;i + simdjson_warn_unused simdjson_really_inline error_code walk_document(V &visitor) noexcept; + + /** + * Create an iterator capable of walking a JSON document. + * + * The document must have already passed through stage 1. + */ + simdjson_really_inline json_iterator(dom_parser_implementation &_dom_parser, size_t start_structural_index); + + /** + * Look at the next token. + * + * Tokens can be strings, numbers, booleans, null, or operators (`[{]},:`)). + * + * They may include invalid JSON as well (such as `1.2.3` or `ture`). + */ + simdjson_really_inline const uint8_t *peek() const noexcept; + /** + * Advance to the next token. + * + * Tokens can be strings, numbers, booleans, null, or operators (`[{]},:`)). + * + * They may include invalid JSON as well (such as `1.2.3` or `ture`). + */ + simdjson_really_inline const uint8_t *advance() noexcept; + /** + * Get the remaining length of the document, from the start of the current token. + */ + simdjson_really_inline size_t remaining_len() const noexcept; + /** + * Check if we are at the end of the document. + * + * If this is true, there are no more tokens. + */ + simdjson_really_inline bool at_eof() const noexcept; + /** + * Check if we are at the beginning of the document. + */ + simdjson_really_inline bool at_beginning() const noexcept; + simdjson_really_inline uint8_t last_structural() const noexcept; + + /** + * Log that a value has been found. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_value(const char *type) const noexcept; + /** + * Log the start of a multipart value. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_start_value(const char *type) const noexcept; + /** + * Log the end of a multipart value. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_end_value(const char *type) const noexcept; + /** + * Log an error. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_error(const char *error) const noexcept; + + template + simdjson_warn_unused simdjson_really_inline error_code visit_root_primitive(V &visitor, const uint8_t *value) noexcept; + template + simdjson_warn_unused simdjson_really_inline error_code visit_primitive(V &visitor, const uint8_t *value) noexcept; +}; + +template +simdjson_warn_unused simdjson_really_inline error_code json_iterator::walk_document(V &visitor) noexcept { + logger::log_start(); + + // + // Start the document + // + if (at_eof()) { return EMPTY; } + log_start_value("document"); + SIMDJSON_TRY( visitor.visit_document_start(*this) ); + + // + // Read first value + // + { + auto value = advance(); + + // Make sure the outer hash or array is closed before continuing; otherwise, there are ways we + // could get into memory corruption. See https://github.com/simdjson/simdjson/issues/906 + if (!STREAMING) { + switch (*value) { + case '{': if (last_structural() != '}') { return TAPE_ERROR; }; break; + case '[': if (last_structural() != ']') { return TAPE_ERROR; }; break; + } + } + + switch (*value) { + case '{': if (*peek() == '}') { advance(); log_value("empty object"); SIMDJSON_TRY( visitor.visit_empty_object(*this) ); break; } goto object_begin; + case '[': if (*peek() == ']') { advance(); log_value("empty array"); SIMDJSON_TRY( visitor.visit_empty_array(*this) ); break; } goto array_begin; + default: SIMDJSON_TRY( visitor.visit_root_primitive(*this, value) ); break; + } + } + goto document_end; + +// +// Object parser states +// +object_begin: + log_start_value("object"); + depth++; + if (depth >= dom_parser.max_depth()) { log_error("Exceeded max depth!"); return DEPTH_ERROR; } + dom_parser.is_array[depth] = false; + SIMDJSON_TRY( visitor.visit_object_start(*this) ); + + { + auto key = advance(); + if (*key != '"') { log_error("Object does not start with a key"); return TAPE_ERROR; } + SIMDJSON_TRY( visitor.increment_count(*this) ); + SIMDJSON_TRY( visitor.visit_key(*this, key) ); + } + +object_field: + if (simdjson_unlikely( *advance() != ':' )) { log_error("Missing colon after key in object"); return TAPE_ERROR; } + { + auto value = advance(); + switch (*value) { + case '{': if (*peek() == '}') { advance(); log_value("empty object"); SIMDJSON_TRY( visitor.visit_empty_object(*this) ); break; } goto object_begin; + case '[': if (*peek() == ']') { advance(); log_value("empty array"); SIMDJSON_TRY( visitor.visit_empty_array(*this) ); break; } goto array_begin; + default: SIMDJSON_TRY( visitor.visit_primitive(*this, value) ); break; + } + } + +object_continue: + switch (*advance()) { + case ',': + SIMDJSON_TRY( visitor.increment_count(*this) ); + { + auto key = advance(); + if (simdjson_unlikely( *key != '"' )) { log_error("Key string missing at beginning of field in object"); return TAPE_ERROR; } + SIMDJSON_TRY( visitor.visit_key(*this, key) ); + } + goto object_field; + case '}': log_end_value("object"); SIMDJSON_TRY( visitor.visit_object_end(*this) ); goto scope_end; + default: log_error("No comma between object fields"); return TAPE_ERROR; + } + +scope_end: + depth--; + if (depth == 0) { goto document_end; } + if (dom_parser.is_array[depth]) { goto array_continue; } + goto object_continue; + +// +// Array parser states +// +array_begin: + log_start_value("array"); + depth++; + if (depth >= dom_parser.max_depth()) { log_error("Exceeded max depth!"); return DEPTH_ERROR; } + dom_parser.is_array[depth] = true; + SIMDJSON_TRY( visitor.visit_array_start(*this) ); + SIMDJSON_TRY( visitor.increment_count(*this) ); + +array_value: + { + auto value = advance(); + switch (*value) { + case '{': if (*peek() == '}') { advance(); log_value("empty object"); SIMDJSON_TRY( visitor.visit_empty_object(*this) ); break; } goto object_begin; + case '[': if (*peek() == ']') { advance(); log_value("empty array"); SIMDJSON_TRY( visitor.visit_empty_array(*this) ); break; } goto array_begin; + default: SIMDJSON_TRY( visitor.visit_primitive(*this, value) ); break; + } + } + +array_continue: + switch (*advance()) { + case ',': SIMDJSON_TRY( visitor.increment_count(*this) ); goto array_value; + case ']': log_end_value("array"); SIMDJSON_TRY( visitor.visit_array_end(*this) ); goto scope_end; + default: log_error("Missing comma between array values"); return TAPE_ERROR; + } + +document_end: + log_end_value("document"); + SIMDJSON_TRY( visitor.visit_document_end(*this) ); + + dom_parser.next_structural_index = uint32_t(next_structural - &dom_parser.structural_indexes[0]); + + // If we didn't make it to the end, it's an error + if ( !STREAMING && dom_parser.next_structural_index != dom_parser.n_structural_indexes ) { + log_error("More than one JSON value at the root of the document, or extra characters at the end of the JSON!"); + return TAPE_ERROR; + } + + return SUCCESS; + +} // walk_document() + +simdjson_really_inline json_iterator::json_iterator(dom_parser_implementation &_dom_parser, size_t start_structural_index) + : buf{_dom_parser.buf}, + next_structural{&_dom_parser.structural_indexes[start_structural_index]}, + dom_parser{_dom_parser} { +} + +simdjson_really_inline const uint8_t *json_iterator::peek() const noexcept { + return &buf[*(next_structural)]; +} +simdjson_really_inline const uint8_t *json_iterator::advance() noexcept { + return &buf[*(next_structural++)]; +} +simdjson_really_inline size_t json_iterator::remaining_len() const noexcept { + return dom_parser.len - *(next_structural-1); +} + +simdjson_really_inline bool json_iterator::at_eof() const noexcept { + return next_structural == &dom_parser.structural_indexes[dom_parser.n_structural_indexes]; +} +simdjson_really_inline bool json_iterator::at_beginning() const noexcept { + return next_structural == dom_parser.structural_indexes.get(); +} +simdjson_really_inline uint8_t json_iterator::last_structural() const noexcept { + return buf[dom_parser.structural_indexes[dom_parser.n_structural_indexes - 1]]; +} + +simdjson_really_inline void json_iterator::log_value(const char *type) const noexcept { + logger::log_line(*this, "", type, ""); +} + +simdjson_really_inline void json_iterator::log_start_value(const char *type) const noexcept { + logger::log_line(*this, "+", type, ""); + if (logger::LOG_ENABLED) { logger::log_depth++; } +} + +simdjson_really_inline void json_iterator::log_end_value(const char *type) const noexcept { + if (logger::LOG_ENABLED) { logger::log_depth--; } + logger::log_line(*this, "-", type, ""); +} + +simdjson_really_inline void json_iterator::log_error(const char *error) const noexcept { + logger::log_line(*this, "", "ERROR", error); +} + +template +simdjson_warn_unused simdjson_really_inline error_code json_iterator::visit_root_primitive(V &visitor, const uint8_t *value) noexcept { + switch (*value) { + case '"': return visitor.visit_root_string(*this, value); + case 't': return visitor.visit_root_true_atom(*this, value); + case 'f': return visitor.visit_root_false_atom(*this, value); + case 'n': return visitor.visit_root_null_atom(*this, value); + case '-': + case '0': case '1': case '2': case '3': case '4': + case '5': case '6': case '7': case '8': case '9': + return visitor.visit_root_number(*this, value); + default: + log_error("Document starts with a non-value character"); + return TAPE_ERROR; + } +} +template +simdjson_warn_unused simdjson_really_inline error_code json_iterator::visit_primitive(V &visitor, const uint8_t *value) noexcept { + switch (*value) { + case '"': return visitor.visit_string(*this, value); + case 't': return visitor.visit_true_atom(*this, value); + case 'f': return visitor.visit_false_atom(*this, value); + case 'n': return visitor.visit_null_atom(*this, value); + case '-': + case '0': case '1': case '2': case '3': case '4': + case '5': case '6': case '7': case '8': case '9': + return visitor.visit_number(*this, value); + default: + log_error("Non-value found when value was expected!"); + return TAPE_ERROR; + } +} + +} // namespace stage2 +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson +/* end file src/generic/stage2/json_iterator.h */ +/* begin file src/generic/stage2/tape_writer.h */ +namespace simdjson { +namespace ppc64 { +namespace { +namespace stage2 { + +struct tape_writer { + /** The next place to write to tape */ + uint64_t *next_tape_loc; + + /** Write a signed 64-bit value to tape. */ + simdjson_really_inline void append_s64(int64_t value) noexcept; + + /** Write an unsigned 64-bit value to tape. */ + simdjson_really_inline void append_u64(uint64_t value) noexcept; + + /** Write a double value to tape. */ + simdjson_really_inline void append_double(double value) noexcept; + + /** + * Append a tape entry (an 8-bit type,and 56 bits worth of value). + */ + simdjson_really_inline void append(uint64_t val, internal::tape_type t) noexcept; + + /** + * Skip the current tape entry without writing. + * + * Used to skip the start of the container, since we'll come back later to fill it in when the + * container ends. + */ + simdjson_really_inline void skip() noexcept; + + /** + * Skip the number of tape entries necessary to write a large u64 or i64. + */ + simdjson_really_inline void skip_large_integer() noexcept; + + /** + * Skip the number of tape entries necessary to write a double. + */ + simdjson_really_inline void skip_double() noexcept; + + /** + * Write a value to a known location on tape. + * + * Used to go back and write out the start of a container after the container ends. + */ + simdjson_really_inline static void write(uint64_t &tape_loc, uint64_t val, internal::tape_type t) noexcept; + +private: + /** + * Append both the tape entry, and a supplementary value following it. Used for types that need + * all 64 bits, such as double and uint64_t. + */ + template + simdjson_really_inline void append2(uint64_t val, T val2, internal::tape_type t) noexcept; +}; // struct number_writer + +simdjson_really_inline void tape_writer::append_s64(int64_t value) noexcept { + append2(0, value, internal::tape_type::INT64); +} + +simdjson_really_inline void tape_writer::append_u64(uint64_t value) noexcept { + append(0, internal::tape_type::UINT64); + *next_tape_loc = value; + next_tape_loc++; +} + +/** Write a double value to tape. */ +simdjson_really_inline void tape_writer::append_double(double value) noexcept { + append2(0, value, internal::tape_type::DOUBLE); +} + +simdjson_really_inline void tape_writer::skip() noexcept { + next_tape_loc++; +} + +simdjson_really_inline void tape_writer::skip_large_integer() noexcept { + next_tape_loc += 2; +} + +simdjson_really_inline void tape_writer::skip_double() noexcept { + next_tape_loc += 2; +} + +simdjson_really_inline void tape_writer::append(uint64_t val, internal::tape_type t) noexcept { + *next_tape_loc = val | ((uint64_t(char(t))) << 56); + next_tape_loc++; +} + +template +simdjson_really_inline void tape_writer::append2(uint64_t val, T val2, internal::tape_type t) noexcept { + append(val, t); + static_assert(sizeof(val2) == sizeof(*next_tape_loc), "Type is not 64 bits!"); + memcpy(next_tape_loc, &val2, sizeof(val2)); + next_tape_loc++; +} + +simdjson_really_inline void tape_writer::write(uint64_t &tape_loc, uint64_t val, internal::tape_type t) noexcept { + tape_loc = val | ((uint64_t(char(t))) << 56); +} + +} // namespace stage2 +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson +/* end file src/generic/stage2/tape_writer.h */ + +namespace simdjson { +namespace ppc64 { +namespace { +namespace stage2 { + +struct tape_builder { + template + simdjson_warn_unused static simdjson_really_inline error_code parse_document( + dom_parser_implementation &dom_parser, + dom::document &doc) noexcept; + + /** Called when a non-empty document starts. */ + simdjson_warn_unused simdjson_really_inline error_code visit_document_start(json_iterator &iter) noexcept; + /** Called when a non-empty document ends without error. */ + simdjson_warn_unused simdjson_really_inline error_code visit_document_end(json_iterator &iter) noexcept; + + /** Called when a non-empty array starts. */ + simdjson_warn_unused simdjson_really_inline error_code visit_array_start(json_iterator &iter) noexcept; + /** Called when a non-empty array ends. */ + simdjson_warn_unused simdjson_really_inline error_code visit_array_end(json_iterator &iter) noexcept; + /** Called when an empty array is found. */ + simdjson_warn_unused simdjson_really_inline error_code visit_empty_array(json_iterator &iter) noexcept; + + /** Called when a non-empty object starts. */ + simdjson_warn_unused simdjson_really_inline error_code visit_object_start(json_iterator &iter) noexcept; + /** + * Called when a key in a field is encountered. + * + * primitive, visit_object_start, visit_empty_object, visit_array_start, or visit_empty_array + * will be called after this with the field value. + */ + simdjson_warn_unused simdjson_really_inline error_code visit_key(json_iterator &iter, const uint8_t *key) noexcept; + /** Called when a non-empty object ends. */ + simdjson_warn_unused simdjson_really_inline error_code visit_object_end(json_iterator &iter) noexcept; + /** Called when an empty object is found. */ + simdjson_warn_unused simdjson_really_inline error_code visit_empty_object(json_iterator &iter) noexcept; + + /** + * Called when a string, number, boolean or null is found. + */ + simdjson_warn_unused simdjson_really_inline error_code visit_primitive(json_iterator &iter, const uint8_t *value) noexcept; + /** + * Called when a string, number, boolean or null is found at the top level of a document (i.e. + * when there is no array or object and the entire document is a single string, number, boolean or + * null. + * + * This is separate from primitive() because simdjson's normal primitive parsing routines assume + * there is at least one more token after the value, which is only true in an array or object. + */ + simdjson_warn_unused simdjson_really_inline error_code visit_root_primitive(json_iterator &iter, const uint8_t *value) noexcept; + + simdjson_warn_unused simdjson_really_inline error_code visit_string(json_iterator &iter, const uint8_t *value, bool key = false) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_number(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_true_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_false_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_null_atom(json_iterator &iter, const uint8_t *value) noexcept; + + simdjson_warn_unused simdjson_really_inline error_code visit_root_string(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_number(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_true_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_false_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_null_atom(json_iterator &iter, const uint8_t *value) noexcept; + + /** Called each time a new field or element in an array or object is found. */ + simdjson_warn_unused simdjson_really_inline error_code increment_count(json_iterator &iter) noexcept; + + /** Next location to write to tape */ + tape_writer tape; +private: + /** Next write location in the string buf for stage 2 parsing */ + uint8_t *current_string_buf_loc; + + simdjson_really_inline tape_builder(dom::document &doc) noexcept; + + simdjson_really_inline uint32_t next_tape_index(json_iterator &iter) const noexcept; + simdjson_really_inline void start_container(json_iterator &iter) noexcept; + simdjson_warn_unused simdjson_really_inline error_code end_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept; + simdjson_warn_unused simdjson_really_inline error_code empty_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept; + simdjson_really_inline uint8_t *on_start_string(json_iterator &iter) noexcept; + simdjson_really_inline void on_end_string(uint8_t *dst) noexcept; +}; // class tape_builder + +template +simdjson_warn_unused simdjson_really_inline error_code tape_builder::parse_document( + dom_parser_implementation &dom_parser, + dom::document &doc) noexcept { + dom_parser.doc = &doc; + json_iterator iter(dom_parser, STREAMING ? dom_parser.next_structural_index : 0); + tape_builder builder(doc); + return iter.walk_document(builder); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_primitive(json_iterator &iter, const uint8_t *value) noexcept { + return iter.visit_root_primitive(*this, value); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_primitive(json_iterator &iter, const uint8_t *value) noexcept { + return iter.visit_primitive(*this, value); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_empty_object(json_iterator &iter) noexcept { + return empty_container(iter, internal::tape_type::START_OBJECT, internal::tape_type::END_OBJECT); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_empty_array(json_iterator &iter) noexcept { + return empty_container(iter, internal::tape_type::START_ARRAY, internal::tape_type::END_ARRAY); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_document_start(json_iterator &iter) noexcept { + start_container(iter); + return SUCCESS; +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_object_start(json_iterator &iter) noexcept { + start_container(iter); + return SUCCESS; +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_array_start(json_iterator &iter) noexcept { + start_container(iter); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_object_end(json_iterator &iter) noexcept { + return end_container(iter, internal::tape_type::START_OBJECT, internal::tape_type::END_OBJECT); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_array_end(json_iterator &iter) noexcept { + return end_container(iter, internal::tape_type::START_ARRAY, internal::tape_type::END_ARRAY); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_document_end(json_iterator &iter) noexcept { + constexpr uint32_t start_tape_index = 0; + tape.append(start_tape_index, internal::tape_type::ROOT); + tape_writer::write(iter.dom_parser.doc->tape[start_tape_index], next_tape_index(iter), internal::tape_type::ROOT); + return SUCCESS; +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_key(json_iterator &iter, const uint8_t *key) noexcept { + return visit_string(iter, key, true); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::increment_count(json_iterator &iter) noexcept { + iter.dom_parser.open_containers[iter.depth].count++; // we have a key value pair in the object at parser.dom_parser.depth - 1 + return SUCCESS; +} + +simdjson_really_inline tape_builder::tape_builder(dom::document &doc) noexcept : tape{doc.tape.get()}, current_string_buf_loc{doc.string_buf.get()} {} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_string(json_iterator &iter, const uint8_t *value, bool key) noexcept { + iter.log_value(key ? "key" : "string"); + uint8_t *dst = on_start_string(iter); + dst = stringparsing::parse_string(value+1, dst); + if (dst == nullptr) { + iter.log_error("Invalid escape in string"); + return STRING_ERROR; + } + on_end_string(dst); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_string(json_iterator &iter, const uint8_t *value) noexcept { + return visit_string(iter, value); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_number(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("number"); + return numberparsing::parse_number(value, tape); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_number(json_iterator &iter, const uint8_t *value) noexcept { + // + // We need to make a copy to make sure that the string is space terminated. + // This is not about padding the input, which should already padded up + // to len + SIMDJSON_PADDING. However, we have no control at this stage + // on how the padding was done. What if the input string was padded with nulls? + // It is quite common for an input string to have an extra null character (C string). + // We do not want to allow 9\0 (where \0 is the null character) inside a JSON + // document, but the string "9\0" by itself is fine. So we make a copy and + // pad the input with spaces when we know that there is just one input element. + // This copy is relatively expensive, but it will almost never be called in + // practice unless you are in the strange scenario where you have many JSON + // documents made of single atoms. + // + uint8_t *copy = static_cast(malloc(iter.remaining_len() + SIMDJSON_PADDING)); + if (copy == nullptr) { return MEMALLOC; } + std::memcpy(copy, value, iter.remaining_len()); + std::memset(copy + iter.remaining_len(), ' ', SIMDJSON_PADDING); + error_code error = visit_number(iter, copy); + free(copy); + return error; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_true_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("true"); + if (!atomparsing::is_valid_true_atom(value)) { return T_ATOM_ERROR; } + tape.append(0, internal::tape_type::TRUE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_true_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("true"); + if (!atomparsing::is_valid_true_atom(value, iter.remaining_len())) { return T_ATOM_ERROR; } + tape.append(0, internal::tape_type::TRUE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_false_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("false"); + if (!atomparsing::is_valid_false_atom(value)) { return F_ATOM_ERROR; } + tape.append(0, internal::tape_type::FALSE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_false_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("false"); + if (!atomparsing::is_valid_false_atom(value, iter.remaining_len())) { return F_ATOM_ERROR; } + tape.append(0, internal::tape_type::FALSE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_null_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("null"); + if (!atomparsing::is_valid_null_atom(value)) { return N_ATOM_ERROR; } + tape.append(0, internal::tape_type::NULL_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_null_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("null"); + if (!atomparsing::is_valid_null_atom(value, iter.remaining_len())) { return N_ATOM_ERROR; } + tape.append(0, internal::tape_type::NULL_VALUE); + return SUCCESS; +} + +// private: + +simdjson_really_inline uint32_t tape_builder::next_tape_index(json_iterator &iter) const noexcept { + return uint32_t(tape.next_tape_loc - iter.dom_parser.doc->tape.get()); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::empty_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept { + auto start_index = next_tape_index(iter); + tape.append(start_index+2, start); + tape.append(start_index, end); + return SUCCESS; +} + +simdjson_really_inline void tape_builder::start_container(json_iterator &iter) noexcept { + iter.dom_parser.open_containers[iter.depth].tape_index = next_tape_index(iter); + iter.dom_parser.open_containers[iter.depth].count = 0; + tape.skip(); // We don't actually *write* the start element until the end. +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::end_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept { + // Write the ending tape element, pointing at the start location + const uint32_t start_tape_index = iter.dom_parser.open_containers[iter.depth].tape_index; + tape.append(start_tape_index, end); + // Write the start tape element, pointing at the end location (and including count) + // count can overflow if it exceeds 24 bits... so we saturate + // the convention being that a cnt of 0xffffff or more is undetermined in value (>= 0xffffff). + const uint32_t count = iter.dom_parser.open_containers[iter.depth].count; + const uint32_t cntsat = count > 0xFFFFFF ? 0xFFFFFF : count; + tape_writer::write(iter.dom_parser.doc->tape[start_tape_index], next_tape_index(iter) | (uint64_t(cntsat) << 32), start); + return SUCCESS; +} + +simdjson_really_inline uint8_t *tape_builder::on_start_string(json_iterator &iter) noexcept { + // we advance the point, accounting for the fact that we have a NULL termination + tape.append(current_string_buf_loc - iter.dom_parser.doc->string_buf.get(), internal::tape_type::STRING); + return current_string_buf_loc + sizeof(uint32_t); +} + +simdjson_really_inline void tape_builder::on_end_string(uint8_t *dst) noexcept { + uint32_t str_length = uint32_t(dst - (current_string_buf_loc + sizeof(uint32_t))); + // TODO check for overflow in case someone has a crazy string (>=4GB?) + // But only add the overflow check when the document itself exceeds 4GB + // Currently unneeded because we refuse to parse docs larger or equal to 4GB. + memcpy(current_string_buf_loc, &str_length, sizeof(uint32_t)); + // NULL termination is still handy if you expect all your strings to + // be NULL terminated? It comes at a small cost + *dst = 0; + current_string_buf_loc = dst + 1; +} + +} // namespace stage2 +} // unnamed namespace +} // namespace ppc64 +} // namespace simdjson +/* end file src/generic/stage2/tape_builder.h */ + +// +// Implementation-specific overrides +// +namespace simdjson { +namespace ppc64 { +namespace { +namespace stage1 { + +simdjson_really_inline uint64_t json_string_scanner::find_escaped(uint64_t backslash) { + // On PPC, we don't short-circuit this if there are no backslashes, because the branch gives us no + // benefit and therefore makes things worse. + // if (!backslash) { uint64_t escaped = prev_escaped; prev_escaped = 0; return escaped; } + return find_escaped_branchless(backslash); +} + +} // namespace stage1 +} // unnamed namespace + +simdjson_warn_unused error_code implementation::minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) const noexcept { + return ppc64::stage1::json_minifier::minify<64>(buf, len, dst, dst_len); +} + +simdjson_warn_unused error_code dom_parser_implementation::stage1(const uint8_t *_buf, size_t _len, bool streaming) noexcept { + this->buf = _buf; + this->len = _len; + return ppc64::stage1::json_structural_indexer::index<64>(buf, len, *this, streaming); +} + +simdjson_warn_unused bool implementation::validate_utf8(const char *buf, size_t len) const noexcept { + return ppc64::stage1::generic_validate_utf8(buf,len); +} + +simdjson_warn_unused error_code dom_parser_implementation::stage2(dom::document &_doc) noexcept { + return stage2::tape_builder::parse_document(*this, _doc); +} + +simdjson_warn_unused error_code dom_parser_implementation::stage2_next(dom::document &_doc) noexcept { + return stage2::tape_builder::parse_document(*this, _doc); +} + +simdjson_warn_unused error_code dom_parser_implementation::parse(const uint8_t *_buf, size_t _len, dom::document &_doc) noexcept { + auto error = stage1(_buf, _len, false); + if (error) { return error; } + return stage2(_doc); +} + +} // namespace ppc64 +} // namespace simdjson + +/* begin file include/simdjson/ppc64/end.h */ +#undef ppc64 +/* end file include/simdjson/ppc64/end.h */ +/* end file src/ppc64/dom_parser_implementation.cpp */ +#endif +#if SIMDJSON_IMPLEMENTATION_WESTMERE +/* begin file src/westmere/implementation.cpp */ +/* begin file include/simdjson/westmere/begin.h */ +// redefining SIMDJSON_IMPLEMENTATION to "westmere" +// #define SIMDJSON_IMPLEMENTATION westmere +SIMDJSON_TARGET_WESTMERE +/* end file include/simdjson/westmere/begin.h */ + +namespace simdjson { +namespace westmere { + +simdjson_warn_unused error_code implementation::create_dom_parser_implementation( + size_t capacity, + size_t max_depth, + std::unique_ptr& dst +) const noexcept { + dst.reset( new (std::nothrow) dom_parser_implementation() ); + if (!dst) { return MEMALLOC; } + dst->set_capacity(capacity); + dst->set_max_depth(max_depth); + return SUCCESS; +} + +} // namespace westmere +} // namespace simdjson + +/* begin file include/simdjson/westmere/end.h */ +SIMDJSON_UNTARGET_REGION +#undef westmere +/* end file include/simdjson/westmere/end.h */ +/* end file src/westmere/implementation.cpp */ +/* begin file src/westmere/dom_parser_implementation.cpp */ +/* begin file include/simdjson/westmere/begin.h */ +// redefining SIMDJSON_IMPLEMENTATION to "westmere" +// #define SIMDJSON_IMPLEMENTATION westmere +SIMDJSON_TARGET_WESTMERE +/* end file include/simdjson/westmere/begin.h */ + +// +// Stage 1 +// + +namespace simdjson { +namespace westmere { +namespace { + +using namespace simd; + +struct json_character_block { + static simdjson_really_inline json_character_block classify(const simd::simd8x64& in); + + simdjson_really_inline uint64_t whitespace() const { return _whitespace; } + simdjson_really_inline uint64_t op() const { return _op; } + simdjson_really_inline uint64_t scalar() { return ~(op() | whitespace()); } + + uint64_t _whitespace; + uint64_t _op; +}; + +simdjson_really_inline json_character_block json_character_block::classify(const simd::simd8x64& in) { + // These lookups rely on the fact that anything < 127 will match the lower 4 bits, which is why + // we can't use the generic lookup_16. + auto whitespace_table = simd8::repeat_16(' ', 100, 100, 100, 17, 100, 113, 2, 100, '\t', '\n', 112, 100, '\r', 100, 100); + + // The 6 operators (:,[]{}) have these values: + // + // , 2C + // : 3A + // [ 5B + // { 7B + // ] 5D + // } 7D + // + // If you use | 0x20 to turn [ and ] into { and }, the lower 4 bits of each character is unique. + // We exploit this, using a simd 4-bit lookup to tell us which character match against, and then + // match it (against | 0x20). + // + // To prevent recognizing other characters, everything else gets compared with 0, which cannot + // match due to the | 0x20. + // + // NOTE: Due to the | 0x20, this ALSO treats and (control characters 0C and 1A) like , + // and :. This gets caught in stage 2, which checks the actual character to ensure the right + // operators are in the right places. + const auto op_table = simd8::repeat_16( + 0, 0, 0, 0, + 0, 0, 0, 0, + 0, 0, ':', '{', // : = 3A, [ = 5B, { = 7B + ',', '}', 0, 0 // , = 2C, ] = 5D, } = 7D + ); + + // We compute whitespace and op separately. If the code later only use one or the + // other, given the fact that all functions are aggressively inlined, we can + // hope that useless computations will be omitted. This is namely case when + // minifying (we only need whitespace). + + + const uint64_t whitespace = in.eq({ + _mm_shuffle_epi8(whitespace_table, in.chunks[0]), + _mm_shuffle_epi8(whitespace_table, in.chunks[1]), + _mm_shuffle_epi8(whitespace_table, in.chunks[2]), + _mm_shuffle_epi8(whitespace_table, in.chunks[3]) + }); + // Turn [ and ] into { and } + const simd8x64 curlified{ + in.chunks[0] | 0x20, + in.chunks[1] | 0x20, + in.chunks[2] | 0x20, + in.chunks[3] | 0x20 + }; + const uint64_t op = curlified.eq({ + _mm_shuffle_epi8(op_table, in.chunks[0]), + _mm_shuffle_epi8(op_table, in.chunks[1]), + _mm_shuffle_epi8(op_table, in.chunks[2]), + _mm_shuffle_epi8(op_table, in.chunks[3]) + }); + return { whitespace, op }; +} + +simdjson_really_inline bool is_ascii(const simd8x64& input) { + return input.reduce_or().is_ascii(); +} + +simdjson_unused simdjson_really_inline simd8 must_be_continuation(const simd8 prev1, const simd8 prev2, const simd8 prev3) { + simd8 is_second_byte = prev1.saturating_sub(0b11000000u-1); // Only 11______ will be > 0 + simd8 is_third_byte = prev2.saturating_sub(0b11100000u-1); // Only 111_____ will be > 0 + simd8 is_fourth_byte = prev3.saturating_sub(0b11110000u-1); // Only 1111____ will be > 0 + // Caller requires a bool (all 1's). All values resulting from the subtraction will be <= 64, so signed comparison is fine. + return simd8(is_second_byte | is_third_byte | is_fourth_byte) > int8_t(0); +} + +simdjson_really_inline simd8 must_be_2_3_continuation(const simd8 prev2, const simd8 prev3) { + simd8 is_third_byte = prev2.saturating_sub(0b11100000u-1); // Only 111_____ will be > 0 + simd8 is_fourth_byte = prev3.saturating_sub(0b11110000u-1); // Only 1111____ will be > 0 + // Caller requires a bool (all 1's). All values resulting from the subtraction will be <= 64, so signed comparison is fine. + return simd8(is_third_byte | is_fourth_byte) > int8_t(0); +} + +} // unnamed namespace +} // namespace westmere +} // namespace simdjson + +/* begin file src/generic/stage1/utf8_lookup4_algorithm.h */ +namespace simdjson { +namespace westmere { +namespace { +namespace utf8_validation { + +using namespace simd; + + simdjson_really_inline simd8 check_special_cases(const simd8 input, const simd8 prev1) { +// Bit 0 = Too Short (lead byte/ASCII followed by lead byte/ASCII) +// Bit 1 = Too Long (ASCII followed by continuation) +// Bit 2 = Overlong 3-byte +// Bit 4 = Surrogate +// Bit 5 = Overlong 2-byte +// Bit 7 = Two Continuations + constexpr const uint8_t TOO_SHORT = 1<<0; // 11______ 0_______ + // 11______ 11______ + constexpr const uint8_t TOO_LONG = 1<<1; // 0_______ 10______ + constexpr const uint8_t OVERLONG_3 = 1<<2; // 11100000 100_____ + constexpr const uint8_t SURROGATE = 1<<4; // 11101101 101_____ + constexpr const uint8_t OVERLONG_2 = 1<<5; // 1100000_ 10______ + constexpr const uint8_t TWO_CONTS = 1<<7; // 10______ 10______ + constexpr const uint8_t TOO_LARGE = 1<<3; // 11110100 1001____ + // 11110100 101_____ + // 11110101 1001____ + // 11110101 101_____ + // 1111011_ 1001____ + // 1111011_ 101_____ + // 11111___ 1001____ + // 11111___ 101_____ + constexpr const uint8_t TOO_LARGE_1000 = 1<<6; + // 11110101 1000____ + // 1111011_ 1000____ + // 11111___ 1000____ + constexpr const uint8_t OVERLONG_4 = 1<<6; // 11110000 1000____ + + const simd8 byte_1_high = prev1.shr<4>().lookup_16( + // 0_______ ________ + TOO_LONG, TOO_LONG, TOO_LONG, TOO_LONG, + TOO_LONG, TOO_LONG, TOO_LONG, TOO_LONG, + // 10______ ________ + TWO_CONTS, TWO_CONTS, TWO_CONTS, TWO_CONTS, + // 1100____ ________ + TOO_SHORT | OVERLONG_2, + // 1101____ ________ + TOO_SHORT, + // 1110____ ________ + TOO_SHORT | OVERLONG_3 | SURROGATE, + // 1111____ ________ + TOO_SHORT | TOO_LARGE | TOO_LARGE_1000 | OVERLONG_4 + ); + constexpr const uint8_t CARRY = TOO_SHORT | TOO_LONG | TWO_CONTS; // These all have ____ in byte 1 . + const simd8 byte_1_low = (prev1 & 0x0F).lookup_16( + // ____0000 ________ + CARRY | OVERLONG_3 | OVERLONG_2 | OVERLONG_4, + // ____0001 ________ + CARRY | OVERLONG_2, + // ____001_ ________ + CARRY, + CARRY, + + // ____0100 ________ + CARRY | TOO_LARGE, + // ____0101 ________ + CARRY | TOO_LARGE | TOO_LARGE_1000, + // ____011_ ________ + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + + // ____1___ ________ + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000, + // ____1101 ________ + CARRY | TOO_LARGE | TOO_LARGE_1000 | SURROGATE, + CARRY | TOO_LARGE | TOO_LARGE_1000, + CARRY | TOO_LARGE | TOO_LARGE_1000 + ); + const simd8 byte_2_high = input.shr<4>().lookup_16( + // ________ 0_______ + TOO_SHORT, TOO_SHORT, TOO_SHORT, TOO_SHORT, + TOO_SHORT, TOO_SHORT, TOO_SHORT, TOO_SHORT, + + // ________ 1000____ + TOO_LONG | OVERLONG_2 | TWO_CONTS | OVERLONG_3 | TOO_LARGE_1000 | OVERLONG_4, + // ________ 1001____ + TOO_LONG | OVERLONG_2 | TWO_CONTS | OVERLONG_3 | TOO_LARGE, + // ________ 101_____ + TOO_LONG | OVERLONG_2 | TWO_CONTS | SURROGATE | TOO_LARGE, + TOO_LONG | OVERLONG_2 | TWO_CONTS | SURROGATE | TOO_LARGE, + + // ________ 11______ + TOO_SHORT, TOO_SHORT, TOO_SHORT, TOO_SHORT + ); + return (byte_1_high & byte_1_low & byte_2_high); + } + simdjson_really_inline simd8 check_multibyte_lengths(const simd8 input, + const simd8 prev_input, const simd8 sc) { + simd8 prev2 = input.prev<2>(prev_input); + simd8 prev3 = input.prev<3>(prev_input); + simd8 must23 = simd8(must_be_2_3_continuation(prev2, prev3)); + simd8 must23_80 = must23 & uint8_t(0x80); + return must23_80 ^ sc; + } + + // + // Return nonzero if there are incomplete multibyte characters at the end of the block: + // e.g. if there is a 4-byte character, but it's 3 bytes from the end. + // + simdjson_really_inline simd8 is_incomplete(const simd8 input) { + // If the previous input's last 3 bytes match this, they're too short (they ended at EOF): + // ... 1111____ 111_____ 11______ + static const uint8_t max_array[32] = { + 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 255, 255, 255, + 255, 255, 255, 255, 255, 0b11110000u-1, 0b11100000u-1, 0b11000000u-1 + }; + const simd8 max_value(&max_array[sizeof(max_array)-sizeof(simd8)]); + return input.gt_bits(max_value); + } + + struct utf8_checker { + // If this is nonzero, there has been a UTF-8 error. + simd8 error; + // The last input we received + simd8 prev_input_block; + // Whether the last input we received was incomplete (used for ASCII fast path) + simd8 prev_incomplete; + + // + // Check whether the current bytes are valid UTF-8. + // + simdjson_really_inline void check_utf8_bytes(const simd8 input, const simd8 prev_input) { + // Flip prev1...prev3 so we can easily determine if they are 2+, 3+ or 4+ lead bytes + // (2, 3, 4-byte leads become large positive numbers instead of small negative numbers) + simd8 prev1 = input.prev<1>(prev_input); + simd8 sc = check_special_cases(input, prev1); + this->error |= check_multibyte_lengths(input, prev_input, sc); + } + + // The only problem that can happen at EOF is that a multibyte character is too short + // or a byte value too large in the last bytes: check_special_cases only checks for bytes + // too large in the first of two bytes. + simdjson_really_inline void check_eof() { + // If the previous block had incomplete UTF-8 characters at the end, an ASCII block can't + // possibly finish them. + this->error |= this->prev_incomplete; + } + + simdjson_really_inline void check_next_input(const simd8x64& input) { + if(simdjson_likely(is_ascii(input))) { + this->error |= this->prev_incomplete; + } else { + // you might think that a for-loop would work, but under Visual Studio, it is not good enough. + static_assert((simd8x64::NUM_CHUNKS == 2) || (simd8x64::NUM_CHUNKS == 4), + "We support either two or four chunks per 64-byte block."); + if(simd8x64::NUM_CHUNKS == 2) { + this->check_utf8_bytes(input.chunks[0], this->prev_input_block); + this->check_utf8_bytes(input.chunks[1], input.chunks[0]); + } else if(simd8x64::NUM_CHUNKS == 4) { + this->check_utf8_bytes(input.chunks[0], this->prev_input_block); + this->check_utf8_bytes(input.chunks[1], input.chunks[0]); + this->check_utf8_bytes(input.chunks[2], input.chunks[1]); + this->check_utf8_bytes(input.chunks[3], input.chunks[2]); + } + this->prev_incomplete = is_incomplete(input.chunks[simd8x64::NUM_CHUNKS-1]); + this->prev_input_block = input.chunks[simd8x64::NUM_CHUNKS-1]; + + } + } + // do not forget to call check_eof! + simdjson_really_inline error_code errors() { + return this->error.any_bits_set_anywhere() ? error_code::UTF8_ERROR : error_code::SUCCESS; + } + + }; // struct utf8_checker +} // namespace utf8_validation + +using utf8_validation::utf8_checker; + +} // unnamed namespace +} // namespace westmere +} // namespace simdjson +/* end file src/generic/stage1/utf8_lookup4_algorithm.h */ +/* begin file src/generic/stage1/json_structural_indexer.h */ +// This file contains the common code every implementation uses in stage1 +// It is intended to be included multiple times and compiled multiple times +// We assume the file in which it is included already includes +// "simdjson/stage1.h" (this simplifies amalgation) + +/* begin file src/generic/stage1/buf_block_reader.h */ +namespace simdjson { +namespace westmere { +namespace { + +// Walks through a buffer in block-sized increments, loading the last part with spaces +template +struct buf_block_reader { +public: + simdjson_really_inline buf_block_reader(const uint8_t *_buf, size_t _len); + simdjson_really_inline size_t block_index(); + simdjson_really_inline bool has_full_block() const; + simdjson_really_inline const uint8_t *full_block() const; + /** + * Get the last block, padded with spaces. + * + * There will always be a last block, with at least 1 byte, unless len == 0 (in which case this + * function fills the buffer with spaces and returns 0. In particular, if len == STEP_SIZE there + * will be 0 full_blocks and 1 remainder block with STEP_SIZE bytes and no spaces for padding. + * + * @return the number of effective characters in the last block. + */ + simdjson_really_inline size_t get_remainder(uint8_t *dst) const; + simdjson_really_inline void advance(); +private: + const uint8_t *buf; + const size_t len; + const size_t lenminusstep; + size_t idx; +}; + +// Routines to print masks and text for debugging bitmask operations +simdjson_unused static char * format_input_text_64(const uint8_t *text) { + static char *buf = (char*)malloc(sizeof(simd8x64) + 1); + for (size_t i=0; i); i++) { + buf[i] = int8_t(text[i]) < ' ' ? '_' : int8_t(text[i]); + } + buf[sizeof(simd8x64)] = '\0'; + return buf; +} + +// Routines to print masks and text for debugging bitmask operations +simdjson_unused static char * format_input_text(const simd8x64& in) { + static char *buf = (char*)malloc(sizeof(simd8x64) + 1); + in.store((uint8_t*)buf); + for (size_t i=0; i); i++) { + if (buf[i] < ' ') { buf[i] = '_'; } + } + buf[sizeof(simd8x64)] = '\0'; + return buf; +} + +simdjson_unused static char * format_mask(uint64_t mask) { + static char *buf = (char*)malloc(64 + 1); + for (size_t i=0; i<64; i++) { + buf[i] = (mask & (size_t(1) << i)) ? 'X' : ' '; + } + buf[64] = '\0'; + return buf; +} + +template +simdjson_really_inline buf_block_reader::buf_block_reader(const uint8_t *_buf, size_t _len) : buf{_buf}, len{_len}, lenminusstep{len < STEP_SIZE ? 0 : len - STEP_SIZE}, idx{0} {} + +template +simdjson_really_inline size_t buf_block_reader::block_index() { return idx; } + +template +simdjson_really_inline bool buf_block_reader::has_full_block() const { + return idx < lenminusstep; +} + +template +simdjson_really_inline const uint8_t *buf_block_reader::full_block() const { + return &buf[idx]; +} + +template +simdjson_really_inline size_t buf_block_reader::get_remainder(uint8_t *dst) const { + if(len == idx) { return 0; } // memcpy(dst, null, 0) will trigger an error with some sanitizers + std::memset(dst, 0x20, STEP_SIZE); // std::memset STEP_SIZE because it's more efficient to write out 8 or 16 bytes at once. + std::memcpy(dst, buf + idx, len - idx); + return len - idx; +} + +template +simdjson_really_inline void buf_block_reader::advance() { + idx += STEP_SIZE; +} + +} // unnamed namespace +} // namespace westmere +} // namespace simdjson +/* end file src/generic/stage1/buf_block_reader.h */ +/* begin file src/generic/stage1/json_string_scanner.h */ +namespace simdjson { +namespace westmere { +namespace { +namespace stage1 { + +struct json_string_block { + // Escaped characters (characters following an escape() character) + simdjson_really_inline uint64_t escaped() const { return _escaped; } + // Escape characters (backslashes that are not escaped--i.e. in \\, includes only the first \) + simdjson_really_inline uint64_t escape() const { return _backslash & ~_escaped; } + // Real (non-backslashed) quotes + simdjson_really_inline uint64_t quote() const { return _quote; } + // Start quotes of strings + simdjson_really_inline uint64_t string_start() const { return _quote & _in_string; } + // End quotes of strings + simdjson_really_inline uint64_t string_end() const { return _quote & ~_in_string; } + // Only characters inside the string (not including the quotes) + simdjson_really_inline uint64_t string_content() const { return _in_string & ~_quote; } + // Return a mask of whether the given characters are inside a string (only works on non-quotes) + simdjson_really_inline uint64_t non_quote_inside_string(uint64_t mask) const { return mask & _in_string; } + // Return a mask of whether the given characters are inside a string (only works on non-quotes) + simdjson_really_inline uint64_t non_quote_outside_string(uint64_t mask) const { return mask & ~_in_string; } + // Tail of string (everything except the start quote) + simdjson_really_inline uint64_t string_tail() const { return _in_string ^ _quote; } + + // backslash characters + uint64_t _backslash; + // escaped characters (backslashed--does not include the hex characters after \u) + uint64_t _escaped; + // real quotes (non-backslashed ones) + uint64_t _quote; + // string characters (includes start quote but not end quote) + uint64_t _in_string; +}; + +// Scans blocks for string characters, storing the state necessary to do so +class json_string_scanner { +public: + simdjson_really_inline json_string_block next(const simd::simd8x64& in); + // Returns either UNCLOSED_STRING or SUCCESS + simdjson_really_inline error_code finish(); + +private: + // Intended to be defined by the implementation + simdjson_really_inline uint64_t find_escaped(uint64_t escape); + simdjson_really_inline uint64_t find_escaped_branchless(uint64_t escape); + + // Whether the last iteration was still inside a string (all 1's = true, all 0's = false). + uint64_t prev_in_string = 0ULL; + // Whether the first character of the next iteration is escaped. + uint64_t prev_escaped = 0ULL; +}; + +// +// Finds escaped characters (characters following \). +// +// Handles runs of backslashes like \\\" and \\\\" correctly (yielding 0101 and 01010, respectively). +// +// Does this by: +// - Shift the escape mask to get potentially escaped characters (characters after backslashes). +// - Mask escaped sequences that start on *even* bits with 1010101010 (odd bits are escaped, even bits are not) +// - Mask escaped sequences that start on *odd* bits with 0101010101 (even bits are escaped, odd bits are not) +// +// To distinguish between escaped sequences starting on even/odd bits, it finds the start of all +// escape sequences, filters out the ones that start on even bits, and adds that to the mask of +// escape sequences. This causes the addition to clear out the sequences starting on odd bits (since +// the start bit causes a carry), and leaves even-bit sequences alone. +// +// Example: +// +// text | \\\ | \\\"\\\" \\\" \\"\\" | +// escape | xxx | xx xxx xxx xx xx | Removed overflow backslash; will | it into follows_escape +// odd_starts | x | x x x | escape & ~even_bits & ~follows_escape +// even_seq | c| cxxx c xx c | c = carry bit -- will be masked out later +// invert_mask | | cxxx c xx c| even_seq << 1 +// follows_escape | xx | x xx xxx xxx xx xx | Includes overflow bit +// escaped | x | x x x x x x x x | +// desired | x | x x x x x x x x | +// text | \\\ | \\\"\\\" \\\" \\"\\" | +// +simdjson_really_inline uint64_t json_string_scanner::find_escaped_branchless(uint64_t backslash) { + // If there was overflow, pretend the first character isn't a backslash + backslash &= ~prev_escaped; + uint64_t follows_escape = backslash << 1 | prev_escaped; + + // Get sequences starting on even bits by clearing out the odd series using + + const uint64_t even_bits = 0x5555555555555555ULL; + uint64_t odd_sequence_starts = backslash & ~even_bits & ~follows_escape; + uint64_t sequences_starting_on_even_bits; + prev_escaped = add_overflow(odd_sequence_starts, backslash, &sequences_starting_on_even_bits); + uint64_t invert_mask = sequences_starting_on_even_bits << 1; // The mask we want to return is the *escaped* bits, not escapes. + + // Mask every other backslashed character as an escaped character + // Flip the mask for sequences that start on even bits, to correct them + return (even_bits ^ invert_mask) & follows_escape; +} + +// +// Return a mask of all string characters plus end quotes. +// +// prev_escaped is overflow saying whether the next character is escaped. +// prev_in_string is overflow saying whether we're still in a string. +// +// Backslash sequences outside of quotes will be detected in stage 2. +// +simdjson_really_inline json_string_block json_string_scanner::next(const simd::simd8x64& in) { + const uint64_t backslash = in.eq('\\'); + const uint64_t escaped = find_escaped(backslash); + const uint64_t quote = in.eq('"') & ~escaped; + + // + // prefix_xor flips on bits inside the string (and flips off the end quote). + // + // Then we xor with prev_in_string: if we were in a string already, its effect is flipped + // (characters inside strings are outside, and characters outside strings are inside). + // + const uint64_t in_string = prefix_xor(quote) ^ prev_in_string; + + // + // Check if we're still in a string at the end of the box so the next block will know + // + // right shift of a signed value expected to be well-defined and standard + // compliant as of C++20, John Regher from Utah U. says this is fine code + // + prev_in_string = uint64_t(static_cast(in_string) >> 63); + + // Use ^ to turn the beginning quote off, and the end quote on. + return { + backslash, + escaped, + quote, + in_string + }; +} + +simdjson_really_inline error_code json_string_scanner::finish() { + if (prev_in_string) { + return UNCLOSED_STRING; + } + return SUCCESS; +} + +} // namespace stage1 +} // unnamed namespace +} // namespace westmere +} // namespace simdjson +/* end file src/generic/stage1/json_string_scanner.h */ +/* begin file src/generic/stage1/json_scanner.h */ +namespace simdjson { +namespace westmere { +namespace { +namespace stage1 { + +/** + * A block of scanned json, with information on operators and scalars. + * + * We seek to identify pseudo-structural characters. Anything that is inside + * a string must be omitted (hence & ~_string.string_tail()). + * Otherwise, pseudo-structural characters come in two forms. + * 1. We have the structural characters ([,],{,},:, comma). The + * term 'structural character' is from the JSON RFC. + * 2. We have the 'scalar pseudo-structural characters'. + * Scalars are quotes, and any character except structural characters and white space. + * + * To identify the scalar pseudo-structural characters, we must look at what comes + * before them: it must be a space, a quote or a structural characters. + * Starting with simdjson v0.3, we identify them by + * negation: we identify everything that is followed by a non-quote scalar, + * and we negate that. Whatever remains must be a 'scalar pseudo-structural character'. + */ +struct json_block { +public: + /** + * The start of structurals. + * In simdjson prior to v0.3, these were called the pseudo-structural characters. + **/ + simdjson_really_inline uint64_t structural_start() { return potential_structural_start() & ~_string.string_tail(); } + /** All JSON whitespace (i.e. not in a string) */ + simdjson_really_inline uint64_t whitespace() { return non_quote_outside_string(_characters.whitespace()); } + + // Helpers + + /** Whether the given characters are inside a string (only works on non-quotes) */ + simdjson_really_inline uint64_t non_quote_inside_string(uint64_t mask) { return _string.non_quote_inside_string(mask); } + /** Whether the given characters are outside a string (only works on non-quotes) */ + simdjson_really_inline uint64_t non_quote_outside_string(uint64_t mask) { return _string.non_quote_outside_string(mask); } + + // string and escape characters + json_string_block _string; + // whitespace, structural characters ('operators'), scalars + json_character_block _characters; + // whether the previous character was a scalar + uint64_t _follows_potential_nonquote_scalar; +private: + // Potential structurals (i.e. disregarding strings) + + /** + * structural elements ([,],{,},:, comma) plus scalar starts like 123, true and "abc". + * They may reside inside a string. + **/ + simdjson_really_inline uint64_t potential_structural_start() { return _characters.op() | potential_scalar_start(); } + /** + * The start of non-operator runs, like 123, true and "abc". + * It main reside inside a string. + **/ + simdjson_really_inline uint64_t potential_scalar_start() { + // The term "scalar" refers to anything except structural characters and white space + // (so letters, numbers, quotes). + // Whenever it is preceded by something that is not a structural element ({,},[,],:, ") nor a white-space + // then we know that it is irrelevant structurally. + return _characters.scalar() & ~follows_potential_scalar(); + } + /** + * Whether the given character is immediately after a non-operator like 123, true. + * The characters following a quote are not included. + */ + simdjson_really_inline uint64_t follows_potential_scalar() { + // _follows_potential_nonquote_scalar: is defined as marking any character that follows a character + // that is not a structural element ({,},[,],:, comma) nor a quote (") and that is not a + // white space. + // It is understood that within quoted region, anything at all could be marked (irrelevant). + return _follows_potential_nonquote_scalar; + } +}; + +/** + * Scans JSON for important bits: structural characters or 'operators', strings, and scalars. + * + * The scanner starts by calculating two distinct things: + * - string characters (taking \" into account) + * - structural characters or 'operators' ([]{},:, comma) + * and scalars (runs of non-operators like 123, true and "abc") + * + * To minimize data dependency (a key component of the scanner's speed), it finds these in parallel: + * in particular, the operator/scalar bit will find plenty of things that are actually part of + * strings. When we're done, json_block will fuse the two together by masking out tokens that are + * part of a string. + */ +class json_scanner { +public: + json_scanner() {} + simdjson_really_inline json_block next(const simd::simd8x64& in); + // Returns either UNCLOSED_STRING or SUCCESS + simdjson_really_inline error_code finish(); + +private: + // Whether the last character of the previous iteration is part of a scalar token + // (anything except whitespace or a structural character/'operator'). + uint64_t prev_scalar = 0ULL; + json_string_scanner string_scanner{}; +}; + + +// +// Check if the current character immediately follows a matching character. +// +// For example, this checks for quotes with backslashes in front of them: +// +// const uint64_t backslashed_quote = in.eq('"') & immediately_follows(in.eq('\'), prev_backslash); +// +simdjson_really_inline uint64_t follows(const uint64_t match, uint64_t &overflow) { + const uint64_t result = match << 1 | overflow; + overflow = match >> 63; + return result; +} + +simdjson_really_inline json_block json_scanner::next(const simd::simd8x64& in) { + json_string_block strings = string_scanner.next(in); + // identifies the white-space and the structurat characters + json_character_block characters = json_character_block::classify(in); + // The term "scalar" refers to anything except structural characters and white space + // (so letters, numbers, quotes). + // We want follows_scalar to mark anything that follows a non-quote scalar (so letters and numbers). + // + // A terminal quote should either be followed by a structural character (comma, brace, bracket, colon) + // or nothing. However, we still want ' "a string"true ' to mark the 't' of 'true' as a potential + // pseudo-structural character just like we would if we had ' "a string" true '; otherwise we + // may need to add an extra check when parsing strings. + // + // Performance: there are many ways to skin this cat. + const uint64_t nonquote_scalar = characters.scalar() & ~strings.quote(); + uint64_t follows_nonquote_scalar = follows(nonquote_scalar, prev_scalar); + return { + strings, + characters, + follows_nonquote_scalar + }; +} + +simdjson_really_inline error_code json_scanner::finish() { + return string_scanner.finish(); +} + +} // namespace stage1 +} // unnamed namespace +} // namespace westmere +} // namespace simdjson +/* end file src/generic/stage1/json_scanner.h */ +/* begin file src/generic/stage1/json_minifier.h */ +// This file contains the common code every implementation uses in stage1 +// It is intended to be included multiple times and compiled multiple times +// We assume the file in which it is included already includes +// "simdjson/stage1.h" (this simplifies amalgation) + +namespace simdjson { +namespace westmere { +namespace { +namespace stage1 { + +class json_minifier { +public: + template + static error_code minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) noexcept; + +private: + simdjson_really_inline json_minifier(uint8_t *_dst) + : dst{_dst} + {} + template + simdjson_really_inline void step(const uint8_t *block_buf, buf_block_reader &reader) noexcept; + simdjson_really_inline void next(const simd::simd8x64& in, json_block block); + simdjson_really_inline error_code finish(uint8_t *dst_start, size_t &dst_len); + json_scanner scanner{}; + uint8_t *dst; +}; + +simdjson_really_inline void json_minifier::next(const simd::simd8x64& in, json_block block) { + uint64_t mask = block.whitespace(); + in.compress(mask, dst); + dst += 64 - count_ones(mask); +} + +simdjson_really_inline error_code json_minifier::finish(uint8_t *dst_start, size_t &dst_len) { + error_code error = scanner.finish(); + if (error) { dst_len = 0; return error; } + dst_len = dst - dst_start; + return SUCCESS; +} + +template<> +simdjson_really_inline void json_minifier::step<128>(const uint8_t *block_buf, buf_block_reader<128> &reader) noexcept { + simd::simd8x64 in_1(block_buf); + simd::simd8x64 in_2(block_buf+64); + json_block block_1 = scanner.next(in_1); + json_block block_2 = scanner.next(in_2); + this->next(in_1, block_1); + this->next(in_2, block_2); + reader.advance(); +} + +template<> +simdjson_really_inline void json_minifier::step<64>(const uint8_t *block_buf, buf_block_reader<64> &reader) noexcept { + simd::simd8x64 in_1(block_buf); + json_block block_1 = scanner.next(in_1); + this->next(block_buf, block_1); + reader.advance(); +} + +template +error_code json_minifier::minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) noexcept { + buf_block_reader reader(buf, len); + json_minifier minifier(dst); + + // Index the first n-1 blocks + while (reader.has_full_block()) { + minifier.step(reader.full_block(), reader); + } + + // Index the last (remainder) block, padded with spaces + uint8_t block[STEP_SIZE]; + size_t remaining_bytes = reader.get_remainder(block); + if (remaining_bytes > 0) { + // We do not want to write directly to the output stream. Rather, we write + // to a local buffer (for safety). + uint8_t out_block[STEP_SIZE]; + uint8_t * const guarded_dst{minifier.dst}; + minifier.dst = out_block; + minifier.step(block, reader); + size_t to_write = minifier.dst - out_block; + // In some cases, we could be enticed to consider the padded spaces + // as part of the string. This is fine as long as we do not write more + // than we consumed. + if(to_write > remaining_bytes) { to_write = remaining_bytes; } + memcpy(guarded_dst, out_block, to_write); + minifier.dst = guarded_dst + to_write; + } + return minifier.finish(dst, dst_len); +} + +} // namespace stage1 +} // unnamed namespace +} // namespace westmere +} // namespace simdjson +/* end file src/generic/stage1/json_minifier.h */ +/* begin file src/generic/stage1/find_next_document_index.h */ +namespace simdjson { +namespace westmere { +namespace { + +/** + * This algorithm is used to quickly identify the last structural position that + * makes up a complete document. + * + * It does this by going backwards and finding the last *document boundary* (a + * place where one value follows another without a comma between them). If the + * last document (the characters after the boundary) has an equal number of + * start and end brackets, it is considered complete. + * + * Simply put, we iterate over the structural characters, starting from + * the end. We consider that we found the end of a JSON document when the + * first element of the pair is NOT one of these characters: '{' '[' ';' ',' + * and when the second element is NOT one of these characters: '}' '}' ';' ','. + * + * This simple comparison works most of the time, but it does not cover cases + * where the batch's structural indexes contain a perfect amount of documents. + * In such a case, we do not have access to the structural index which follows + * the last document, therefore, we do not have access to the second element in + * the pair, and that means we cannot identify the last document. To fix this + * issue, we keep a count of the open and closed curly/square braces we found + * while searching for the pair. When we find a pair AND the count of open and + * closed curly/square braces is the same, we know that we just passed a + * complete document, therefore the last json buffer location is the end of the + * batch. + */ +simdjson_really_inline uint32_t find_next_document_index(dom_parser_implementation &parser) { + // TODO don't count separately, just figure out depth + auto arr_cnt = 0; + auto obj_cnt = 0; + for (auto i = parser.n_structural_indexes - 1; i > 0; i--) { + auto idxb = parser.structural_indexes[i]; + switch (parser.buf[idxb]) { + case ':': + case ',': + continue; + case '}': + obj_cnt--; + continue; + case ']': + arr_cnt--; + continue; + case '{': + obj_cnt++; + break; + case '[': + arr_cnt++; + break; + } + auto idxa = parser.structural_indexes[i - 1]; + switch (parser.buf[idxa]) { + case '{': + case '[': + case ':': + case ',': + continue; + } + // Last document is complete, so the next document will appear after! + if (!arr_cnt && !obj_cnt) { + return parser.n_structural_indexes; + } + // Last document is incomplete; mark the document at i + 1 as the next one + return i; + } + return 0; +} + +} // unnamed namespace +} // namespace westmere +} // namespace simdjson +/* end file src/generic/stage1/find_next_document_index.h */ + +namespace simdjson { +namespace westmere { +namespace { +namespace stage1 { + +class bit_indexer { +public: + uint32_t *tail; + + simdjson_really_inline bit_indexer(uint32_t *index_buf) : tail(index_buf) {} + + // flatten out values in 'bits' assuming that they are are to have values of idx + // plus their position in the bitvector, and store these indexes at + // base_ptr[base] incrementing base as we go + // will potentially store extra values beyond end of valid bits, so base_ptr + // needs to be large enough to handle this + simdjson_really_inline void write(uint32_t idx, uint64_t bits) { + // In some instances, the next branch is expensive because it is mispredicted. + // Unfortunately, in other cases, + // it helps tremendously. + if (bits == 0) + return; + int cnt = static_cast(count_ones(bits)); + + // Do the first 8 all together + for (int i=0; i<8; i++) { + this->tail[i] = idx + trailing_zeroes(bits); + bits = clear_lowest_bit(bits); + } + + // Do the next 8 all together (we hope in most cases it won't happen at all + // and the branch is easily predicted). + if (simdjson_unlikely(cnt > 8)) { + for (int i=8; i<16; i++) { + this->tail[i] = idx + trailing_zeroes(bits); + bits = clear_lowest_bit(bits); + } + + // Most files don't have 16+ structurals per block, so we take several basically guaranteed + // branch mispredictions here. 16+ structurals per block means either punctuation ({} [] , :) + // or the start of a value ("abc" true 123) every four characters. + if (simdjson_unlikely(cnt > 16)) { + int i = 16; + do { + this->tail[i] = idx + trailing_zeroes(bits); + bits = clear_lowest_bit(bits); + i++; + } while (i < cnt); + } + } + + this->tail += cnt; + } +}; + +class json_structural_indexer { +public: + /** + * Find the important bits of JSON in a 128-byte chunk, and add them to structural_indexes. + * + * @param partial Setting the partial parameter to true allows the find_structural_bits to + * tolerate unclosed strings. The caller should still ensure that the input is valid UTF-8. If + * you are processing substrings, you may want to call on a function like trimmed_length_safe_utf8. + */ + template + static error_code index(const uint8_t *buf, size_t len, dom_parser_implementation &parser, bool partial) noexcept; + +private: + simdjson_really_inline json_structural_indexer(uint32_t *structural_indexes); + template + simdjson_really_inline void step(const uint8_t *block, buf_block_reader &reader) noexcept; + simdjson_really_inline void next(const simd::simd8x64& in, json_block block, size_t idx); + simdjson_really_inline error_code finish(dom_parser_implementation &parser, size_t idx, size_t len, bool partial); + + json_scanner scanner{}; + utf8_checker checker{}; + bit_indexer indexer; + uint64_t prev_structurals = 0; + uint64_t unescaped_chars_error = 0; +}; + +simdjson_really_inline json_structural_indexer::json_structural_indexer(uint32_t *structural_indexes) : indexer{structural_indexes} {} + +// Skip the last character if it is partial +simdjson_really_inline size_t trim_partial_utf8(const uint8_t *buf, size_t len) { + if (simdjson_unlikely(len < 3)) { + switch (len) { + case 2: + if (buf[len-1] >= 0b11000000) { return len-1; } // 2-, 3- and 4-byte characters with only 1 byte left + if (buf[len-2] >= 0b11100000) { return len-2; } // 3- and 4-byte characters with only 2 bytes left + return len; + case 1: + if (buf[len-1] >= 0b11000000) { return len-1; } // 2-, 3- and 4-byte characters with only 1 byte left + return len; + case 0: + return len; + } + } + if (buf[len-1] >= 0b11000000) { return len-1; } // 2-, 3- and 4-byte characters with only 1 byte left + if (buf[len-2] >= 0b11100000) { return len-2; } // 3- and 4-byte characters with only 1 byte left + if (buf[len-3] >= 0b11110000) { return len-3; } // 4-byte characters with only 3 bytes left + return len; +} + +// +// PERF NOTES: +// We pipe 2 inputs through these stages: +// 1. Load JSON into registers. This takes a long time and is highly parallelizable, so we load +// 2 inputs' worth at once so that by the time step 2 is looking for them input, it's available. +// 2. Scan the JSON for critical data: strings, scalars and operators. This is the critical path. +// The output of step 1 depends entirely on this information. These functions don't quite use +// up enough CPU: the second half of the functions is highly serial, only using 1 execution core +// at a time. The second input's scans has some dependency on the first ones finishing it, but +// they can make a lot of progress before they need that information. +// 3. Step 1 doesn't use enough capacity, so we run some extra stuff while we're waiting for that +// to finish: utf-8 checks and generating the output from the last iteration. +// +// The reason we run 2 inputs at a time, is steps 2 and 3 are *still* not enough to soak up all +// available capacity with just one input. Running 2 at a time seems to give the CPU a good enough +// workout. +// +template +error_code json_structural_indexer::index(const uint8_t *buf, size_t len, dom_parser_implementation &parser, bool partial) noexcept { + if (simdjson_unlikely(len > parser.capacity())) { return CAPACITY; } + if (partial) { len = trim_partial_utf8(buf, len); } + + buf_block_reader reader(buf, len); + json_structural_indexer indexer(parser.structural_indexes.get()); + + // Read all but the last block + while (reader.has_full_block()) { + indexer.step(reader.full_block(), reader); + } + + // Take care of the last block (will always be there unless file is empty) + uint8_t block[STEP_SIZE]; + if (simdjson_unlikely(reader.get_remainder(block) == 0)) { return EMPTY; } + indexer.step(block, reader); + + return indexer.finish(parser, reader.block_index(), len, partial); +} + +template<> +simdjson_really_inline void json_structural_indexer::step<128>(const uint8_t *block, buf_block_reader<128> &reader) noexcept { + simd::simd8x64 in_1(block); + simd::simd8x64 in_2(block+64); + json_block block_1 = scanner.next(in_1); + json_block block_2 = scanner.next(in_2); + this->next(in_1, block_1, reader.block_index()); + this->next(in_2, block_2, reader.block_index()+64); + reader.advance(); +} + +template<> +simdjson_really_inline void json_structural_indexer::step<64>(const uint8_t *block, buf_block_reader<64> &reader) noexcept { + simd::simd8x64 in_1(block); + json_block block_1 = scanner.next(in_1); + this->next(in_1, block_1, reader.block_index()); + reader.advance(); +} + +simdjson_really_inline void json_structural_indexer::next(const simd::simd8x64& in, json_block block, size_t idx) { + uint64_t unescaped = in.lteq(0x1F); + checker.check_next_input(in); + indexer.write(uint32_t(idx-64), prev_structurals); // Output *last* iteration's structurals to the parser + prev_structurals = block.structural_start(); + unescaped_chars_error |= block.non_quote_inside_string(unescaped); +} + +simdjson_really_inline error_code json_structural_indexer::finish(dom_parser_implementation &parser, size_t idx, size_t len, bool partial) { + // Write out the final iteration's structurals + indexer.write(uint32_t(idx-64), prev_structurals); + + error_code error = scanner.finish(); + // We deliberately break down the next expression so that it is + // human readable. + const bool should_we_exit = partial ? + ((error != SUCCESS) && (error != UNCLOSED_STRING)) // when partial we tolerate UNCLOSED_STRING + : (error != SUCCESS); // if partial is false, we must have SUCCESS + const bool have_unclosed_string = (error == UNCLOSED_STRING); + if (simdjson_unlikely(should_we_exit)) { return error; } + + if (unescaped_chars_error) { + return UNESCAPED_CHARS; + } + + parser.n_structural_indexes = uint32_t(indexer.tail - parser.structural_indexes.get()); + /*** + * This is related to https://github.com/simdjson/simdjson/issues/906 + * Basically, we want to make sure that if the parsing continues beyond the last (valid) + * structural character, it quickly stops. + * Only three structural characters can be repeated without triggering an error in JSON: [,] and }. + * We repeat the padding character (at 'len'). We don't know what it is, but if the parsing + * continues, then it must be [,] or }. + * Suppose it is ] or }. We backtrack to the first character, what could it be that would + * not trigger an error? It could be ] or } but no, because you can't start a document that way. + * It can't be a comma, a colon or any simple value. So the only way we could continue is + * if the repeated character is [. But if so, the document must start with [. But if the document + * starts with [, it should end with ]. If we enforce that rule, then we would get + * ][[ which is invalid. + **/ + parser.structural_indexes[parser.n_structural_indexes] = uint32_t(len); + parser.structural_indexes[parser.n_structural_indexes + 1] = uint32_t(len); + parser.structural_indexes[parser.n_structural_indexes + 2] = 0; + parser.next_structural_index = 0; + // a valid JSON file cannot have zero structural indexes - we should have found something + if (simdjson_unlikely(parser.n_structural_indexes == 0u)) { + return EMPTY; + } + if (simdjson_unlikely(parser.structural_indexes[parser.n_structural_indexes - 1] > len)) { + return UNEXPECTED_ERROR; + } + if (partial) { + // If we have an unclosed string, then the last structural + // will be the quote and we want to make sure to omit it. + if(have_unclosed_string) { + parser.n_structural_indexes--; + // a valid JSON file cannot have zero structural indexes - we should have found something + if (simdjson_unlikely(parser.n_structural_indexes == 0u)) { return CAPACITY; } + } + auto new_structural_indexes = find_next_document_index(parser); + if (new_structural_indexes == 0 && parser.n_structural_indexes > 0) { + return CAPACITY; // If the buffer is partial but the document is incomplete, it's too big to parse. + } + parser.n_structural_indexes = new_structural_indexes; + } + checker.check_eof(); + return checker.errors(); +} + +} // namespace stage1 +} // unnamed namespace +} // namespace westmere +} // namespace simdjson +/* end file src/generic/stage1/json_structural_indexer.h */ +/* begin file src/generic/stage1/utf8_validator.h */ +namespace simdjson { +namespace westmere { +namespace { +namespace stage1 { + +/** + * Validates that the string is actual UTF-8. + */ +template +bool generic_validate_utf8(const uint8_t * input, size_t length) { + checker c{}; + buf_block_reader<64> reader(input, length); + while (reader.has_full_block()) { + simd::simd8x64 in(reader.full_block()); + c.check_next_input(in); + reader.advance(); + } + uint8_t block[64]{}; + reader.get_remainder(block); + simd::simd8x64 in(block); + c.check_next_input(in); + reader.advance(); + c.check_eof(); + return c.errors() == error_code::SUCCESS; +} + +bool generic_validate_utf8(const char * input, size_t length) { + return generic_validate_utf8((const uint8_t *)input,length); +} + +} // namespace stage1 +} // unnamed namespace +} // namespace westmere +} // namespace simdjson +/* end file src/generic/stage1/utf8_validator.h */ + +// +// Stage 2 +// +/* begin file src/generic/stage2/tape_builder.h */ +/* begin file src/generic/stage2/json_iterator.h */ +/* begin file src/generic/stage2/logger.h */ +// This is for an internal-only stage 2 specific logger. +// Set LOG_ENABLED = true to log what stage 2 is doing! +namespace simdjson { +namespace westmere { +namespace { +namespace logger { + + static constexpr const char * DASHES = "----------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------"; + +#if SIMDJSON_VERBOSE_LOGGING + static constexpr const bool LOG_ENABLED = true; +#else + static constexpr const bool LOG_ENABLED = false; +#endif + static constexpr const int LOG_EVENT_LEN = 20; + static constexpr const int LOG_BUFFER_LEN = 30; + static constexpr const int LOG_SMALL_BUFFER_LEN = 10; + static constexpr const int LOG_INDEX_LEN = 5; + + static int log_depth; // Not threadsafe. Log only. + + // Helper to turn unprintable or newline characters into spaces + static simdjson_really_inline char printable_char(char c) { + if (c >= 0x20) { + return c; + } else { + return ' '; + } + } + + // Print the header and set up log_start + static simdjson_really_inline void log_start() { + if (LOG_ENABLED) { + log_depth = 0; + printf("\n"); + printf("| %-*s | %-*s | %-*s | %-*s | Detail |\n", LOG_EVENT_LEN, "Event", LOG_BUFFER_LEN, "Buffer", LOG_SMALL_BUFFER_LEN, "Next", 5, "Next#"); + printf("|%.*s|%.*s|%.*s|%.*s|--------|\n", LOG_EVENT_LEN+2, DASHES, LOG_BUFFER_LEN+2, DASHES, LOG_SMALL_BUFFER_LEN+2, DASHES, 5+2, DASHES); + } + } + + simdjson_unused static simdjson_really_inline void log_string(const char *message) { + if (LOG_ENABLED) { + printf("%s\n", message); + } + } + + // Logs a single line from the stage 2 DOM parser + template + static simdjson_really_inline void log_line(S &structurals, const char *title_prefix, const char *title, const char *detail) { + if (LOG_ENABLED) { + printf("| %*s%s%-*s ", log_depth*2, "", title_prefix, LOG_EVENT_LEN - log_depth*2 - int(strlen(title_prefix)), title); + auto current_index = structurals.at_beginning() ? nullptr : structurals.next_structural-1; + auto next_index = structurals.next_structural; + auto current = current_index ? &structurals.buf[*current_index] : (const uint8_t*)" "; + auto next = &structurals.buf[*next_index]; + { + // Print the next N characters in the buffer. + printf("| "); + // Otherwise, print the characters starting from the buffer position. + // Print spaces for unprintable or newline characters. + for (int i=0;i + simdjson_warn_unused simdjson_really_inline error_code walk_document(V &visitor) noexcept; + + /** + * Create an iterator capable of walking a JSON document. + * + * The document must have already passed through stage 1. + */ + simdjson_really_inline json_iterator(dom_parser_implementation &_dom_parser, size_t start_structural_index); + + /** + * Look at the next token. + * + * Tokens can be strings, numbers, booleans, null, or operators (`[{]},:`)). + * + * They may include invalid JSON as well (such as `1.2.3` or `ture`). + */ + simdjson_really_inline const uint8_t *peek() const noexcept; + /** + * Advance to the next token. + * + * Tokens can be strings, numbers, booleans, null, or operators (`[{]},:`)). + * + * They may include invalid JSON as well (such as `1.2.3` or `ture`). + */ + simdjson_really_inline const uint8_t *advance() noexcept; + /** + * Get the remaining length of the document, from the start of the current token. + */ + simdjson_really_inline size_t remaining_len() const noexcept; + /** + * Check if we are at the end of the document. + * + * If this is true, there are no more tokens. + */ + simdjson_really_inline bool at_eof() const noexcept; + /** + * Check if we are at the beginning of the document. + */ + simdjson_really_inline bool at_beginning() const noexcept; + simdjson_really_inline uint8_t last_structural() const noexcept; + + /** + * Log that a value has been found. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_value(const char *type) const noexcept; + /** + * Log the start of a multipart value. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_start_value(const char *type) const noexcept; + /** + * Log the end of a multipart value. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_end_value(const char *type) const noexcept; + /** + * Log an error. + * + * Set ENABLE_LOGGING=true in logger.h to see logging. + */ + simdjson_really_inline void log_error(const char *error) const noexcept; + + template + simdjson_warn_unused simdjson_really_inline error_code visit_root_primitive(V &visitor, const uint8_t *value) noexcept; + template + simdjson_warn_unused simdjson_really_inline error_code visit_primitive(V &visitor, const uint8_t *value) noexcept; +}; + +template +simdjson_warn_unused simdjson_really_inline error_code json_iterator::walk_document(V &visitor) noexcept { + logger::log_start(); + + // + // Start the document + // + if (at_eof()) { return EMPTY; } + log_start_value("document"); + SIMDJSON_TRY( visitor.visit_document_start(*this) ); + + // + // Read first value + // + { + auto value = advance(); + + // Make sure the outer hash or array is closed before continuing; otherwise, there are ways we + // could get into memory corruption. See https://github.com/simdjson/simdjson/issues/906 + if (!STREAMING) { + switch (*value) { + case '{': if (last_structural() != '}') { return TAPE_ERROR; }; break; + case '[': if (last_structural() != ']') { return TAPE_ERROR; }; break; + } + } + + switch (*value) { + case '{': if (*peek() == '}') { advance(); log_value("empty object"); SIMDJSON_TRY( visitor.visit_empty_object(*this) ); break; } goto object_begin; + case '[': if (*peek() == ']') { advance(); log_value("empty array"); SIMDJSON_TRY( visitor.visit_empty_array(*this) ); break; } goto array_begin; + default: SIMDJSON_TRY( visitor.visit_root_primitive(*this, value) ); break; + } + } + goto document_end; + +// +// Object parser states +// +object_begin: + log_start_value("object"); + depth++; + if (depth >= dom_parser.max_depth()) { log_error("Exceeded max depth!"); return DEPTH_ERROR; } + dom_parser.is_array[depth] = false; + SIMDJSON_TRY( visitor.visit_object_start(*this) ); + + { + auto key = advance(); + if (*key != '"') { log_error("Object does not start with a key"); return TAPE_ERROR; } + SIMDJSON_TRY( visitor.increment_count(*this) ); + SIMDJSON_TRY( visitor.visit_key(*this, key) ); + } + +object_field: + if (simdjson_unlikely( *advance() != ':' )) { log_error("Missing colon after key in object"); return TAPE_ERROR; } + { + auto value = advance(); + switch (*value) { + case '{': if (*peek() == '}') { advance(); log_value("empty object"); SIMDJSON_TRY( visitor.visit_empty_object(*this) ); break; } goto object_begin; + case '[': if (*peek() == ']') { advance(); log_value("empty array"); SIMDJSON_TRY( visitor.visit_empty_array(*this) ); break; } goto array_begin; + default: SIMDJSON_TRY( visitor.visit_primitive(*this, value) ); break; + } + } + +object_continue: + switch (*advance()) { + case ',': + SIMDJSON_TRY( visitor.increment_count(*this) ); + { + auto key = advance(); + if (simdjson_unlikely( *key != '"' )) { log_error("Key string missing at beginning of field in object"); return TAPE_ERROR; } + SIMDJSON_TRY( visitor.visit_key(*this, key) ); + } + goto object_field; + case '}': log_end_value("object"); SIMDJSON_TRY( visitor.visit_object_end(*this) ); goto scope_end; + default: log_error("No comma between object fields"); return TAPE_ERROR; + } + +scope_end: + depth--; + if (depth == 0) { goto document_end; } + if (dom_parser.is_array[depth]) { goto array_continue; } + goto object_continue; + +// +// Array parser states +// +array_begin: + log_start_value("array"); + depth++; + if (depth >= dom_parser.max_depth()) { log_error("Exceeded max depth!"); return DEPTH_ERROR; } + dom_parser.is_array[depth] = true; + SIMDJSON_TRY( visitor.visit_array_start(*this) ); + SIMDJSON_TRY( visitor.increment_count(*this) ); + +array_value: + { + auto value = advance(); + switch (*value) { + case '{': if (*peek() == '}') { advance(); log_value("empty object"); SIMDJSON_TRY( visitor.visit_empty_object(*this) ); break; } goto object_begin; + case '[': if (*peek() == ']') { advance(); log_value("empty array"); SIMDJSON_TRY( visitor.visit_empty_array(*this) ); break; } goto array_begin; + default: SIMDJSON_TRY( visitor.visit_primitive(*this, value) ); break; + } + } + +array_continue: + switch (*advance()) { + case ',': SIMDJSON_TRY( visitor.increment_count(*this) ); goto array_value; + case ']': log_end_value("array"); SIMDJSON_TRY( visitor.visit_array_end(*this) ); goto scope_end; + default: log_error("Missing comma between array values"); return TAPE_ERROR; + } + +document_end: + log_end_value("document"); + SIMDJSON_TRY( visitor.visit_document_end(*this) ); + + dom_parser.next_structural_index = uint32_t(next_structural - &dom_parser.structural_indexes[0]); + + // If we didn't make it to the end, it's an error + if ( !STREAMING && dom_parser.next_structural_index != dom_parser.n_structural_indexes ) { + log_error("More than one JSON value at the root of the document, or extra characters at the end of the JSON!"); + return TAPE_ERROR; + } + + return SUCCESS; + +} // walk_document() + +simdjson_really_inline json_iterator::json_iterator(dom_parser_implementation &_dom_parser, size_t start_structural_index) + : buf{_dom_parser.buf}, + next_structural{&_dom_parser.structural_indexes[start_structural_index]}, + dom_parser{_dom_parser} { +} + +simdjson_really_inline const uint8_t *json_iterator::peek() const noexcept { + return &buf[*(next_structural)]; +} +simdjson_really_inline const uint8_t *json_iterator::advance() noexcept { + return &buf[*(next_structural++)]; +} +simdjson_really_inline size_t json_iterator::remaining_len() const noexcept { + return dom_parser.len - *(next_structural-1); +} + +simdjson_really_inline bool json_iterator::at_eof() const noexcept { + return next_structural == &dom_parser.structural_indexes[dom_parser.n_structural_indexes]; +} +simdjson_really_inline bool json_iterator::at_beginning() const noexcept { + return next_structural == dom_parser.structural_indexes.get(); +} +simdjson_really_inline uint8_t json_iterator::last_structural() const noexcept { + return buf[dom_parser.structural_indexes[dom_parser.n_structural_indexes - 1]]; +} + +simdjson_really_inline void json_iterator::log_value(const char *type) const noexcept { + logger::log_line(*this, "", type, ""); +} + +simdjson_really_inline void json_iterator::log_start_value(const char *type) const noexcept { + logger::log_line(*this, "+", type, ""); + if (logger::LOG_ENABLED) { logger::log_depth++; } +} + +simdjson_really_inline void json_iterator::log_end_value(const char *type) const noexcept { + if (logger::LOG_ENABLED) { logger::log_depth--; } + logger::log_line(*this, "-", type, ""); +} + +simdjson_really_inline void json_iterator::log_error(const char *error) const noexcept { + logger::log_line(*this, "", "ERROR", error); +} + +template +simdjson_warn_unused simdjson_really_inline error_code json_iterator::visit_root_primitive(V &visitor, const uint8_t *value) noexcept { + switch (*value) { + case '"': return visitor.visit_root_string(*this, value); + case 't': return visitor.visit_root_true_atom(*this, value); + case 'f': return visitor.visit_root_false_atom(*this, value); + case 'n': return visitor.visit_root_null_atom(*this, value); + case '-': + case '0': case '1': case '2': case '3': case '4': + case '5': case '6': case '7': case '8': case '9': + return visitor.visit_root_number(*this, value); + default: + log_error("Document starts with a non-value character"); + return TAPE_ERROR; + } +} +template +simdjson_warn_unused simdjson_really_inline error_code json_iterator::visit_primitive(V &visitor, const uint8_t *value) noexcept { + switch (*value) { + case '"': return visitor.visit_string(*this, value); + case 't': return visitor.visit_true_atom(*this, value); + case 'f': return visitor.visit_false_atom(*this, value); + case 'n': return visitor.visit_null_atom(*this, value); + case '-': + case '0': case '1': case '2': case '3': case '4': + case '5': case '6': case '7': case '8': case '9': + return visitor.visit_number(*this, value); + default: + log_error("Non-value found when value was expected!"); + return TAPE_ERROR; + } +} + +} // namespace stage2 +} // unnamed namespace +} // namespace westmere +} // namespace simdjson +/* end file src/generic/stage2/json_iterator.h */ +/* begin file src/generic/stage2/tape_writer.h */ +namespace simdjson { +namespace westmere { +namespace { +namespace stage2 { + +struct tape_writer { + /** The next place to write to tape */ + uint64_t *next_tape_loc; + + /** Write a signed 64-bit value to tape. */ + simdjson_really_inline void append_s64(int64_t value) noexcept; + + /** Write an unsigned 64-bit value to tape. */ + simdjson_really_inline void append_u64(uint64_t value) noexcept; + + /** Write a double value to tape. */ + simdjson_really_inline void append_double(double value) noexcept; + + /** + * Append a tape entry (an 8-bit type,and 56 bits worth of value). + */ + simdjson_really_inline void append(uint64_t val, internal::tape_type t) noexcept; + + /** + * Skip the current tape entry without writing. + * + * Used to skip the start of the container, since we'll come back later to fill it in when the + * container ends. + */ + simdjson_really_inline void skip() noexcept; + + /** + * Skip the number of tape entries necessary to write a large u64 or i64. + */ + simdjson_really_inline void skip_large_integer() noexcept; + + /** + * Skip the number of tape entries necessary to write a double. + */ + simdjson_really_inline void skip_double() noexcept; + + /** + * Write a value to a known location on tape. + * + * Used to go back and write out the start of a container after the container ends. + */ + simdjson_really_inline static void write(uint64_t &tape_loc, uint64_t val, internal::tape_type t) noexcept; + +private: + /** + * Append both the tape entry, and a supplementary value following it. Used for types that need + * all 64 bits, such as double and uint64_t. + */ + template + simdjson_really_inline void append2(uint64_t val, T val2, internal::tape_type t) noexcept; +}; // struct number_writer + +simdjson_really_inline void tape_writer::append_s64(int64_t value) noexcept { + append2(0, value, internal::tape_type::INT64); +} + +simdjson_really_inline void tape_writer::append_u64(uint64_t value) noexcept { + append(0, internal::tape_type::UINT64); + *next_tape_loc = value; + next_tape_loc++; +} + +/** Write a double value to tape. */ +simdjson_really_inline void tape_writer::append_double(double value) noexcept { + append2(0, value, internal::tape_type::DOUBLE); +} + +simdjson_really_inline void tape_writer::skip() noexcept { + next_tape_loc++; +} + +simdjson_really_inline void tape_writer::skip_large_integer() noexcept { + next_tape_loc += 2; +} + +simdjson_really_inline void tape_writer::skip_double() noexcept { + next_tape_loc += 2; +} + +simdjson_really_inline void tape_writer::append(uint64_t val, internal::tape_type t) noexcept { + *next_tape_loc = val | ((uint64_t(char(t))) << 56); + next_tape_loc++; +} + +template +simdjson_really_inline void tape_writer::append2(uint64_t val, T val2, internal::tape_type t) noexcept { + append(val, t); + static_assert(sizeof(val2) == sizeof(*next_tape_loc), "Type is not 64 bits!"); + memcpy(next_tape_loc, &val2, sizeof(val2)); + next_tape_loc++; +} + +simdjson_really_inline void tape_writer::write(uint64_t &tape_loc, uint64_t val, internal::tape_type t) noexcept { + tape_loc = val | ((uint64_t(char(t))) << 56); +} + +} // namespace stage2 +} // unnamed namespace +} // namespace westmere +} // namespace simdjson +/* end file src/generic/stage2/tape_writer.h */ + +namespace simdjson { +namespace westmere { +namespace { +namespace stage2 { + +struct tape_builder { + template + simdjson_warn_unused static simdjson_really_inline error_code parse_document( + dom_parser_implementation &dom_parser, + dom::document &doc) noexcept; + + /** Called when a non-empty document starts. */ + simdjson_warn_unused simdjson_really_inline error_code visit_document_start(json_iterator &iter) noexcept; + /** Called when a non-empty document ends without error. */ + simdjson_warn_unused simdjson_really_inline error_code visit_document_end(json_iterator &iter) noexcept; + + /** Called when a non-empty array starts. */ + simdjson_warn_unused simdjson_really_inline error_code visit_array_start(json_iterator &iter) noexcept; + /** Called when a non-empty array ends. */ + simdjson_warn_unused simdjson_really_inline error_code visit_array_end(json_iterator &iter) noexcept; + /** Called when an empty array is found. */ + simdjson_warn_unused simdjson_really_inline error_code visit_empty_array(json_iterator &iter) noexcept; + + /** Called when a non-empty object starts. */ + simdjson_warn_unused simdjson_really_inline error_code visit_object_start(json_iterator &iter) noexcept; + /** + * Called when a key in a field is encountered. + * + * primitive, visit_object_start, visit_empty_object, visit_array_start, or visit_empty_array + * will be called after this with the field value. + */ + simdjson_warn_unused simdjson_really_inline error_code visit_key(json_iterator &iter, const uint8_t *key) noexcept; + /** Called when a non-empty object ends. */ + simdjson_warn_unused simdjson_really_inline error_code visit_object_end(json_iterator &iter) noexcept; + /** Called when an empty object is found. */ + simdjson_warn_unused simdjson_really_inline error_code visit_empty_object(json_iterator &iter) noexcept; + + /** + * Called when a string, number, boolean or null is found. + */ + simdjson_warn_unused simdjson_really_inline error_code visit_primitive(json_iterator &iter, const uint8_t *value) noexcept; + /** + * Called when a string, number, boolean or null is found at the top level of a document (i.e. + * when there is no array or object and the entire document is a single string, number, boolean or + * null. + * + * This is separate from primitive() because simdjson's normal primitive parsing routines assume + * there is at least one more token after the value, which is only true in an array or object. + */ + simdjson_warn_unused simdjson_really_inline error_code visit_root_primitive(json_iterator &iter, const uint8_t *value) noexcept; + + simdjson_warn_unused simdjson_really_inline error_code visit_string(json_iterator &iter, const uint8_t *value, bool key = false) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_number(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_true_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_false_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_null_atom(json_iterator &iter, const uint8_t *value) noexcept; + + simdjson_warn_unused simdjson_really_inline error_code visit_root_string(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_number(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_true_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_false_atom(json_iterator &iter, const uint8_t *value) noexcept; + simdjson_warn_unused simdjson_really_inline error_code visit_root_null_atom(json_iterator &iter, const uint8_t *value) noexcept; + + /** Called each time a new field or element in an array or object is found. */ + simdjson_warn_unused simdjson_really_inline error_code increment_count(json_iterator &iter) noexcept; + + /** Next location to write to tape */ + tape_writer tape; +private: + /** Next write location in the string buf for stage 2 parsing */ + uint8_t *current_string_buf_loc; + + simdjson_really_inline tape_builder(dom::document &doc) noexcept; + + simdjson_really_inline uint32_t next_tape_index(json_iterator &iter) const noexcept; + simdjson_really_inline void start_container(json_iterator &iter) noexcept; + simdjson_warn_unused simdjson_really_inline error_code end_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept; + simdjson_warn_unused simdjson_really_inline error_code empty_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept; + simdjson_really_inline uint8_t *on_start_string(json_iterator &iter) noexcept; + simdjson_really_inline void on_end_string(uint8_t *dst) noexcept; +}; // class tape_builder + +template +simdjson_warn_unused simdjson_really_inline error_code tape_builder::parse_document( + dom_parser_implementation &dom_parser, + dom::document &doc) noexcept { + dom_parser.doc = &doc; + json_iterator iter(dom_parser, STREAMING ? dom_parser.next_structural_index : 0); + tape_builder builder(doc); + return iter.walk_document(builder); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_primitive(json_iterator &iter, const uint8_t *value) noexcept { + return iter.visit_root_primitive(*this, value); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_primitive(json_iterator &iter, const uint8_t *value) noexcept { + return iter.visit_primitive(*this, value); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_empty_object(json_iterator &iter) noexcept { + return empty_container(iter, internal::tape_type::START_OBJECT, internal::tape_type::END_OBJECT); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_empty_array(json_iterator &iter) noexcept { + return empty_container(iter, internal::tape_type::START_ARRAY, internal::tape_type::END_ARRAY); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_document_start(json_iterator &iter) noexcept { + start_container(iter); + return SUCCESS; +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_object_start(json_iterator &iter) noexcept { + start_container(iter); + return SUCCESS; +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_array_start(json_iterator &iter) noexcept { + start_container(iter); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_object_end(json_iterator &iter) noexcept { + return end_container(iter, internal::tape_type::START_OBJECT, internal::tape_type::END_OBJECT); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_array_end(json_iterator &iter) noexcept { + return end_container(iter, internal::tape_type::START_ARRAY, internal::tape_type::END_ARRAY); +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_document_end(json_iterator &iter) noexcept { + constexpr uint32_t start_tape_index = 0; + tape.append(start_tape_index, internal::tape_type::ROOT); + tape_writer::write(iter.dom_parser.doc->tape[start_tape_index], next_tape_index(iter), internal::tape_type::ROOT); + return SUCCESS; +} +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_key(json_iterator &iter, const uint8_t *key) noexcept { + return visit_string(iter, key, true); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::increment_count(json_iterator &iter) noexcept { + iter.dom_parser.open_containers[iter.depth].count++; // we have a key value pair in the object at parser.dom_parser.depth - 1 + return SUCCESS; +} + +simdjson_really_inline tape_builder::tape_builder(dom::document &doc) noexcept : tape{doc.tape.get()}, current_string_buf_loc{doc.string_buf.get()} {} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_string(json_iterator &iter, const uint8_t *value, bool key) noexcept { + iter.log_value(key ? "key" : "string"); + uint8_t *dst = on_start_string(iter); + dst = stringparsing::parse_string(value+1, dst); + if (dst == nullptr) { + iter.log_error("Invalid escape in string"); + return STRING_ERROR; + } + on_end_string(dst); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_string(json_iterator &iter, const uint8_t *value) noexcept { + return visit_string(iter, value); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_number(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("number"); + return numberparsing::parse_number(value, tape); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_number(json_iterator &iter, const uint8_t *value) noexcept { + // + // We need to make a copy to make sure that the string is space terminated. + // This is not about padding the input, which should already padded up + // to len + SIMDJSON_PADDING. However, we have no control at this stage + // on how the padding was done. What if the input string was padded with nulls? + // It is quite common for an input string to have an extra null character (C string). + // We do not want to allow 9\0 (where \0 is the null character) inside a JSON + // document, but the string "9\0" by itself is fine. So we make a copy and + // pad the input with spaces when we know that there is just one input element. + // This copy is relatively expensive, but it will almost never be called in + // practice unless you are in the strange scenario where you have many JSON + // documents made of single atoms. + // + uint8_t *copy = static_cast(malloc(iter.remaining_len() + SIMDJSON_PADDING)); + if (copy == nullptr) { return MEMALLOC; } + std::memcpy(copy, value, iter.remaining_len()); + std::memset(copy + iter.remaining_len(), ' ', SIMDJSON_PADDING); + error_code error = visit_number(iter, copy); + free(copy); + return error; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_true_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("true"); + if (!atomparsing::is_valid_true_atom(value)) { return T_ATOM_ERROR; } + tape.append(0, internal::tape_type::TRUE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_true_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("true"); + if (!atomparsing::is_valid_true_atom(value, iter.remaining_len())) { return T_ATOM_ERROR; } + tape.append(0, internal::tape_type::TRUE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_false_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("false"); + if (!atomparsing::is_valid_false_atom(value)) { return F_ATOM_ERROR; } + tape.append(0, internal::tape_type::FALSE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_false_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("false"); + if (!atomparsing::is_valid_false_atom(value, iter.remaining_len())) { return F_ATOM_ERROR; } + tape.append(0, internal::tape_type::FALSE_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_null_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("null"); + if (!atomparsing::is_valid_null_atom(value)) { return N_ATOM_ERROR; } + tape.append(0, internal::tape_type::NULL_VALUE); + return SUCCESS; +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::visit_root_null_atom(json_iterator &iter, const uint8_t *value) noexcept { + iter.log_value("null"); + if (!atomparsing::is_valid_null_atom(value, iter.remaining_len())) { return N_ATOM_ERROR; } + tape.append(0, internal::tape_type::NULL_VALUE); + return SUCCESS; +} + +// private: + +simdjson_really_inline uint32_t tape_builder::next_tape_index(json_iterator &iter) const noexcept { + return uint32_t(tape.next_tape_loc - iter.dom_parser.doc->tape.get()); +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::empty_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept { + auto start_index = next_tape_index(iter); + tape.append(start_index+2, start); + tape.append(start_index, end); + return SUCCESS; +} + +simdjson_really_inline void tape_builder::start_container(json_iterator &iter) noexcept { + iter.dom_parser.open_containers[iter.depth].tape_index = next_tape_index(iter); + iter.dom_parser.open_containers[iter.depth].count = 0; + tape.skip(); // We don't actually *write* the start element until the end. +} + +simdjson_warn_unused simdjson_really_inline error_code tape_builder::end_container(json_iterator &iter, internal::tape_type start, internal::tape_type end) noexcept { + // Write the ending tape element, pointing at the start location + const uint32_t start_tape_index = iter.dom_parser.open_containers[iter.depth].tape_index; + tape.append(start_tape_index, end); + // Write the start tape element, pointing at the end location (and including count) + // count can overflow if it exceeds 24 bits... so we saturate + // the convention being that a cnt of 0xffffff or more is undetermined in value (>= 0xffffff). + const uint32_t count = iter.dom_parser.open_containers[iter.depth].count; + const uint32_t cntsat = count > 0xFFFFFF ? 0xFFFFFF : count; + tape_writer::write(iter.dom_parser.doc->tape[start_tape_index], next_tape_index(iter) | (uint64_t(cntsat) << 32), start); + return SUCCESS; +} + +simdjson_really_inline uint8_t *tape_builder::on_start_string(json_iterator &iter) noexcept { + // we advance the point, accounting for the fact that we have a NULL termination + tape.append(current_string_buf_loc - iter.dom_parser.doc->string_buf.get(), internal::tape_type::STRING); + return current_string_buf_loc + sizeof(uint32_t); +} + +simdjson_really_inline void tape_builder::on_end_string(uint8_t *dst) noexcept { + uint32_t str_length = uint32_t(dst - (current_string_buf_loc + sizeof(uint32_t))); + // TODO check for overflow in case someone has a crazy string (>=4GB?) + // But only add the overflow check when the document itself exceeds 4GB + // Currently unneeded because we refuse to parse docs larger or equal to 4GB. + memcpy(current_string_buf_loc, &str_length, sizeof(uint32_t)); + // NULL termination is still handy if you expect all your strings to + // be NULL terminated? It comes at a small cost + *dst = 0; + current_string_buf_loc = dst + 1; +} + +} // namespace stage2 +} // unnamed namespace +} // namespace westmere +} // namespace simdjson +/* end file src/generic/stage2/tape_builder.h */ + +// +// Implementation-specific overrides +// + +namespace simdjson { +namespace westmere { +namespace { +namespace stage1 { + +simdjson_really_inline uint64_t json_string_scanner::find_escaped(uint64_t backslash) { + if (!backslash) { uint64_t escaped = prev_escaped; prev_escaped = 0; return escaped; } + return find_escaped_branchless(backslash); +} + +} // namespace stage1 +} // unnamed namespace + +simdjson_warn_unused error_code implementation::minify(const uint8_t *buf, size_t len, uint8_t *dst, size_t &dst_len) const noexcept { + return westmere::stage1::json_minifier::minify<64>(buf, len, dst, dst_len); +} + +simdjson_warn_unused error_code dom_parser_implementation::stage1(const uint8_t *_buf, size_t _len, bool streaming) noexcept { + this->buf = _buf; + this->len = _len; + return westmere::stage1::json_structural_indexer::index<64>(_buf, _len, *this, streaming); +} + +simdjson_warn_unused bool implementation::validate_utf8(const char *buf, size_t len) const noexcept { + return westmere::stage1::generic_validate_utf8(buf,len); +} + +simdjson_warn_unused error_code dom_parser_implementation::stage2(dom::document &_doc) noexcept { + return stage2::tape_builder::parse_document(*this, _doc); +} + +simdjson_warn_unused error_code dom_parser_implementation::stage2_next(dom::document &_doc) noexcept { + return stage2::tape_builder::parse_document(*this, _doc); +} + +simdjson_warn_unused error_code dom_parser_implementation::parse(const uint8_t *_buf, size_t _len, dom::document &_doc) noexcept { + auto error = stage1(_buf, _len, false); + if (error) { return error; } + return stage2(_doc); +} + +} // namespace westmere +} // namespace simdjson + +/* begin file include/simdjson/westmere/end.h */ +SIMDJSON_UNTARGET_REGION +#undef westmere +/* end file include/simdjson/westmere/end.h */ +/* end file src/westmere/dom_parser_implementation.cpp */ +#endif + +SIMDJSON_POP_DISABLE_WARNINGS +/* end file src/simdjson.cpp */