glslang/StandAlone/StandAlone.cpp
Greg Fischer 90c5214344 Improve ResourceLimits interface to be more forward compatible
New interface allows users to generate ResourceLimits for interface so
that additions to TBuiltInResource do not break the ABI.

Users should use the glslang-default-resource-limits library and the
Public/ResourceLimits.h header. Similar changes have been made to the
C interface. Use Public/resource_limits_c.h.

Fixes #2822
2022-11-01 12:06:51 -06:00

2141 lines
87 KiB
C++

//
// Copyright (C) 2002-2005 3Dlabs Inc. Ltd.
// Copyright (C) 2013-2016 LunarG, Inc.
// Copyright (C) 2016-2020 Google, Inc.
// Modifications Copyright(C) 2021 Advanced Micro Devices, Inc.All rights reserved.
//
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions
// are met:
//
// Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
//
// 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.
//
// Neither the name of 3Dlabs Inc. Ltd. 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 HOLDERS 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.
//
// this only applies to the standalone wrapper, not the front end in general
#ifndef _CRT_SECURE_NO_WARNINGS
#define _CRT_SECURE_NO_WARNINGS
#endif
#include "glslang/Public/ResourceLimits.h"
#include "Worklist.h"
#include "DirStackFileIncluder.h"
#include "./../glslang/Include/ShHandle.h"
#include "./../glslang/Public/ShaderLang.h"
#include "../SPIRV/GlslangToSpv.h"
#include "../SPIRV/GLSL.std.450.h"
#include "../SPIRV/doc.h"
#include "../SPIRV/disassemble.h"
#include <cstring>
#include <cstdlib>
#include <cctype>
#include <cmath>
#include <array>
#include <map>
#include <memory>
#include <thread>
#include <set>
#include "../glslang/OSDependent/osinclude.h"
// Build-time generated includes
#include "glslang/build_info.h"
#include "glslang/glsl_intrinsic_header.h"
extern "C" {
GLSLANG_EXPORT void ShOutputHtml();
}
// Command-line options
enum TOptions {
EOptionNone = 0,
EOptionIntermediate = (1 << 0),
EOptionSuppressInfolog = (1 << 1),
EOptionMemoryLeakMode = (1 << 2),
EOptionRelaxedErrors = (1 << 3),
EOptionGiveWarnings = (1 << 4),
EOptionLinkProgram = (1 << 5),
EOptionMultiThreaded = (1 << 6),
EOptionDumpConfig = (1 << 7),
EOptionDumpReflection = (1 << 8),
EOptionSuppressWarnings = (1 << 9),
EOptionDumpVersions = (1 << 10),
EOptionSpv = (1 << 11),
EOptionHumanReadableSpv = (1 << 12),
EOptionVulkanRules = (1 << 13),
EOptionDefaultDesktop = (1 << 14),
EOptionOutputPreprocessed = (1 << 15),
EOptionOutputHexadecimal = (1 << 16),
EOptionReadHlsl = (1 << 17),
EOptionCascadingErrors = (1 << 18),
EOptionAutoMapBindings = (1 << 19),
EOptionFlattenUniformArrays = (1 << 20),
EOptionNoStorageFormat = (1 << 21),
EOptionKeepUncalled = (1 << 22),
EOptionHlslOffsets = (1 << 23),
EOptionHlslIoMapping = (1 << 24),
EOptionAutoMapLocations = (1 << 25),
EOptionDebug = (1 << 26),
EOptionStdin = (1 << 27),
EOptionOptimizeDisable = (1 << 28),
EOptionOptimizeSize = (1 << 29),
EOptionInvertY = (1 << 30),
EOptionDumpBareVersion = (1 << 31),
};
bool targetHlslFunctionality1 = false;
bool SpvToolsDisassembler = false;
bool SpvToolsValidate = false;
bool NaNClamp = false;
bool stripDebugInfo = false;
bool emitNonSemanticShaderDebugInfo = false;
bool emitNonSemanticShaderDebugSource = false;
bool beQuiet = false;
bool VulkanRulesRelaxed = false;
bool autoSampledTextures = false;
//
// Return codes from main/exit().
//
enum TFailCode {
ESuccess = 0,
EFailUsage,
EFailCompile,
EFailLink,
EFailCompilerCreate,
EFailThreadCreate,
EFailLinkerCreate
};
//
// Forward declarations.
//
EShLanguage FindLanguage(const std::string& name, bool parseSuffix=true);
void CompileFile(const char* fileName, ShHandle);
void usage();
char* ReadFileData(const char* fileName);
void FreeFileData(char* data);
void InfoLogMsg(const char* msg, const char* name, const int num);
// Globally track if any compile or link failure.
bool CompileFailed = false;
bool LinkFailed = false;
// array of unique places to leave the shader names and infologs for the asynchronous compiles
std::vector<std::unique_ptr<glslang::TWorkItem>> WorkItems;
std::string ConfigFile;
//
// Parse either a .conf file provided by the user or the default from glslang::DefaultTBuiltInResource
//
void ProcessConfigFile()
{
if (ConfigFile.size() == 0)
*GetResources() = *GetDefaultResources();
#ifndef GLSLANG_WEB
else {
char* configString = ReadFileData(ConfigFile.c_str());
DecodeResourceLimits(GetResources(), configString);
FreeFileData(configString);
}
#endif
}
int ReflectOptions = EShReflectionDefault;
int Options = 0;
const char* ExecutableName = nullptr;
const char* binaryFileName = nullptr;
const char* depencyFileName = nullptr;
const char* entryPointName = nullptr;
const char* sourceEntryPointName = nullptr;
const char* shaderStageName = nullptr;
const char* variableName = nullptr;
bool HlslEnable16BitTypes = false;
bool HlslDX9compatible = false;
bool HlslDxPositionW = false;
bool EnhancedMsgs = false;
bool DumpBuiltinSymbols = false;
std::vector<std::string> IncludeDirectoryList;
// Source environment
// (source 'Client' is currently the same as target 'Client')
int ClientInputSemanticsVersion = 100;
// Target environment
glslang::EShClient Client = glslang::EShClientNone; // will stay EShClientNone if only validating
glslang::EShTargetClientVersion ClientVersion; // not valid until Client is set
glslang::EShTargetLanguage TargetLanguage = glslang::EShTargetNone;
glslang::EShTargetLanguageVersion TargetVersion; // not valid until TargetLanguage is set
// GLSL version
int GlslVersion = 0; // GLSL version specified on CLI, overrides #version in shader source
std::vector<std::string> Processes; // what should be recorded by OpModuleProcessed, or equivalent
// Per descriptor-set binding base data
typedef std::map<unsigned int, unsigned int> TPerSetBaseBinding;
std::vector<std::pair<std::string, int>> uniformLocationOverrides;
int uniformBase = 0;
std::array<std::array<unsigned int, EShLangCount>, glslang::EResCount> baseBinding;
std::array<std::array<TPerSetBaseBinding, EShLangCount>, glslang::EResCount> baseBindingForSet;
std::array<std::vector<std::string>, EShLangCount> baseResourceSetBinding;
std::vector<std::pair<std::string, glslang::TBlockStorageClass>> blockStorageOverrides;
bool setGlobalUniformBlock = false;
std::string globalUniformName;
unsigned int globalUniformBinding;
unsigned int globalUniformSet;
bool setGlobalBufferBlock = false;
std::string atomicCounterBlockName;
unsigned int atomicCounterBlockSet;
// Add things like "#define ..." to a preamble to use in the beginning of the shader.
class TPreamble {
public:
TPreamble() { }
bool isSet() const { return text.size() > 0; }
const char* get() const { return text.c_str(); }
// #define...
void addDef(std::string def)
{
text.append("#define ");
fixLine(def);
Processes.push_back("define-macro ");
Processes.back().append(def);
// The first "=" needs to turn into a space
const size_t equal = def.find_first_of("=");
if (equal != def.npos)
def[equal] = ' ';
text.append(def);
text.append("\n");
}
// #undef...
void addUndef(std::string undef)
{
text.append("#undef ");
fixLine(undef);
Processes.push_back("undef-macro ");
Processes.back().append(undef);
text.append(undef);
text.append("\n");
}
protected:
void fixLine(std::string& line)
{
// Can't go past a newline in the line
const size_t end = line.find_first_of("\n");
if (end != line.npos)
line = line.substr(0, end);
}
std::string text; // contents of preamble
};
// Track the user's #define and #undef from the command line.
TPreamble UserPreamble;
std::string PreambleString;
//
// Create the default name for saving a binary if -o is not provided.
//
const char* GetBinaryName(EShLanguage stage)
{
const char* name;
if (binaryFileName == nullptr) {
switch (stage) {
case EShLangVertex: name = "vert.spv"; break;
case EShLangTessControl: name = "tesc.spv"; break;
case EShLangTessEvaluation: name = "tese.spv"; break;
case EShLangGeometry: name = "geom.spv"; break;
case EShLangFragment: name = "frag.spv"; break;
case EShLangCompute: name = "comp.spv"; break;
case EShLangRayGen: name = "rgen.spv"; break;
case EShLangIntersect: name = "rint.spv"; break;
case EShLangAnyHit: name = "rahit.spv"; break;
case EShLangClosestHit: name = "rchit.spv"; break;
case EShLangMiss: name = "rmiss.spv"; break;
case EShLangCallable: name = "rcall.spv"; break;
case EShLangMesh : name = "mesh.spv"; break;
case EShLangTask : name = "task.spv"; break;
default: name = "unknown"; break;
}
} else
name = binaryFileName;
return name;
}
//
// *.conf => this is a config file that can set limits/resources
//
bool SetConfigFile(const std::string& name)
{
if (name.size() < 5)
return false;
if (name.compare(name.size() - 5, 5, ".conf") == 0) {
ConfigFile = name;
return true;
}
return false;
}
//
// Give error and exit with failure code.
//
void Error(const char* message, const char* detail = nullptr)
{
fprintf(stderr, "%s: Error: ", ExecutableName);
if (detail != nullptr)
fprintf(stderr, "%s: ", detail);
fprintf(stderr, "%s (use -h for usage)\n", message);
exit(EFailUsage);
}
//
// Process an optional binding base of one the forms:
// --argname [stage] base // base for stage (if given) or all stages (if not)
// --argname [stage] [base set]... // set/base pairs: set the base for given binding set.
// Where stage is one of the forms accepted by FindLanguage, and base is an integer
//
void ProcessBindingBase(int& argc, char**& argv, glslang::TResourceType res)
{
if (argc < 2)
usage();
EShLanguage lang = EShLangCount;
int singleBase = 0;
TPerSetBaseBinding perSetBase;
int arg = 1;
// Parse stage, if given
if (!isdigit(argv[arg][0])) {
if (argc < 3) // this form needs one more argument
usage();
lang = FindLanguage(argv[arg++], false);
}
if ((argc - arg) >= 2 && isdigit(argv[arg+0][0]) && isdigit(argv[arg+1][0])) {
// Parse a per-set binding base
do {
const int baseNum = atoi(argv[arg++]);
const int setNum = atoi(argv[arg++]);
perSetBase[setNum] = baseNum;
} while ((argc - arg) >= 2 && isdigit(argv[arg + 0][0]) && isdigit(argv[arg + 1][0]));
} else {
// Parse single binding base
singleBase = atoi(argv[arg++]);
}
argc -= (arg-1);
argv += (arg-1);
// Set one or all languages
const int langMin = (lang < EShLangCount) ? lang+0 : 0;
const int langMax = (lang < EShLangCount) ? lang+1 : EShLangCount;
for (int lang = langMin; lang < langMax; ++lang) {
if (!perSetBase.empty())
baseBindingForSet[res][lang].insert(perSetBase.begin(), perSetBase.end());
else
baseBinding[res][lang] = singleBase;
}
}
void ProcessResourceSetBindingBase(int& argc, char**& argv, std::array<std::vector<std::string>, EShLangCount>& base)
{
if (argc < 2)
usage();
if (!isdigit(argv[1][0])) {
if (argc < 3) // this form needs one more argument
usage();
// Parse form: --argname stage [regname set base...], or:
// --argname stage set
const EShLanguage lang = FindLanguage(argv[1], false);
argc--;
argv++;
while (argc > 1 && argv[1] != nullptr && argv[1][0] != '-') {
base[lang].push_back(argv[1]);
argc--;
argv++;
}
// Must have one arg, or a multiple of three (for [regname set binding] triples)
if (base[lang].size() != 1 && (base[lang].size() % 3) != 0)
usage();
} else {
// Parse form: --argname set
for (int lang=0; lang<EShLangCount; ++lang)
base[lang].push_back(argv[1]);
argc--;
argv++;
}
}
//
// Process an optional binding base of one the forms:
// --argname name {uniform|buffer|push_constant}
void ProcessBlockStorage(int& argc, char**& argv, std::vector<std::pair<std::string, glslang::TBlockStorageClass>>& storage)
{
if (argc < 3)
usage();
glslang::TBlockStorageClass blockStorage = glslang::EbsNone;
std::string strBacking(argv[2]);
if (strBacking == "uniform")
blockStorage = glslang::EbsUniform;
else if (strBacking == "buffer")
blockStorage = glslang::EbsStorageBuffer;
else if (strBacking == "push_constant")
blockStorage = glslang::EbsPushConstant;
else {
printf("%s: invalid block storage\n", strBacking.c_str());
usage();
}
storage.push_back(std::make_pair(std::string(argv[1]), blockStorage));
argc -= 2;
argv += 2;
}
inline bool isNonDigit(char c) {
// a non-digit character valid in a glsl identifier
return (c == '_') || (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z');
}
// whether string isa valid identifier to be used in glsl
bool isValidIdentifier(const char* str) {
std::string idn(str);
if (idn.length() == 0) {
return false;
}
if (idn.length() >= 3 && idn.substr(0, 3) == "gl_") {
// identifiers startin with "gl_" are reserved
return false;
}
if (!isNonDigit(idn[0])) {
return false;
}
for (unsigned int i = 1; i < idn.length(); ++i) {
if (!(isdigit(idn[i]) || isNonDigit(idn[i]))) {
return false;
}
}
return true;
}
// Process settings for either the global buffer block or global unfirom block
// of the form:
// --argname name set binding
void ProcessGlobalBlockSettings(int& argc, char**& argv, std::string* name, unsigned int* set, unsigned int* binding)
{
if (argc < 4)
usage();
unsigned int curArg = 1;
assert(name || set || binding);
if (name) {
if (!isValidIdentifier(argv[curArg])) {
printf("%s: invalid identifier\n", argv[curArg]);
usage();
}
*name = argv[curArg];
curArg++;
}
if (set) {
errno = 0;
int setVal = ::strtol(argv[curArg], NULL, 10);
if (errno || setVal < 0) {
printf("%s: invalid set\n", argv[curArg]);
usage();
}
*set = setVal;
curArg++;
}
if (binding) {
errno = 0;
int bindingVal = ::strtol(argv[curArg], NULL, 10);
if (errno || bindingVal < 0) {
printf("%s: invalid binding\n", argv[curArg]);
usage();
}
*binding = bindingVal;
curArg++;
}
argc -= (curArg - 1);
argv += (curArg - 1);
}
//
// Do all command-line argument parsing. This includes building up the work-items
// to be processed later, and saving all the command-line options.
//
// Does not return (it exits) if command-line is fatally flawed.
//
void ProcessArguments(std::vector<std::unique_ptr<glslang::TWorkItem>>& workItems, int argc, char* argv[])
{
for (int res = 0; res < glslang::EResCount; ++res)
baseBinding[res].fill(0);
ExecutableName = argv[0];
workItems.reserve(argc);
const auto bumpArg = [&]() {
if (argc > 0) {
argc--;
argv++;
}
};
// read a string directly attached to a single-letter option
const auto getStringOperand = [&](const char* desc) {
if (argv[0][2] == 0) {
printf("%s must immediately follow option (no spaces)\n", desc);
exit(EFailUsage);
}
return argv[0] + 2;
};
// read a number attached to a single-letter option
const auto getAttachedNumber = [&](const char* desc) {
int num = atoi(argv[0] + 2);
if (num == 0) {
printf("%s: expected attached non-0 number\n", desc);
exit(EFailUsage);
}
return num;
};
// minimum needed (without overriding something else) to target Vulkan SPIR-V
const auto setVulkanSpv = []() {
if (Client == glslang::EShClientNone)
ClientVersion = glslang::EShTargetVulkan_1_0;
Client = glslang::EShClientVulkan;
Options |= EOptionSpv;
Options |= EOptionVulkanRules;
Options |= EOptionLinkProgram;
};
// minimum needed (without overriding something else) to target OpenGL SPIR-V
const auto setOpenGlSpv = []() {
if (Client == glslang::EShClientNone)
ClientVersion = glslang::EShTargetOpenGL_450;
Client = glslang::EShClientOpenGL;
Options |= EOptionSpv;
Options |= EOptionLinkProgram;
// undo a -H default to Vulkan
Options &= ~EOptionVulkanRules;
};
const auto getUniformOverride = [getStringOperand]() {
const char *arg = getStringOperand("-u<name>:<location>");
const char *split = strchr(arg, ':');
if (split == NULL) {
printf("%s: missing location\n", arg);
exit(EFailUsage);
}
errno = 0;
int location = ::strtol(split + 1, NULL, 10);
if (errno) {
printf("%s: invalid location\n", arg);
exit(EFailUsage);
}
return std::make_pair(std::string(arg, split - arg), location);
};
for (bumpArg(); argc >= 1; bumpArg()) {
if (argv[0][0] == '-') {
switch (argv[0][1]) {
case '-':
{
std::string lowerword(argv[0]+2);
std::transform(lowerword.begin(), lowerword.end(), lowerword.begin(), ::tolower);
// handle --word style options
if (lowerword == "auto-map-bindings" || // synonyms
lowerword == "auto-map-binding" ||
lowerword == "amb") {
Options |= EOptionAutoMapBindings;
} else if (lowerword == "auto-map-locations" || // synonyms
lowerword == "aml") {
Options |= EOptionAutoMapLocations;
} else if (lowerword == "uniform-base") {
if (argc <= 1)
Error("no <base> provided", lowerword.c_str());
uniformBase = ::strtol(argv[1], NULL, 10);
bumpArg();
break;
} else if (lowerword == "client") {
if (argc > 1) {
if (strcmp(argv[1], "vulkan100") == 0)
setVulkanSpv();
else if (strcmp(argv[1], "opengl100") == 0)
setOpenGlSpv();
else
Error("expects vulkan100 or opengl100", lowerword.c_str());
} else
Error("expects vulkan100 or opengl100", lowerword.c_str());
bumpArg();
} else if (lowerword == "define-macro" ||
lowerword == "d") {
if (argc > 1)
UserPreamble.addDef(argv[1]);
else
Error("expects <name[=def]>", argv[0]);
bumpArg();
} else if (lowerword == "dump-builtin-symbols") {
DumpBuiltinSymbols = true;
} else if (lowerword == "entry-point") {
entryPointName = argv[1];
if (argc <= 1)
Error("no <name> provided", lowerword.c_str());
bumpArg();
} else if (lowerword == "flatten-uniform-arrays" || // synonyms
lowerword == "flatten-uniform-array" ||
lowerword == "fua") {
Options |= EOptionFlattenUniformArrays;
} else if (lowerword == "glsl-version") {
if (argc > 1) {
if (strcmp(argv[1], "100") == 0) {
GlslVersion = 100;
} else if (strcmp(argv[1], "110") == 0) {
GlslVersion = 110;
} else if (strcmp(argv[1], "120") == 0) {
GlslVersion = 120;
} else if (strcmp(argv[1], "130") == 0) {
GlslVersion = 130;
} else if (strcmp(argv[1], "140") == 0) {
GlslVersion = 140;
} else if (strcmp(argv[1], "150") == 0) {
GlslVersion = 150;
} else if (strcmp(argv[1], "300es") == 0) {
GlslVersion = 300;
} else if (strcmp(argv[1], "310es") == 0) {
GlslVersion = 310;
} else if (strcmp(argv[1], "320es") == 0) {
GlslVersion = 320;
} else if (strcmp(argv[1], "330") == 0) {
GlslVersion = 330;
} else if (strcmp(argv[1], "400") == 0) {
GlslVersion = 400;
} else if (strcmp(argv[1], "410") == 0) {
GlslVersion = 410;
} else if (strcmp(argv[1], "420") == 0) {
GlslVersion = 420;
} else if (strcmp(argv[1], "430") == 0) {
GlslVersion = 430;
} else if (strcmp(argv[1], "440") == 0) {
GlslVersion = 440;
} else if (strcmp(argv[1], "450") == 0) {
GlslVersion = 450;
} else if (strcmp(argv[1], "460") == 0) {
GlslVersion = 460;
} else
Error("--glsl-version expected one of: 100, 110, 120, 130, 140, 150,\n"
"300es, 310es, 320es, 330\n"
"400, 410, 420, 430, 440, 450, 460");
}
bumpArg();
} else if (lowerword == "hlsl-offsets") {
Options |= EOptionHlslOffsets;
} else if (lowerword == "hlsl-iomap" ||
lowerword == "hlsl-iomapper" ||
lowerword == "hlsl-iomapping") {
Options |= EOptionHlslIoMapping;
} else if (lowerword == "hlsl-enable-16bit-types") {
HlslEnable16BitTypes = true;
} else if (lowerword == "hlsl-dx9-compatible") {
HlslDX9compatible = true;
} else if (lowerword == "hlsl-dx-position-w") {
HlslDxPositionW = true;
} else if (lowerword == "enhanced-msgs") {
EnhancedMsgs = true;
} else if (lowerword == "auto-sampled-textures") {
autoSampledTextures = true;
} else if (lowerword == "invert-y" || // synonyms
lowerword == "iy") {
Options |= EOptionInvertY;
} else if (lowerword == "keep-uncalled" || // synonyms
lowerword == "ku") {
Options |= EOptionKeepUncalled;
} else if (lowerword == "nan-clamp") {
NaNClamp = true;
} else if (lowerword == "no-storage-format" || // synonyms
lowerword == "nsf") {
Options |= EOptionNoStorageFormat;
} else if (lowerword == "relaxed-errors") {
Options |= EOptionRelaxedErrors;
} else if (lowerword == "reflect-strict-array-suffix") {
ReflectOptions |= EShReflectionStrictArraySuffix;
} else if (lowerword == "reflect-basic-array-suffix") {
ReflectOptions |= EShReflectionBasicArraySuffix;
} else if (lowerword == "reflect-intermediate-io") {
ReflectOptions |= EShReflectionIntermediateIO;
} else if (lowerword == "reflect-separate-buffers") {
ReflectOptions |= EShReflectionSeparateBuffers;
} else if (lowerword == "reflect-all-block-variables") {
ReflectOptions |= EShReflectionAllBlockVariables;
} else if (lowerword == "reflect-unwrap-io-blocks") {
ReflectOptions |= EShReflectionUnwrapIOBlocks;
} else if (lowerword == "reflect-all-io-variables") {
ReflectOptions |= EShReflectionAllIOVariables;
} else if (lowerword == "reflect-shared-std140-ubo") {
ReflectOptions |= EShReflectionSharedStd140UBO;
} else if (lowerword == "reflect-shared-std140-ssbo") {
ReflectOptions |= EShReflectionSharedStd140SSBO;
} else if (lowerword == "resource-set-bindings" || // synonyms
lowerword == "resource-set-binding" ||
lowerword == "rsb") {
ProcessResourceSetBindingBase(argc, argv, baseResourceSetBinding);
} else if (lowerword == "set-block-storage" ||
lowerword == "sbs") {
ProcessBlockStorage(argc, argv, blockStorageOverrides);
} else if (lowerword == "set-atomic-counter-block" ||
lowerword == "sacb") {
ProcessGlobalBlockSettings(argc, argv, &atomicCounterBlockName, &atomicCounterBlockSet, nullptr);
setGlobalBufferBlock = true;
} else if (lowerword == "set-default-uniform-block" ||
lowerword == "sdub") {
ProcessGlobalBlockSettings(argc, argv, &globalUniformName, &globalUniformSet, &globalUniformBinding);
setGlobalUniformBlock = true;
} else if (lowerword == "shift-image-bindings" || // synonyms
lowerword == "shift-image-binding" ||
lowerword == "sib") {
ProcessBindingBase(argc, argv, glslang::EResImage);
} else if (lowerword == "shift-sampler-bindings" || // synonyms
lowerword == "shift-sampler-binding" ||
lowerword == "ssb") {
ProcessBindingBase(argc, argv, glslang::EResSampler);
} else if (lowerword == "shift-uav-bindings" || // synonyms
lowerword == "shift-uav-binding" ||
lowerword == "suavb") {
ProcessBindingBase(argc, argv, glslang::EResUav);
} else if (lowerword == "shift-texture-bindings" || // synonyms
lowerword == "shift-texture-binding" ||
lowerword == "stb") {
ProcessBindingBase(argc, argv, glslang::EResTexture);
} else if (lowerword == "shift-ubo-bindings" || // synonyms
lowerword == "shift-ubo-binding" ||
lowerword == "shift-cbuffer-bindings" ||
lowerword == "shift-cbuffer-binding" ||
lowerword == "sub" ||
lowerword == "scb") {
ProcessBindingBase(argc, argv, glslang::EResUbo);
} else if (lowerword == "shift-ssbo-bindings" || // synonyms
lowerword == "shift-ssbo-binding" ||
lowerword == "sbb") {
ProcessBindingBase(argc, argv, glslang::EResSsbo);
} else if (lowerword == "source-entrypoint" || // synonyms
lowerword == "sep") {
if (argc <= 1)
Error("no <entry-point> provided", lowerword.c_str());
sourceEntryPointName = argv[1];
bumpArg();
break;
} else if (lowerword == "spirv-dis") {
SpvToolsDisassembler = true;
} else if (lowerword == "spirv-val") {
SpvToolsValidate = true;
} else if (lowerword == "stdin") {
Options |= EOptionStdin;
shaderStageName = argv[1];
} else if (lowerword == "suppress-warnings") {
Options |= EOptionSuppressWarnings;
} else if (lowerword == "target-env") {
if (argc > 1) {
if (strcmp(argv[1], "vulkan1.0") == 0) {
setVulkanSpv();
ClientVersion = glslang::EShTargetVulkan_1_0;
} else if (strcmp(argv[1], "vulkan1.1") == 0) {
setVulkanSpv();
ClientVersion = glslang::EShTargetVulkan_1_1;
} else if (strcmp(argv[1], "vulkan1.2") == 0) {
setVulkanSpv();
ClientVersion = glslang::EShTargetVulkan_1_2;
} else if (strcmp(argv[1], "vulkan1.3") == 0) {
setVulkanSpv();
ClientVersion = glslang::EShTargetVulkan_1_3;
} else if (strcmp(argv[1], "opengl") == 0) {
setOpenGlSpv();
ClientVersion = glslang::EShTargetOpenGL_450;
} else if (strcmp(argv[1], "spirv1.0") == 0) {
TargetLanguage = glslang::EShTargetSpv;
TargetVersion = glslang::EShTargetSpv_1_0;
} else if (strcmp(argv[1], "spirv1.1") == 0) {
TargetLanguage = glslang::EShTargetSpv;
TargetVersion = glslang::EShTargetSpv_1_1;
} else if (strcmp(argv[1], "spirv1.2") == 0) {
TargetLanguage = glslang::EShTargetSpv;
TargetVersion = glslang::EShTargetSpv_1_2;
} else if (strcmp(argv[1], "spirv1.3") == 0) {
TargetLanguage = glslang::EShTargetSpv;
TargetVersion = glslang::EShTargetSpv_1_3;
} else if (strcmp(argv[1], "spirv1.4") == 0) {
TargetLanguage = glslang::EShTargetSpv;
TargetVersion = glslang::EShTargetSpv_1_4;
} else if (strcmp(argv[1], "spirv1.5") == 0) {
TargetLanguage = glslang::EShTargetSpv;
TargetVersion = glslang::EShTargetSpv_1_5;
} else if (strcmp(argv[1], "spirv1.6") == 0) {
TargetLanguage = glslang::EShTargetSpv;
TargetVersion = glslang::EShTargetSpv_1_6;
} else
Error("--target-env expected one of: vulkan1.0, vulkan1.1, vulkan1.2,\n"
"vulkan1.3, opengl, spirv1.0, spirv1.1, spirv1.2, spirv1.3,\n"
"spirv1.4, spirv1.5 or spirv1.6");
}
bumpArg();
} else if (lowerword == "undef-macro" ||
lowerword == "u") {
if (argc > 1)
UserPreamble.addUndef(argv[1]);
else
Error("expects <name>", argv[0]);
bumpArg();
} else if (lowerword == "variable-name" || // synonyms
lowerword == "vn") {
Options |= EOptionOutputHexadecimal;
if (argc <= 1)
Error("no <C-variable-name> provided", lowerword.c_str());
variableName = argv[1];
bumpArg();
break;
} else if (lowerword == "quiet") {
beQuiet = true;
} else if (lowerword == "depfile") {
if (argc <= 1)
Error("no <depfile-name> provided", lowerword.c_str());
depencyFileName = argv[1];
bumpArg();
} else if (lowerword == "version") {
Options |= EOptionDumpVersions;
} else if (lowerword == "help") {
usage();
break;
} else {
Error("unrecognized command-line option", argv[0]);
}
}
break;
case 'C':
Options |= EOptionCascadingErrors;
break;
case 'D':
if (argv[0][2] == 0)
Options |= EOptionReadHlsl;
else
UserPreamble.addDef(getStringOperand("-D<name[=def]>"));
break;
case 'u':
uniformLocationOverrides.push_back(getUniformOverride());
break;
case 'E':
Options |= EOptionOutputPreprocessed;
break;
case 'G':
// OpenGL client
setOpenGlSpv();
if (argv[0][2] != 0)
ClientInputSemanticsVersion = getAttachedNumber("-G<num> client input semantics");
if (ClientInputSemanticsVersion != 100)
Error("unknown client version for -G, should be 100");
break;
case 'H':
Options |= EOptionHumanReadableSpv;
if ((Options & EOptionSpv) == 0) {
// default to Vulkan
setVulkanSpv();
}
break;
case 'I':
IncludeDirectoryList.push_back(getStringOperand("-I<dir> include path"));
break;
case 'O':
if (argv[0][2] == 'd')
Options |= EOptionOptimizeDisable;
else if (argv[0][2] == 's')
#if ENABLE_OPT
Options |= EOptionOptimizeSize;
#else
Error("-Os not available; optimizer not linked");
#endif
else
Error("unknown -O option");
break;
case 'R':
VulkanRulesRelaxed = true;
break;
case 'S':
if (argc <= 1)
Error("no <stage> specified for -S");
shaderStageName = argv[1];
bumpArg();
break;
case 'U':
UserPreamble.addUndef(getStringOperand("-U<name>"));
break;
case 'V':
setVulkanSpv();
if (argv[0][2] != 0)
ClientInputSemanticsVersion = getAttachedNumber("-V<num> client input semantics");
if (ClientInputSemanticsVersion != 100)
Error("unknown client version for -V, should be 100");
break;
case 'c':
Options |= EOptionDumpConfig;
break;
case 'd':
if (strncmp(&argv[0][1], "dumpversion", strlen(&argv[0][1]) + 1) == 0 ||
strncmp(&argv[0][1], "dumpfullversion", strlen(&argv[0][1]) + 1) == 0)
Options |= EOptionDumpBareVersion;
else
Options |= EOptionDefaultDesktop;
break;
case 'e':
entryPointName = argv[1];
if (argc <= 1)
Error("no <name> provided for -e");
bumpArg();
break;
case 'f':
if (strcmp(&argv[0][2], "hlsl_functionality1") == 0)
targetHlslFunctionality1 = true;
else
Error("-f: expected hlsl_functionality1");
break;
case 'g':
// Override previous -g or -g0 argument
stripDebugInfo = false;
emitNonSemanticShaderDebugInfo = false;
Options &= ~EOptionDebug;
if (argv[0][2] == '0')
stripDebugInfo = true;
else {
Options |= EOptionDebug;
if (argv[0][2] == 'V') {
emitNonSemanticShaderDebugInfo = true;
if (argv[0][3] == 'S') {
emitNonSemanticShaderDebugSource = true;
} else {
emitNonSemanticShaderDebugSource = false;
}
}
}
break;
case 'h':
usage();
break;
case 'i':
Options |= EOptionIntermediate;
break;
case 'l':
Options |= EOptionLinkProgram;
break;
case 'm':
Options |= EOptionMemoryLeakMode;
break;
case 'o':
if (argc <= 1)
Error("no <file> provided for -o");
binaryFileName = argv[1];
bumpArg();
break;
case 'q':
Options |= EOptionDumpReflection;
break;
case 'r':
Options |= EOptionRelaxedErrors;
break;
case 's':
Options |= EOptionSuppressInfolog;
break;
case 't':
Options |= EOptionMultiThreaded;
break;
case 'v':
Options |= EOptionDumpVersions;
break;
case 'w':
Options |= EOptionSuppressWarnings;
break;
case 'x':
Options |= EOptionOutputHexadecimal;
break;
default:
Error("unrecognized command-line option", argv[0]);
break;
}
} else {
std::string name(argv[0]);
if (! SetConfigFile(name)) {
workItems.push_back(std::unique_ptr<glslang::TWorkItem>(new glslang::TWorkItem(name)));
}
}
}
// Make sure that -S is always specified if --stdin is specified
if ((Options & EOptionStdin) && shaderStageName == nullptr)
Error("must provide -S when --stdin is given");
// Make sure that -E is not specified alongside linking (which includes SPV generation)
// Or things that require linking
if (Options & EOptionOutputPreprocessed) {
if (Options & EOptionLinkProgram)
Error("can't use -E when linking is selected");
if (Options & EOptionDumpReflection)
Error("reflection requires linking, which can't be used when -E when is selected");
}
// reflection requires linking
if ((Options & EOptionDumpReflection) && !(Options & EOptionLinkProgram))
Error("reflection requires -l for linking");
// -o or -x makes no sense if there is no target binary
if (binaryFileName && (Options & EOptionSpv) == 0)
Error("no binary generation requested (e.g., -V)");
if ((Options & EOptionFlattenUniformArrays) != 0 &&
(Options & EOptionReadHlsl) == 0)
Error("uniform array flattening only valid when compiling HLSL source.");
if ((Options & EOptionReadHlsl) && (Client == glslang::EShClientOpenGL)) {
Error("Using HLSL input under OpenGL semantics is not currently supported.");
}
// rationalize client and target language
if (TargetLanguage == glslang::EShTargetNone) {
switch (ClientVersion) {
case glslang::EShTargetVulkan_1_0:
TargetLanguage = glslang::EShTargetSpv;
TargetVersion = glslang::EShTargetSpv_1_0;
break;
case glslang::EShTargetVulkan_1_1:
TargetLanguage = glslang::EShTargetSpv;
TargetVersion = glslang::EShTargetSpv_1_3;
break;
case glslang::EShTargetVulkan_1_2:
TargetLanguage = glslang::EShTargetSpv;
TargetVersion = glslang::EShTargetSpv_1_5;
break;
case glslang::EShTargetVulkan_1_3:
TargetLanguage = glslang::EShTargetSpv;
TargetVersion = glslang::EShTargetSpv_1_6;
break;
case glslang::EShTargetOpenGL_450:
TargetLanguage = glslang::EShTargetSpv;
TargetVersion = glslang::EShTargetSpv_1_0;
break;
default:
break;
}
}
if (TargetLanguage != glslang::EShTargetNone && Client == glslang::EShClientNone)
Error("To generate SPIR-V, also specify client semantics. See -G and -V.");
}
//
// Translate the meaningful subset of command-line options to parser-behavior options.
//
void SetMessageOptions(EShMessages& messages)
{
if (Options & EOptionRelaxedErrors)
messages = (EShMessages)(messages | EShMsgRelaxedErrors);
if (Options & EOptionIntermediate)
messages = (EShMessages)(messages | EShMsgAST);
if (Options & EOptionSuppressWarnings)
messages = (EShMessages)(messages | EShMsgSuppressWarnings);
if (Options & EOptionSpv)
messages = (EShMessages)(messages | EShMsgSpvRules);
if (Options & EOptionVulkanRules)
messages = (EShMessages)(messages | EShMsgVulkanRules);
if (Options & EOptionOutputPreprocessed)
messages = (EShMessages)(messages | EShMsgOnlyPreprocessor);
if (Options & EOptionReadHlsl)
messages = (EShMessages)(messages | EShMsgReadHlsl);
if (Options & EOptionCascadingErrors)
messages = (EShMessages)(messages | EShMsgCascadingErrors);
if (Options & EOptionKeepUncalled)
messages = (EShMessages)(messages | EShMsgKeepUncalled);
if (Options & EOptionHlslOffsets)
messages = (EShMessages)(messages | EShMsgHlslOffsets);
if (Options & EOptionDebug)
messages = (EShMessages)(messages | EShMsgDebugInfo);
if (HlslEnable16BitTypes)
messages = (EShMessages)(messages | EShMsgHlslEnable16BitTypes);
if ((Options & EOptionOptimizeDisable) || !ENABLE_OPT)
messages = (EShMessages)(messages | EShMsgHlslLegalization);
if (HlslDX9compatible)
messages = (EShMessages)(messages | EShMsgHlslDX9Compatible);
if (DumpBuiltinSymbols)
messages = (EShMessages)(messages | EShMsgBuiltinSymbolTable);
if (EnhancedMsgs)
messages = (EShMessages)(messages | EShMsgEnhanced);
}
//
// Thread entry point, for non-linking asynchronous mode.
//
void CompileShaders(glslang::TWorklist& worklist)
{
if (Options & EOptionDebug)
Error("cannot generate debug information unless linking to generate code");
glslang::TWorkItem* workItem;
if (Options & EOptionStdin) {
if (worklist.remove(workItem)) {
ShHandle compiler = ShConstructCompiler(FindLanguage("stdin"), Options);
if (compiler == nullptr)
return;
CompileFile("stdin", compiler);
if (! (Options & EOptionSuppressInfolog))
workItem->results = ShGetInfoLog(compiler);
ShDestruct(compiler);
}
} else {
while (worklist.remove(workItem)) {
ShHandle compiler = ShConstructCompiler(FindLanguage(workItem->name), Options);
if (compiler == 0)
return;
CompileFile(workItem->name.c_str(), compiler);
if (! (Options & EOptionSuppressInfolog))
workItem->results = ShGetInfoLog(compiler);
ShDestruct(compiler);
}
}
}
// Outputs the given string, but only if it is non-null and non-empty.
// This prevents erroneous newlines from appearing.
void PutsIfNonEmpty(const char* str)
{
if (str && str[0]) {
puts(str);
}
}
// Outputs the given string to stderr, but only if it is non-null and non-empty.
// This prevents erroneous newlines from appearing.
void StderrIfNonEmpty(const char* str)
{
if (str && str[0])
fprintf(stderr, "%s\n", str);
}
// Simple bundling of what makes a compilation unit for ease in passing around,
// and separation of handling file IO versus API (programmatic) compilation.
struct ShaderCompUnit {
EShLanguage stage;
static const int maxCount = 1;
int count; // live number of strings/names
const char* text[maxCount]; // memory owned/managed externally
std::string fileName[maxCount]; // hold's the memory, but...
const char* fileNameList[maxCount]; // downstream interface wants pointers
ShaderCompUnit(EShLanguage stage) : stage(stage), count(0) { }
ShaderCompUnit(const ShaderCompUnit& rhs)
{
stage = rhs.stage;
count = rhs.count;
for (int i = 0; i < count; ++i) {
fileName[i] = rhs.fileName[i];
text[i] = rhs.text[i];
fileNameList[i] = rhs.fileName[i].c_str();
}
}
void addString(std::string& ifileName, const char* itext)
{
assert(count < maxCount);
fileName[count] = ifileName;
text[count] = itext;
fileNameList[count] = fileName[count].c_str();
++count;
}
};
// Writes a string into a depfile, escaping some special characters following the Makefile rules.
static void writeEscapedDepString(std::ofstream& file, const std::string& str)
{
for (char c : str) {
switch (c) {
case ' ':
case ':':
case '#':
case '[':
case ']':
case '\\':
file << '\\';
break;
case '$':
file << '$';
break;
}
file << c;
}
}
// Writes a depfile similar to gcc -MMD foo.c
bool writeDepFile(std::string depfile, std::vector<std::string>& binaryFiles, const std::vector<std::string>& sources)
{
std::ofstream file(depfile);
if (file.fail())
return false;
for (auto binaryFile = binaryFiles.begin(); binaryFile != binaryFiles.end(); binaryFile++) {
writeEscapedDepString(file, *binaryFile);
file << ":";
for (auto sourceFile = sources.begin(); sourceFile != sources.end(); sourceFile++) {
file << " ";
writeEscapedDepString(file, *sourceFile);
}
file << std::endl;
}
return true;
}
//
// For linking mode: Will independently parse each compilation unit, but then put them
// in the same program and link them together, making at most one linked module per
// pipeline stage.
//
// Uses the new C++ interface instead of the old handle-based interface.
//
void CompileAndLinkShaderUnits(std::vector<ShaderCompUnit> compUnits)
{
// keep track of what to free
std::list<glslang::TShader*> shaders;
EShMessages messages = EShMsgDefault;
SetMessageOptions(messages);
DirStackFileIncluder includer;
std::for_each(IncludeDirectoryList.rbegin(), IncludeDirectoryList.rend(), [&includer](const std::string& dir) {
includer.pushExternalLocalDirectory(dir); });
std::vector<std::string> sources;
//
// Per-shader processing...
//
glslang::TProgram& program = *new glslang::TProgram;
for (auto it = compUnits.cbegin(); it != compUnits.cend(); ++it) {
const auto &compUnit = *it;
for (int i = 0; i < compUnit.count; i++) {
sources.push_back(compUnit.fileNameList[i]);
}
glslang::TShader* shader = new glslang::TShader(compUnit.stage);
shader->setStringsWithLengthsAndNames(compUnit.text, NULL, compUnit.fileNameList, compUnit.count);
if (entryPointName)
shader->setEntryPoint(entryPointName);
if (sourceEntryPointName) {
if (entryPointName == nullptr)
printf("Warning: Changing source entry point name without setting an entry-point name.\n"
"Use '-e <name>'.\n");
shader->setSourceEntryPoint(sourceEntryPointName);
}
shader->setOverrideVersion(GlslVersion);
std::string intrinsicString = getIntrinsic(compUnit.text, compUnit.count);
PreambleString = "";
if (UserPreamble.isSet())
PreambleString.append(UserPreamble.get());
if (!intrinsicString.empty())
PreambleString.append(intrinsicString);
shader->setPreamble(PreambleString.c_str());
shader->addProcesses(Processes);
#ifndef GLSLANG_WEB
// Set IO mapper binding shift values
for (int r = 0; r < glslang::EResCount; ++r) {
const glslang::TResourceType res = glslang::TResourceType(r);
// Set base bindings
shader->setShiftBinding(res, baseBinding[res][compUnit.stage]);
// Set bindings for particular resource sets
// TODO: use a range based for loop here, when available in all environments.
for (auto i = baseBindingForSet[res][compUnit.stage].begin();
i != baseBindingForSet[res][compUnit.stage].end(); ++i)
shader->setShiftBindingForSet(res, i->second, i->first);
}
shader->setNoStorageFormat((Options & EOptionNoStorageFormat) != 0);
shader->setResourceSetBinding(baseResourceSetBinding[compUnit.stage]);
if (autoSampledTextures)
shader->setTextureSamplerTransformMode(EShTexSampTransUpgradeTextureRemoveSampler);
if (Options & EOptionAutoMapBindings)
shader->setAutoMapBindings(true);
if (Options & EOptionAutoMapLocations)
shader->setAutoMapLocations(true);
for (auto& uniOverride : uniformLocationOverrides) {
shader->addUniformLocationOverride(uniOverride.first.c_str(),
uniOverride.second);
}
shader->setUniformLocationBase(uniformBase);
#endif
if (VulkanRulesRelaxed) {
for (auto& storageOverride : blockStorageOverrides) {
shader->addBlockStorageOverride(storageOverride.first.c_str(),
storageOverride.second);
}
if (setGlobalBufferBlock) {
shader->setAtomicCounterBlockName(atomicCounterBlockName.c_str());
shader->setAtomicCounterBlockSet(atomicCounterBlockSet);
}
if (setGlobalUniformBlock) {
shader->setGlobalUniformBlockName(globalUniformName.c_str());
shader->setGlobalUniformSet(globalUniformSet);
shader->setGlobalUniformBinding(globalUniformBinding);
}
}
shader->setNanMinMaxClamp(NaNClamp);
#ifdef ENABLE_HLSL
shader->setFlattenUniformArrays((Options & EOptionFlattenUniformArrays) != 0);
if (Options & EOptionHlslIoMapping)
shader->setHlslIoMapping(true);
#endif
if (Options & EOptionInvertY)
shader->setInvertY(true);
if (HlslDxPositionW)
shader->setDxPositionW(true);
if (EnhancedMsgs)
shader->setEnhancedMsgs();
if (emitNonSemanticShaderDebugInfo)
shader->setDebugInfo(true);
// Set up the environment, some subsettings take precedence over earlier
// ways of setting things.
if (Options & EOptionSpv) {
shader->setEnvInput((Options & EOptionReadHlsl) ? glslang::EShSourceHlsl
: glslang::EShSourceGlsl,
compUnit.stage, Client, ClientInputSemanticsVersion);
shader->setEnvClient(Client, ClientVersion);
shader->setEnvTarget(TargetLanguage, TargetVersion);
#ifdef ENABLE_HLSL
if (targetHlslFunctionality1)
shader->setEnvTargetHlslFunctionality1();
#endif
if (VulkanRulesRelaxed)
shader->setEnvInputVulkanRulesRelaxed();
}
shaders.push_back(shader);
const int defaultVersion = Options & EOptionDefaultDesktop ? 110 : 100;
#ifndef GLSLANG_WEB
if (Options & EOptionOutputPreprocessed) {
std::string str;
if (shader->preprocess(GetResources(), defaultVersion, ENoProfile, false, false, messages, &str, includer)) {
PutsIfNonEmpty(str.c_str());
} else {
CompileFailed = true;
}
StderrIfNonEmpty(shader->getInfoLog());
StderrIfNonEmpty(shader->getInfoDebugLog());
continue;
}
#endif
if (! shader->parse(GetResources(), defaultVersion, false, messages, includer))
CompileFailed = true;
program.addShader(shader);
if (! (Options & EOptionSuppressInfolog) &&
! (Options & EOptionMemoryLeakMode)) {
if (!beQuiet)
PutsIfNonEmpty(compUnit.fileName[0].c_str());
PutsIfNonEmpty(shader->getInfoLog());
PutsIfNonEmpty(shader->getInfoDebugLog());
}
}
//
// Program-level processing...
//
// Link
if (! (Options & EOptionOutputPreprocessed) && ! program.link(messages))
LinkFailed = true;
#ifndef GLSLANG_WEB
// Map IO
if (Options & EOptionSpv) {
if (!program.mapIO())
LinkFailed = true;
}
#endif
// Report
if (! (Options & EOptionSuppressInfolog) &&
! (Options & EOptionMemoryLeakMode)) {
PutsIfNonEmpty(program.getInfoLog());
PutsIfNonEmpty(program.getInfoDebugLog());
}
#ifndef GLSLANG_WEB
// Reflect
if (Options & EOptionDumpReflection) {
program.buildReflection(ReflectOptions);
program.dumpReflection();
}
#endif
std::vector<std::string> outputFiles;
// Dump SPIR-V
if (Options & EOptionSpv) {
if (CompileFailed || LinkFailed)
printf("SPIR-V is not generated for failed compile or link\n");
else {
for (int stage = 0; stage < EShLangCount; ++stage) {
if (program.getIntermediate((EShLanguage)stage)) {
std::vector<unsigned int> spirv;
spv::SpvBuildLogger logger;
glslang::SpvOptions spvOptions;
if (Options & EOptionDebug) {
spvOptions.generateDebugInfo = true;
if (emitNonSemanticShaderDebugInfo) {
spvOptions.emitNonSemanticShaderDebugInfo = true;
if (emitNonSemanticShaderDebugSource) {
spvOptions.emitNonSemanticShaderDebugSource = true;
}
}
} else if (stripDebugInfo)
spvOptions.stripDebugInfo = true;
spvOptions.disableOptimizer = (Options & EOptionOptimizeDisable) != 0;
spvOptions.optimizeSize = (Options & EOptionOptimizeSize) != 0;
spvOptions.disassemble = SpvToolsDisassembler;
spvOptions.validate = SpvToolsValidate;
glslang::GlslangToSpv(*program.getIntermediate((EShLanguage)stage), spirv, &logger, &spvOptions);
// Dump the spv to a file or stdout, etc., but only if not doing
// memory/perf testing, as it's not internal to programmatic use.
if (! (Options & EOptionMemoryLeakMode)) {
printf("%s", logger.getAllMessages().c_str());
if (Options & EOptionOutputHexadecimal) {
glslang::OutputSpvHex(spirv, GetBinaryName((EShLanguage)stage), variableName);
} else {
glslang::OutputSpvBin(spirv, GetBinaryName((EShLanguage)stage));
}
outputFiles.push_back(GetBinaryName((EShLanguage)stage));
#ifndef GLSLANG_WEB
if (!SpvToolsDisassembler && (Options & EOptionHumanReadableSpv))
spv::Disassemble(std::cout, spirv);
#endif
}
}
}
}
}
if (depencyFileName && !(CompileFailed || LinkFailed)) {
std::set<std::string> includedFiles = includer.getIncludedFiles();
sources.insert(sources.end(), includedFiles.begin(), includedFiles.end());
writeDepFile(depencyFileName, outputFiles, sources);
}
// Free everything up, program has to go before the shaders
// because it might have merged stuff from the shaders, and
// the stuff from the shaders has to have its destructors called
// before the pools holding the memory in the shaders is freed.
delete &program;
while (shaders.size() > 0) {
delete shaders.back();
shaders.pop_back();
}
}
//
// Do file IO part of compile and link, handing off the pure
// API/programmatic mode to CompileAndLinkShaderUnits(), which can
// be put in a loop for testing memory footprint and performance.
//
// This is just for linking mode: meaning all the shaders will be put into the
// the same program linked together.
//
// This means there are a limited number of work items (not multi-threading mode)
// and that the point is testing at the linking level. Hence, to enable
// performance and memory testing, the actual compile/link can be put in
// a loop, independent of processing the work items and file IO.
//
void CompileAndLinkShaderFiles(glslang::TWorklist& Worklist)
{
std::vector<ShaderCompUnit> compUnits;
// If this is using stdin, we can't really detect multiple different file
// units by input type. We need to assume that we're just being given one
// file of a certain type.
if ((Options & EOptionStdin) != 0) {
ShaderCompUnit compUnit(FindLanguage("stdin"));
std::istreambuf_iterator<char> begin(std::cin), end;
std::string tempString(begin, end);
char* fileText = strdup(tempString.c_str());
std::string fileName = "stdin";
compUnit.addString(fileName, fileText);
compUnits.push_back(compUnit);
} else {
// Transfer all the work items from to a simple list of
// of compilation units. (We don't care about the thread
// work-item distribution properties in this path, which
// is okay due to the limited number of shaders, know since
// they are all getting linked together.)
glslang::TWorkItem* workItem;
while (Worklist.remove(workItem)) {
ShaderCompUnit compUnit(FindLanguage(workItem->name));
char* fileText = ReadFileData(workItem->name.c_str());
if (fileText == nullptr)
usage();
compUnit.addString(workItem->name, fileText);
compUnits.push_back(compUnit);
}
}
// Actual call to programmatic processing of compile and link,
// in a loop for testing memory and performance. This part contains
// all the perf/memory that a programmatic consumer will care about.
for (int i = 0; i < ((Options & EOptionMemoryLeakMode) ? 100 : 1); ++i) {
for (int j = 0; j < ((Options & EOptionMemoryLeakMode) ? 100 : 1); ++j)
CompileAndLinkShaderUnits(compUnits);
if (Options & EOptionMemoryLeakMode)
glslang::OS_DumpMemoryCounters();
}
// free memory from ReadFileData, which got stored in a const char*
// as the first string above
for (auto it = compUnits.begin(); it != compUnits.end(); ++it)
FreeFileData(const_cast<char*>(it->text[0]));
}
int singleMain()
{
glslang::TWorklist workList;
std::for_each(WorkItems.begin(), WorkItems.end(), [&workList](std::unique_ptr<glslang::TWorkItem>& item) {
assert(item);
workList.add(item.get());
});
#ifndef GLSLANG_WEB
if (Options & EOptionDumpConfig) {
printf("%s", GetDefaultTBuiltInResourceString().c_str());
if (workList.empty())
return ESuccess;
}
#endif
if (Options & EOptionDumpBareVersion) {
printf("%d:%d.%d.%d%s\n", glslang::GetSpirvGeneratorVersion(), GLSLANG_VERSION_MAJOR, GLSLANG_VERSION_MINOR,
GLSLANG_VERSION_PATCH, GLSLANG_VERSION_FLAVOR);
if (workList.empty())
return ESuccess;
} else if (Options & EOptionDumpVersions) {
printf("Glslang Version: %d:%d.%d.%d%s\n", glslang::GetSpirvGeneratorVersion(), GLSLANG_VERSION_MAJOR,
GLSLANG_VERSION_MINOR, GLSLANG_VERSION_PATCH, GLSLANG_VERSION_FLAVOR);
printf("ESSL Version: %s\n", glslang::GetEsslVersionString());
printf("GLSL Version: %s\n", glslang::GetGlslVersionString());
std::string spirvVersion;
glslang::GetSpirvVersion(spirvVersion);
printf("SPIR-V Version %s\n", spirvVersion.c_str());
printf("GLSL.std.450 Version %d, Revision %d\n", GLSLstd450Version, GLSLstd450Revision);
printf("Khronos Tool ID %d\n", glslang::GetKhronosToolId());
printf("SPIR-V Generator Version %d\n", glslang::GetSpirvGeneratorVersion());
printf("GL_KHR_vulkan_glsl version %d\n", 100);
printf("ARB_GL_gl_spirv version %d\n", 100);
if (workList.empty())
return ESuccess;
}
if (workList.empty() && ((Options & EOptionStdin) == 0)) {
usage();
}
if (Options & EOptionStdin) {
WorkItems.push_back(std::unique_ptr<glslang::TWorkItem>{new glslang::TWorkItem("stdin")});
workList.add(WorkItems.back().get());
}
ProcessConfigFile();
if ((Options & EOptionReadHlsl) && !((Options & EOptionOutputPreprocessed) || (Options & EOptionSpv)))
Error("HLSL requires SPIR-V code generation (or preprocessing only)");
//
// Two modes:
// 1) linking all arguments together, single-threaded, new C++ interface
// 2) independent arguments, can be tackled by multiple asynchronous threads, for testing thread safety, using the old handle interface
//
if (Options & (EOptionLinkProgram | EOptionOutputPreprocessed)) {
glslang::InitializeProcess();
glslang::InitializeProcess(); // also test reference counting of users
glslang::InitializeProcess(); // also test reference counting of users
glslang::FinalizeProcess(); // also test reference counting of users
glslang::FinalizeProcess(); // also test reference counting of users
CompileAndLinkShaderFiles(workList);
glslang::FinalizeProcess();
} else {
ShInitialize();
ShInitialize(); // also test reference counting of users
ShFinalize(); // also test reference counting of users
bool printShaderNames = workList.size() > 1;
if (Options & EOptionMultiThreaded) {
std::array<std::thread, 16> threads;
for (unsigned int t = 0; t < threads.size(); ++t) {
threads[t] = std::thread(CompileShaders, std::ref(workList));
if (threads[t].get_id() == std::thread::id()) {
fprintf(stderr, "Failed to create thread\n");
return EFailThreadCreate;
}
}
std::for_each(threads.begin(), threads.end(), [](std::thread& t) { t.join(); });
} else
CompileShaders(workList);
// Print out all the resulting infologs
for (size_t w = 0; w < WorkItems.size(); ++w) {
if (WorkItems[w]) {
if (printShaderNames || WorkItems[w]->results.size() > 0)
PutsIfNonEmpty(WorkItems[w]->name.c_str());
PutsIfNonEmpty(WorkItems[w]->results.c_str());
}
}
ShFinalize();
}
if (CompileFailed)
return EFailCompile;
if (LinkFailed)
return EFailLink;
return 0;
}
int C_DECL main(int argc, char* argv[])
{
ProcessArguments(WorkItems, argc, argv);
int ret = 0;
// Loop over the entire init/finalize cycle to watch memory changes
const int iterations = 1;
if (iterations > 1)
glslang::OS_DumpMemoryCounters();
for (int i = 0; i < iterations; ++i) {
ret = singleMain();
if (iterations > 1)
glslang::OS_DumpMemoryCounters();
}
return ret;
}
//
// Deduce the language from the filename. Files must end in one of the
// following extensions:
//
// .vert = vertex
// .tesc = tessellation control
// .tese = tessellation evaluation
// .geom = geometry
// .frag = fragment
// .comp = compute
// .rgen = ray generation
// .rint = ray intersection
// .rahit = ray any hit
// .rchit = ray closest hit
// .rmiss = ray miss
// .rcall = ray callable
// .mesh = mesh
// .task = task
// Additionally, the file names may end in .<stage>.glsl and .<stage>.hlsl
// where <stage> is one of the stages listed above.
//
EShLanguage FindLanguage(const std::string& name, bool parseStageName)
{
std::string stageName;
if (shaderStageName)
stageName = shaderStageName;
else if (parseStageName) {
// Note: "first" extension means "first from the end", i.e.
// if the file is named foo.vert.glsl, then "glsl" is first,
// "vert" is second.
size_t firstExtStart = name.find_last_of(".");
bool hasFirstExt = firstExtStart != std::string::npos;
size_t secondExtStart = hasFirstExt ? name.find_last_of(".", firstExtStart - 1) : std::string::npos;
bool hasSecondExt = secondExtStart != std::string::npos;
std::string firstExt = name.substr(firstExtStart + 1, std::string::npos);
bool usesUnifiedExt = hasFirstExt && (firstExt == "glsl" || firstExt == "hlsl");
if (usesUnifiedExt && firstExt == "hlsl")
Options |= EOptionReadHlsl;
if (hasFirstExt && !usesUnifiedExt)
stageName = firstExt;
else if (usesUnifiedExt && hasSecondExt)
stageName = name.substr(secondExtStart + 1, firstExtStart - secondExtStart - 1);
else {
usage();
return EShLangVertex;
}
} else
stageName = name;
if (stageName == "vert")
return EShLangVertex;
else if (stageName == "tesc")
return EShLangTessControl;
else if (stageName == "tese")
return EShLangTessEvaluation;
else if (stageName == "geom")
return EShLangGeometry;
else if (stageName == "frag")
return EShLangFragment;
else if (stageName == "comp")
return EShLangCompute;
else if (stageName == "rgen")
return EShLangRayGen;
else if (stageName == "rint")
return EShLangIntersect;
else if (stageName == "rahit")
return EShLangAnyHit;
else if (stageName == "rchit")
return EShLangClosestHit;
else if (stageName == "rmiss")
return EShLangMiss;
else if (stageName == "rcall")
return EShLangCallable;
else if (stageName == "mesh")
return EShLangMesh;
else if (stageName == "task")
return EShLangTask;
usage();
return EShLangVertex;
}
//
// Read a file's data into a string, and compile it using the old interface ShCompile,
// for non-linkable results.
//
void CompileFile(const char* fileName, ShHandle compiler)
{
int ret = 0;
char* shaderString;
if ((Options & EOptionStdin) != 0) {
std::istreambuf_iterator<char> begin(std::cin), end;
std::string tempString(begin, end);
shaderString = strdup(tempString.c_str());
} else {
shaderString = ReadFileData(fileName);
}
// move to length-based strings, rather than null-terminated strings
int* lengths = new int[1];
lengths[0] = (int)strlen(shaderString);
EShMessages messages = EShMsgDefault;
SetMessageOptions(messages);
if (UserPreamble.isSet())
Error("-D and -U options require -l (linking)\n");
for (int i = 0; i < ((Options & EOptionMemoryLeakMode) ? 100 : 1); ++i) {
for (int j = 0; j < ((Options & EOptionMemoryLeakMode) ? 100 : 1); ++j) {
// ret = ShCompile(compiler, shaderStrings, NumShaderStrings, lengths, EShOptNone, &Resources, Options, (Options & EOptionDefaultDesktop) ? 110 : 100, false, messages);
ret = ShCompile(compiler, &shaderString, 1, nullptr, EShOptNone, GetResources(), Options, (Options & EOptionDefaultDesktop) ? 110 : 100, false, messages);
// const char* multi[12] = { "# ve", "rsion", " 300 e", "s", "\n#err",
// "or should be l", "ine 1", "string 5\n", "float glo", "bal",
// ";\n#error should be line 2\n void main() {", "global = 2.3;}" };
// const char* multi[7] = { "/", "/", "\\", "\n", "\n", "#", "version 300 es" };
// ret = ShCompile(compiler, multi, 7, nullptr, EShOptNone, &Resources, Options, (Options & EOptionDefaultDesktop) ? 110 : 100, false, messages);
}
if (Options & EOptionMemoryLeakMode)
glslang::OS_DumpMemoryCounters();
}
delete [] lengths;
FreeFileData(shaderString);
if (ret == 0)
CompileFailed = true;
}
//
// print usage to stdout
//
void usage()
{
printf("Usage: glslangValidator [option]... [file]...\n"
"\n"
"'file' can end in .<stage> for auto-stage classification, where <stage> is:\n"
" .conf to provide a config file that replaces the default configuration\n"
" (see -c option below for generating a template)\n"
" .vert for a vertex shader\n"
" .tesc for a tessellation control shader\n"
" .tese for a tessellation evaluation shader\n"
" .geom for a geometry shader\n"
" .frag for a fragment shader\n"
" .comp for a compute shader\n"
" .mesh for a mesh shader\n"
" .task for a task shader\n"
" .rgen for a ray generation shader\n"
" .rint for a ray intersection shader\n"
" .rahit for a ray any hit shader\n"
" .rchit for a ray closest hit shader\n"
" .rmiss for a ray miss shader\n"
" .rcall for a ray callable shader\n"
" .glsl for .vert.glsl, .tesc.glsl, ..., .comp.glsl compound suffixes\n"
" .hlsl for .vert.hlsl, .tesc.hlsl, ..., .comp.hlsl compound suffixes\n"
"\n"
"Options:\n"
" -C cascading errors; risk crash from accumulation of error recoveries\n"
" -D input is HLSL (this is the default when any suffix is .hlsl)\n"
" -D<name[=def]> | --define-macro <name[=def]> | --D <name[=def]>\n"
" define a pre-processor macro\n"
" -E print pre-processed GLSL; cannot be used with -l;\n"
" errors will appear on stderr\n"
" -G[ver] create SPIR-V binary, under OpenGL semantics; turns on -l;\n"
" default file name is <stage>.spv (-o overrides this);\n"
" 'ver', when present, is the version of the input semantics,\n"
" which will appear in #define GL_SPIRV ver;\n"
" '--client opengl100' is the same as -G100;\n"
" a '--target-env' for OpenGL will also imply '-G';\n"
" currently only supports GLSL\n"
" -H print human readable form of SPIR-V; turns on -V\n"
" -I<dir> add dir to the include search path; includer's directory\n"
" is searched first, followed by left-to-right order of -I\n"
" -Od disables optimization; may cause illegal SPIR-V for HLSL\n"
" -Os optimizes SPIR-V to minimize size\n"
" -R use relaxed verification rules for generating Vulkan SPIR-V,\n"
" allowing the use of default uniforms, atomic_uints, and\n"
" gl_VertexID and gl_InstanceID keywords.\n"
" -S <stage> uses specified stage rather than parsing the file extension\n"
" choices for <stage> are vert, tesc, tese, geom, frag, or comp\n"
" -U<name> | --undef-macro <name> | --U <name>\n"
" undefine a pre-processor macro\n"
" -V[ver] create SPIR-V binary, under Vulkan semantics; turns on -l;\n"
" default file name is <stage>.spv (-o overrides this)\n"
" 'ver', when present, is the version of the input semantics,\n"
" which will appear in #define VULKAN ver\n"
" '--client vulkan100' is the same as -V100\n"
" a '--target-env' for Vulkan will also imply '-V'\n"
" -c configuration dump;\n"
" creates the default configuration file (redirect to a .conf file)\n"
" -d default to desktop (#version 110) when there is no shader #version\n"
" (default is ES version 100)\n"
" -e <name> | --entry-point <name>\n"
" specify <name> as the entry-point function name\n"
" -f{hlsl_functionality1}\n"
" 'hlsl_functionality1' enables use of the\n"
" SPV_GOOGLE_hlsl_functionality1 extension\n"
" -g generate debug information\n"
" -g0 strip debug information\n"
" -gV generate nonsemantic shader debug information\n"
" -gVS generate nonsemantic shader debug information with source\n"
" -h print this usage message\n"
" -i intermediate tree (glslang AST) is printed out\n"
" -l link all input files together to form a single module\n"
" -m memory leak mode\n"
" -o <file> save binary to <file>, requires a binary option (e.g., -V)\n"
" -q dump reflection query database; requires -l for linking\n"
" -r | --relaxed-errors"
" relaxed GLSL semantic error-checking mode\n"
" -s silence syntax and semantic error reporting\n"
" -t multi-threaded mode\n"
" -v | --version\n"
" print version strings\n"
" -w | --suppress-warnings\n"
" suppress GLSL warnings, except as required by \"#extension : warn\"\n"
" -x save binary output as text-based 32-bit hexadecimal numbers\n"
" -u<name>:<loc> specify a uniform location override for --aml\n"
" --uniform-base <base> set a base to use for generated uniform locations\n"
" --auto-map-bindings | --amb automatically bind uniform variables\n"
" without explicit bindings\n"
" --auto-map-locations | --aml automatically locate input/output lacking\n"
" 'location' (fragile, not cross stage)\n"
" --auto-sampled-textures Removes sampler variables and converts\n"
" existing textures to sampled textures\n"
" --client {vulkan<ver>|opengl<ver>} see -V and -G\n"
" --depfile <file> writes depfile for build systems\n"
" --dump-builtin-symbols prints builtin symbol table prior each compile\n"
" -dumpfullversion | -dumpversion print bare major.minor.patchlevel\n"
" --flatten-uniform-arrays | --fua flatten uniform texture/sampler arrays to\n"
" scalars\n"
" --glsl-version {100 | 110 | 120 | 130 | 140 | 150 |\n"
" 300es | 310es | 320es | 330\n"
" 400 | 410 | 420 | 430 | 440 | 450 | 460}\n"
" set GLSL version, overrides #version\n"
" in shader sourcen\n"
" --hlsl-offsets allow block offsets to follow HLSL rules\n"
" works independently of source language\n"
" --hlsl-iomap perform IO mapping in HLSL register space\n"
" --hlsl-enable-16bit-types allow 16-bit types in SPIR-V for HLSL\n"
" --hlsl-dx9-compatible interprets sampler declarations as a\n"
" texture/sampler combo like DirectX9 would,\n"
" and recognizes DirectX9-specific semantics\n"
" --hlsl-dx-position-w W component of SV_Position in HLSL fragment\n"
" shaders compatible with DirectX\n"
" --invert-y | --iy invert position.Y output in vertex shader\n"
" --enhanced-msgs print more readable error messages (GLSL only)\n"
" --keep-uncalled | --ku don't eliminate uncalled functions\n"
" --nan-clamp favor non-NaN operand in min, max, and clamp\n"
" --no-storage-format | --nsf use Unknown image format\n"
" --quiet do not print anything to stdout, unless\n"
" requested by another option\n"
" --reflect-strict-array-suffix use strict array suffix rules when\n"
" reflecting\n"
" --reflect-basic-array-suffix arrays of basic types will have trailing [0]\n"
" --reflect-intermediate-io reflection includes inputs/outputs of linked\n"
" shaders rather than just vertex/fragment\n"
" --reflect-separate-buffers reflect buffer variables and blocks\n"
" separately to uniforms\n"
" --reflect-all-block-variables reflect all variables in blocks, whether\n"
" inactive or active\n"
" --reflect-unwrap-io-blocks unwrap input/output blocks the same as\n"
" uniform blocks\n"
" --resource-set-binding [stage] name set binding\n"
" set descriptor set and binding for\n"
" individual resources\n"
" --resource-set-binding [stage] set\n"
" set descriptor set for all resources\n"
" --rsb synonym for --resource-set-binding\n"
" --set-block-backing name {uniform|buffer|push_constant}\n"
" changes the backing type of a uniform, buffer,\n"
" or push_constant block declared in\n"
" in the program, when using -R option.\n"
" This can be used to change the backing\n"
" for existing blocks as well as implicit ones\n"
" such as 'gl_DefaultUniformBlock'.\n"
" --sbs synonym for set-block-storage\n"
" --set-atomic-counter-block name set\n"
" set name, and descriptor set for\n"
" atomic counter blocks, with -R opt\n"
" --sacb synonym for set-atomic-counter-block\n"
" --set-default-uniform-block name set binding\n"
" set name, descriptor set, and binding for\n"
" global default-uniform-block, with -R opt\n"
" --sdub synonym for set-default-uniform-block\n"
" --shift-image-binding [stage] num\n"
" base binding number for images (uav)\n"
" --shift-image-binding [stage] [num set]...\n"
" per-descriptor-set shift values\n"
" --sib synonym for --shift-image-binding\n"
" --shift-sampler-binding [stage] num\n"
" base binding number for samplers\n"
" --shift-sampler-binding [stage] [num set]...\n"
" per-descriptor-set shift values\n"
" --ssb synonym for --shift-sampler-binding\n"
" --shift-ssbo-binding [stage] num base binding number for SSBOs\n"
" --shift-ssbo-binding [stage] [num set]...\n"
" per-descriptor-set shift values\n"
" --sbb synonym for --shift-ssbo-binding\n"
" --shift-texture-binding [stage] num\n"
" base binding number for textures\n"
" --shift-texture-binding [stage] [num set]...\n"
" per-descriptor-set shift values\n"
" --stb synonym for --shift-texture-binding\n"
" --shift-uav-binding [stage] num base binding number for UAVs\n"
" --shift-uav-binding [stage] [num set]...\n"
" per-descriptor-set shift values\n"
" --suavb synonym for --shift-uav-binding\n"
" --shift-UBO-binding [stage] num base binding number for UBOs\n"
" --shift-UBO-binding [stage] [num set]...\n"
" per-descriptor-set shift values\n"
" --sub synonym for --shift-UBO-binding\n"
" --shift-cbuffer-binding | --scb synonyms for --shift-UBO-binding\n"
" --spirv-dis output standard-form disassembly; works only\n"
" when a SPIR-V generation option is also used\n"
" --spirv-val execute the SPIRV-Tools validator\n"
" --source-entrypoint <name> the given shader source function is\n"
" renamed to be the <name> given in -e\n"
" --sep synonym for --source-entrypoint\n"
" --stdin read from stdin instead of from a file;\n"
" requires providing the shader stage using -S\n"
" --target-env {vulkan1.0 | vulkan1.1 | vulkan1.2 | vulkan1.3 | opengl |\n"
" spirv1.0 | spirv1.1 | spirv1.2 | spirv1.3 | spirv1.4 |\n"
" spirv1.5 | spirv1.6}\n"
" Set the execution environment that the\n"
" generated code will be executed in.\n"
" Defaults to:\n"
" * vulkan1.0 under --client vulkan<ver>\n"
" * opengl under --client opengl<ver>\n"
" * spirv1.0 under --target-env vulkan1.0\n"
" * spirv1.3 under --target-env vulkan1.1\n"
" * spirv1.5 under --target-env vulkan1.2\n"
" * spirv1.6 under --target-env vulkan1.3\n"
" Multiple --target-env can be specified.\n"
" --variable-name <name>\n"
" --vn <name> creates a C header file that contains a\n"
" uint32_t array named <name>\n"
" initialized with the shader binary code\n"
);
exit(EFailUsage);
}
#if !defined _MSC_VER && !defined MINGW_HAS_SECURE_API
#include <errno.h>
int fopen_s(
FILE** pFile,
const char* filename,
const char* mode
)
{
if (!pFile || !filename || !mode) {
return EINVAL;
}
FILE* f = fopen(filename, mode);
if (! f) {
if (errno != 0) {
return errno;
} else {
return ENOENT;
}
}
*pFile = f;
return 0;
}
#endif
//
// Malloc a string of sufficient size and read a string into it.
//
char* ReadFileData(const char* fileName)
{
FILE *in = nullptr;
int errorCode = fopen_s(&in, fileName, "r");
if (errorCode || in == nullptr)
Error("unable to open input file");
int count = 0;
while (fgetc(in) != EOF)
count++;
fseek(in, 0, SEEK_SET);
char* return_data = (char*)malloc(count + 1); // freed in FreeFileData()
if ((int)fread(return_data, 1, count, in) != count) {
free(return_data);
Error("can't read input file");
}
return_data[count] = '\0';
fclose(in);
return return_data;
}
void FreeFileData(char* data)
{
free(data);
}
void InfoLogMsg(const char* msg, const char* name, const int num)
{
if (num >= 0 )
printf("#### %s %s %d INFO LOG ####\n", msg, name, num);
else
printf("#### %s %s INFO LOG ####\n", msg, name);
}