// // Copyright (C) 2002-2005 3Dlabs Inc. Ltd. // Copyright (C) 2013-2016 LunarG, Inc. // // 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 #define _CRT_SECURE_NO_WARNINGS #include "ResourceLimits.h" #include "Worklist.h" #include "./../glslang/Include/ShHandle.h" #include "./../glslang/Include/revision.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 #include #include #include #include #include "../glslang/OSDependent/osinclude.h" extern "C" { SH_IMPORT_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), }; // // 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(); void FreeFileData(char** data); char** ReadFileData(const char* fileName); 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; // Use to test breaking up a single shader file into multiple strings. // Set in ReadFileData(). int NumShaderStrings; TBuiltInResource Resources; std::string ConfigFile; // // Parse either a .conf file provided by the user or the default from glslang::DefaultTBuiltInResource // void ProcessConfigFile() { char** configStrings = 0; char* config = 0; if (ConfigFile.size() > 0) { configStrings = ReadFileData(ConfigFile.c_str()); if (configStrings) config = *configStrings; else { printf("Error opening configuration file; will instead use the default configuration\n"); usage(); } } if (config == 0) { Resources = glslang::DefaultTBuiltInResource; return; } glslang::DecodeResourceLimits(&Resources, config); if (configStrings) FreeFileData(configStrings); else delete[] config; } // thread-safe list of shaders to asynchronously grab and compile glslang::TWorklist Worklist; // array of unique places to leave the shader names and infologs for the asynchronous compiles glslang::TWorkItem** Work = 0; int NumWorkItems = 0; int Options = 0; const char* ExecutableName = nullptr; const char* binaryFileName = nullptr; const char* entryPointName = nullptr; const char* sourceEntryPointName = nullptr; const char* shaderStageName = nullptr; std::array baseSamplerBinding; std::array baseTextureBinding; std::array baseImageBinding; std::array baseUboBinding; // // 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; 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) { printf("%s: Error %s (use -h for usage)\n", ExecutableName, message); exit(EFailUsage); } // // Process an optional binding base of the form: // --argname [stage] base // Where stage is one of the forms accepted by FindLanguage, and base is an integer // void ProcessBindingBase(int& argc, char**& argv, std::array& base) { if (argc < 2) usage(); if (!isdigit(argv[1][0])) { if (argc < 3) // this form needs one more argument usage(); // Parse form: --argname stage base const EShLanguage lang = FindLanguage(argv[1], false); base[lang] = atoi(argv[2]); argc-= 2; argv+= 2; } else { // Parse form: --argname base for (int lang=0; lang= 1; argc--, argv++) { 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 == "shift-sampler-bindings" || // synonyms lowerword == "shift-sampler-binding" || lowerword == "ssb") { ProcessBindingBase(argc, argv, baseSamplerBinding); } else if (lowerword == "shift-texture-bindings" || // synonyms lowerword == "shift-texture-binding" || lowerword == "stb") { ProcessBindingBase(argc, argv, baseTextureBinding); } else if (lowerword == "shift-image-bindings" || // synonyms lowerword == "shift-image-binding" || lowerword == "sib") { ProcessBindingBase(argc, argv, baseImageBinding); } else if (lowerword == "shift-ubo-bindings" || // synonyms lowerword == "shift-ubo-binding" || lowerword == "sub") { ProcessBindingBase(argc, argv, baseUboBinding); } else if (lowerword == "auto-map-bindings" || // synonyms lowerword == "auto-map-binding" || lowerword == "amb") { Options |= EOptionAutoMapBindings; } else if (lowerword == "flatten-uniform-arrays" || // synonyms lowerword == "flatten-uniform-array" || lowerword == "fua") { Options |= EOptionFlattenUniformArrays; } else if (lowerword == "no-storage-format" || // synonyms lowerword == "nsf") { Options |= EOptionNoStorageFormat; } else if (lowerword == "source-entrypoint" || // synonyms lowerword == "sep") { sourceEntryPointName = argv[1]; if (argc > 0) { argc--; argv++; } else Error("no provided for --source-entrypoint"); break; } else if (lowerword == "keep-uncalled" || // synonyms lowerword == "ku") { Options |= EOptionKeepUncalled; } else { usage(); } } break; case 'H': Options |= EOptionHumanReadableSpv; if ((Options & EOptionSpv) == 0) { // default to Vulkan Options |= EOptionSpv; Options |= EOptionVulkanRules; Options |= EOptionLinkProgram; } break; case 'V': Options |= EOptionSpv; Options |= EOptionVulkanRules; Options |= EOptionLinkProgram; break; case 'S': shaderStageName = argv[1]; if (argc > 0) { argc--; argv++; } else Error("no specified for -S"); break; case 'G': Options |= EOptionSpv; Options |= EOptionLinkProgram; // undo a -H default to Vulkan Options &= ~EOptionVulkanRules; break; case 'E': Options |= EOptionOutputPreprocessed; break; case 'c': Options |= EOptionDumpConfig; break; case 'C': Options |= EOptionCascadingErrors; break; case 'd': Options |= EOptionDefaultDesktop; break; case 'D': Options |= EOptionReadHlsl; break; case 'e': // HLSL todo: entry point handle needs much more sophistication. // This is okay for one compilation unit with one entry point. entryPointName = argv[1]; if (argc > 0) { argc--; argv++; } else Error("no provided for -e"); break; case 'h': usage(); break; case 'i': Options |= EOptionIntermediate; break; case 'l': Options |= EOptionLinkProgram; break; case 'm': Options |= EOptionMemoryLeakMode; break; case 'o': binaryFileName = argv[1]; if (argc > 0) { argc--; argv++; } else Error("no provided for -o"); break; case 'q': Options |= EOptionDumpReflection; break; case 'r': Options |= EOptionRelaxedErrors; break; case 's': Options |= EOptionSuppressInfolog; break; case 't': #ifdef _WIN32 Options |= EOptionMultiThreaded; #endif break; case 'v': Options |= EOptionDumpVersions; break; case 'w': Options |= EOptionSuppressWarnings; break; case 'x': Options |= EOptionOutputHexadecimal; break; default: usage(); break; } } else { std::string name(argv[0]); if (! SetConfigFile(name)) { Work[argc] = new glslang::TWorkItem(name); Worklist.add(Work[argc]); } } } // Make sure that -E is not specified alongside linking (which includes SPV generation) if ((Options & EOptionOutputPreprocessed) && (Options & EOptionLinkProgram)) Error("can't use -E when linking is selected"); // -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."); } // // 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); } // // Thread entry point, for non-linking asynchronous mode. // // Return 0 for failure, 1 for success. // unsigned int CompileShaders(void*) { glslang::TWorkItem* workItem; while (Worklist.remove(workItem)) { ShHandle compiler = ShConstructCompiler(FindLanguage(workItem->name), Options); if (compiler == 0) return 0; CompileFile(workItem->name.c_str(), compiler); if (! (Options & EOptionSuppressInfolog)) workItem->results = ShGetInfoLog(compiler); ShDestruct(compiler); } return 0; } // 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; std::string fileName; char** text; // memory owned/managed externally const char* fileNameList[1]; // Need to have a special constructors to adjust the fileNameList, since back end needs a list of ptrs ShaderCompUnit(EShLanguage istage, std::string &ifileName, char** itext) { stage = istage; fileName = ifileName; text = itext; fileNameList[0] = fileName.c_str(); } ShaderCompUnit(const ShaderCompUnit &rhs) { stage = rhs.stage; fileName = rhs.fileName; text = rhs.text; fileNameList[0] = fileName.c_str(); } }; // // 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 compUnits) { // keep track of what to free std::list shaders; EShMessages messages = EShMsgDefault; SetMessageOptions(messages); // // Per-shader processing... // glslang::TProgram& program = *new glslang::TProgram; for (auto it = compUnits.cbegin(); it != compUnits.cend(); ++it) { const auto &compUnit = *it; glslang::TShader* shader = new glslang::TShader(compUnit.stage); shader->setStringsWithLengthsAndNames(compUnit.text, NULL, compUnit.fileNameList, 1); if (entryPointName) // HLSL todo: this needs to be tracked per compUnits shader->setEntryPoint(entryPointName); if (sourceEntryPointName) shader->setSourceEntryPoint(sourceEntryPointName); shader->setShiftSamplerBinding(baseSamplerBinding[compUnit.stage]); shader->setShiftTextureBinding(baseTextureBinding[compUnit.stage]); shader->setShiftImageBinding(baseImageBinding[compUnit.stage]); shader->setShiftUboBinding(baseUboBinding[compUnit.stage]); shader->setFlattenUniformArrays((Options & EOptionFlattenUniformArrays) != 0); shader->setNoStorageFormat((Options & EOptionNoStorageFormat) != 0); if (Options & EOptionAutoMapBindings) shader->setAutoMapBindings(true); shaders.push_back(shader); const int defaultVersion = Options & EOptionDefaultDesktop? 110: 100; if (Options & EOptionOutputPreprocessed) { std::string str; glslang::TShader::ForbidIncluder includer; if (shader->preprocess(&Resources, defaultVersion, ENoProfile, false, false, messages, &str, includer)) { PutsIfNonEmpty(str.c_str()); } else { CompileFailed = true; } StderrIfNonEmpty(shader->getInfoLog()); StderrIfNonEmpty(shader->getInfoDebugLog()); continue; } if (! shader->parse(&Resources, defaultVersion, false, messages)) CompileFailed = true; program.addShader(shader); if (! (Options & EOptionSuppressInfolog) && ! (Options & EOptionMemoryLeakMode)) { PutsIfNonEmpty(compUnit.fileName.c_str()); PutsIfNonEmpty(shader->getInfoLog()); PutsIfNonEmpty(shader->getInfoDebugLog()); } } // // Program-level processing... // // Link if (! (Options & EOptionOutputPreprocessed) && ! program.link(messages)) LinkFailed = true; // Map IO if (Options & EOptionSpv) { if (!program.mapIO()) LinkFailed = true; } // Report if (! (Options & EOptionSuppressInfolog) && ! (Options & EOptionMemoryLeakMode)) { PutsIfNonEmpty(program.getInfoLog()); PutsIfNonEmpty(program.getInfoDebugLog()); } // Reflect if (Options & EOptionDumpReflection) { program.buildReflection(); program.dumpReflection(); } // 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 spirv; std::string warningsErrors; spv::SpvBuildLogger logger; glslang::GlslangToSpv(*program.getIntermediate((EShLanguage)stage), spirv, &logger); // 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)); } else { glslang::OutputSpvBin(spirv, GetBinaryName((EShLanguage)stage)); } if (Options & EOptionHumanReadableSpv) { spv::Disassemble(std::cout, spirv); } } } } } } // 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() { std::vector compUnits; // 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), workItem->name, ReadFileData(workItem->name.c_str()) ); if (! compUnit.text) { usage(); return; } 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(); } for (auto it = compUnits.begin(); it != compUnits.end(); ++it) FreeFileData(it->text); } int C_DECL main(int argc, char* argv[]) { ProcessArguments(argc, argv); if (Options & EOptionDumpConfig) { printf("%s", glslang::GetDefaultTBuiltInResourceString().c_str()); if (Worklist.empty()) return ESuccess; } if (Options & EOptionDumpVersions) { printf("Glslang Version: %s %s\n", GLSLANG_REVISION, GLSLANG_DATE); 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("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()) { usage(); } ProcessConfigFile(); // // 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 || Options & EOptionOutputPreprocessed) { glslang::InitializeProcess(); CompileAndLinkShaderFiles(); glslang::FinalizeProcess(); for (int w = 0; w < NumWorkItems; ++w) { if (Work[w]) { delete Work[w]; } } } else { ShInitialize(); bool printShaderNames = Worklist.size() > 1; if (Options & EOptionMultiThreaded) { const int NumThreads = 16; void* threads[NumThreads]; for (int t = 0; t < NumThreads; ++t) { threads[t] = glslang::OS_CreateThread(&CompileShaders); if (! threads[t]) { printf("Failed to create thread\n"); return EFailThreadCreate; } } glslang::OS_WaitForAllThreads(threads, NumThreads); } else CompileShaders(0); // Print out all the resulting infologs for (int w = 0; w < NumWorkItems; ++w) { if (Work[w]) { if (printShaderNames || Work[w]->results.size() > 0) PutsIfNonEmpty(Work[w]->name.c_str()); PutsIfNonEmpty(Work[w]->results.c_str()); delete Work[w]; } } ShFinalize(); } delete[] Work; if (CompileFailed) return EFailCompile; if (LinkFailed) return EFailLink; return 0; } // // 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 // EShLanguage FindLanguage(const std::string& name, bool parseSuffix) { size_t ext = 0; // Search for a suffix on a filename: e.g, "myfile.frag". If given // the suffix directly, we skip looking the '.' if (parseSuffix) { ext = name.rfind('.'); if (ext == std::string::npos) { usage(); return EShLangVertex; } ++ext; } std::string suffix = name.substr(ext, std::string::npos); if (shaderStageName) suffix = shaderStageName; if (suffix == "vert") return EShLangVertex; else if (suffix == "tesc") return EShLangTessControl; else if (suffix == "tese") return EShLangTessEvaluation; else if (suffix == "geom") return EShLangGeometry; else if (suffix == "frag") return EShLangFragment; else if (suffix == "comp") return EShLangCompute; 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** shaderStrings = ReadFileData(fileName); if (! shaderStrings) { usage(); } int* lengths = new int[NumShaderStrings]; // move to length-based strings, rather than null-terminated strings for (int s = 0; s < NumShaderStrings; ++s) lengths[s] = (int)strlen(shaderStrings[s]); if (! shaderStrings) { CompileFailed = true; return; } EShMessages messages = EShMsgDefault; SetMessageOptions(messages); 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, shaderStrings, NumShaderStrings, nullptr, EShOptNone, &Resources, 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(shaderStrings); if (ret == 0) CompileFailed = true; } // // print usage to stdout // void usage() { printf("Usage: glslangValidator [option]... [file]...\n" "\n" "Where: each 'file' ends in ., where is one of\n" " .conf to provide an optional 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" "\n" "Compilation warnings and errors will be printed to stdout.\n" "\n" "To get other information, use one of the following options:\n" "Each option must be specified separately.\n" " -V create SPIR-V binary, under Vulkan semantics; turns on -l;\n" " default file name is .spv (-o overrides this)\n" " -G create SPIR-V binary, under OpenGL semantics; turns on -l;\n" " default file name is .spv (-o overrides this)\n" " -H print human readable form of SPIR-V; turns on -V\n" " -E print pre-processed GLSL; cannot be used with -l;\n" " errors will appear on stderr.\n" " -S uses explicit stage specified, rather then the file extension.\n" " valid choices are vert, tesc, tese, geom, frag, or comp\n" " -c configuration dump;\n" " creates the default configuration file (redirect to a .conf file)\n" " -C cascading errors; risks crashes from accumulation of error recoveries\n" " -d default to desktop (#version 110) when there is no shader #version\n" " (default is ES version 100)\n" " -D input is HLSL\n" " -e specify entry-point name\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 save binary to , requires a binary option (e.g., -V)\n" " -q dump reflection query database\n" " -r relaxed semantic error-checking mode\n" " -s silent mode\n" " -t multi-threaded mode\n" " -v print version strings\n" " -w suppress warnings (except as required by #extension : warn)\n" " -x save 32-bit hexadecimal numbers as text, requires a binary option (e.g., -V)\n" "\n" " --shift-sampler-binding [stage] num set base binding number for samplers\n" " --ssb [stage] num synonym for --shift-sampler-binding\n" "\n" " --shift-texture-binding [stage] num set base binding number for textures\n" " --stb [stage] num synonym for --shift-texture-binding\n" "\n" " --shift-image-binding [stage] num set base binding number for images (uav)\n" " --sib [stage] num synonym for --shift-image-binding\n" "\n" " --shift-UBO-binding [stage] num set base binding number for UBOs\n" " --sub [stage] num synonym for --shift-UBO-binding\n" "\n" " --auto-map-bindings automatically bind uniform variables without\n" " explicit bindings.\n" " --amb synonym for --auto-map-bindings\n" "\n" " --flatten-uniform-arrays flatten uniform texture & sampler arrays to scalars\n" " --fua synonym for --flatten-uniform-arrays\n" "\n" " --no-storage-format use Unknown image format\n" " --nsf synonym for --no-storage-format\n" "\n" " --source-entrypoint name the given shader source function is renamed to be the entry point given in -e\n" " --sep synonym for --source-entrypoint\n" "\n" " --keep-uncalled don't eliminate uncalled functions when linking\n" " --ku synonym for --keep-uncalled\n" ); exit(EFailUsage); } #if !defined _MSC_VER && !defined MINGW_HAS_SECURE_API #include 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"); int count = 0; const int maxSourceStrings = 5; // for testing splitting shader/tokens across multiple strings char** return_data = (char**)malloc(sizeof(char *) * (maxSourceStrings+1)); // freed in FreeFileData() if (errorCode || in == nullptr) Error("unable to open input file"); while (fgetc(in) != EOF) count++; fseek(in, 0, SEEK_SET); char *fdata = (char*)malloc(count+2); // freed before return of this function if (! fdata) Error("can't allocate memory"); if ((int)fread(fdata, 1, count, in) != count) { free(fdata); Error("can't read input file"); } fdata[count] = '\0'; fclose(in); if (count == 0) { // recover from empty file return_data[0] = (char*)malloc(count+2); // freed in FreeFileData() return_data[0][0]='\0'; NumShaderStrings = 0; free(fdata); return return_data; } else NumShaderStrings = 1; // Set to larger than 1 for testing multiple strings // compute how to split up the file into multiple strings, for testing multiple strings int len = (int)(ceil)((float)count/(float)NumShaderStrings); int ptr_len = 0; int i = 0; while (count > 0) { return_data[i] = (char*)malloc(len + 2); // freed in FreeFileData() memcpy(return_data[i], fdata + ptr_len, len); return_data[i][len] = '\0'; count -= len; ptr_len += len; if (count < len) { if (count == 0) { NumShaderStrings = i + 1; break; } len = count; } ++i; } free(fdata); return return_data; } void FreeFileData(char** data) { for(int i = 0; i < NumShaderStrings; i++) free(data[i]); 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); }