/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmLocalVisualStudio7Generator.h" #include #include #include #include #include #include #include #include #include #include #include #include "cmsys/FStream.hxx" #include "cmComputeLinkInformation.h" #include "cmCustomCommand.h" #include "cmCustomCommandGenerator.h" #include "cmCustomCommandLines.h" #include "cmGeneratedFileStream.h" #include "cmGeneratorExpression.h" #include "cmGeneratorTarget.h" #include "cmGlobalGenerator.h" #include "cmGlobalVisualStudio7Generator.h" #include "cmGlobalVisualStudioGenerator.h" #include "cmList.h" #include "cmListFileCache.h" #include "cmMakefile.h" #include "cmMessageType.h" #include "cmOutputConverter.h" #include "cmPolicies.h" #include "cmSourceFile.h" #include "cmSourceGroup.h" #include "cmStateTypes.h" #include "cmStringAlgorithms.h" #include "cmSystemTools.h" #include "cmTarget.h" #include "cmTargetDepend.h" #include "cmValue.h" #include "cmVsProjectType.h" #include "cmXMLParser.h" #include "cmake.h" static bool cmLVS7G_IsFAT(const char* dir); class cmLocalVisualStudio7GeneratorInternals { public: cmLocalVisualStudio7GeneratorInternals(cmLocalVisualStudio7Generator* e) : LocalGenerator(e) { } using ItemVector = cmComputeLinkInformation::ItemVector; void OutputLibraries(std::ostream& fout, ItemVector const& libs); void OutputObjects(std::ostream& fout, cmGeneratorTarget* t, std::string const& config, const char* isep = nullptr); private: cmLocalVisualStudio7Generator* LocalGenerator; }; class cmLocalVisualStudio7Generator::AllConfigSources { public: std::vector Sources; std::map Index; }; extern cmVS7FlagTable cmLocalVisualStudio7GeneratorFlagTable[]; cmLocalVisualStudio7Generator::cmLocalVisualStudio7Generator( cmGlobalGenerator* gg, cmMakefile* mf) : cmLocalVisualStudioGenerator(gg, mf) , Internal(cm::make_unique(this)) { } cmLocalVisualStudio7Generator::~cmLocalVisualStudio7Generator() = default; void cmLocalVisualStudio7Generator::AddHelperCommands() { // Now create GUIDs for targets const auto& tgts = this->GetGeneratorTargets(); for (const auto& l : tgts) { if (!l->IsInBuildSystem()) { continue; } cmValue path = l->GetProperty("EXTERNAL_MSPROJECT"); if (path) { this->ReadAndStoreExternalGUID(l->GetName(), path->c_str()); } } this->FixGlobalTargets(); } void cmLocalVisualStudio7Generator::Generate() { // Create the project file for each target. for (cmGeneratorTarget* gt : this->GlobalGenerator->GetLocalGeneratorTargetsInOrder(this)) { if (!gt->IsInBuildSystem() || gt->GetProperty("EXTERNAL_MSPROJECT")) { continue; } auto& gtVisited = this->GetSourcesVisited(gt); auto const& deps = this->GlobalGenerator->GetTargetDirectDepends(gt); for (auto const& d : deps) { // Take the union of visited source files of custom commands auto depVisited = this->GetSourcesVisited(d); gtVisited.insert(depVisited.begin(), depVisited.end()); } this->GenerateTarget(gt); } this->WriteStampFiles(); } void cmLocalVisualStudio7Generator::FixGlobalTargets() { // Visual Studio .NET 2003 Service Pack 1 will not run post-build // commands for targets in which no sources are built. Add dummy // rules to force these targets to build. const auto& tgts = this->GetGeneratorTargets(); for (auto const& l : tgts) { if (l->GetType() == cmStateEnums::GLOBAL_TARGET) { cmCustomCommandLines force_commands = cmMakeSingleCommandLine({ "cd", "." }); std::string force = cmStrCat(this->GetCurrentBinaryDirectory(), "/CMakeFiles/", l->GetName(), "_force"); if (cmSourceFile* sf = this->Makefile->GetOrCreateGeneratedSource(force)) { sf->SetProperty("SYMBOLIC", "1"); } auto cc = cm::make_unique(); cc->SetOutputs(force); cc->SetCommandLines(force_commands); cc->SetComment(" "); if (cmSourceFile* file = this->AddCustomCommandToOutput(std::move(cc), true)) { l->AddSource(file->ResolveFullPath()); } } } } void cmLocalVisualStudio7Generator::WriteStampFiles() { // Touch a timestamp file used to determine when the project file is // out of date. std::string stampName = cmStrCat(this->GetCurrentBinaryDirectory(), "/CMakeFiles"); cmSystemTools::MakeDirectory(stampName); stampName += "/generate.stamp"; cmsys::ofstream stamp(stampName.c_str()); stamp << "# CMake generation timestamp file for this directory.\n"; // Create a helper file so CMake can determine when it is run // through the rule created by CreateVCProjBuildRule whether it // really needs to regenerate the project. This file lists its own // dependencies. If any file listed in it is newer than itself then // CMake must rerun. Otherwise the project files are up to date and // the stamp file can just be touched. std::string depName = cmStrCat(stampName, ".depend"); cmsys::ofstream depFile(depName.c_str()); depFile << "# CMake generation dependency list for this directory.\n"; std::vector listFiles(this->Makefile->GetListFiles()); cmake* cm = this->GlobalGenerator->GetCMakeInstance(); if (cm->DoWriteGlobVerifyTarget()) { listFiles.push_back(cm->GetGlobVerifyStamp()); } // Sort the list of input files and remove duplicates. std::sort(listFiles.begin(), listFiles.end(), std::less()); auto new_end = std::unique(listFiles.begin(), listFiles.end()); listFiles.erase(new_end, listFiles.end()); for (const std::string& lf : listFiles) { depFile << lf << "\n"; } } void cmLocalVisualStudio7Generator::GenerateTarget(cmGeneratorTarget* target) { std::string const& lname = target->GetName(); cmGlobalVisualStudioGenerator* gg = static_cast(this->GlobalGenerator); this->FortranProject = gg->TargetIsFortranOnly(target); this->WindowsCEProject = gg->TargetsWindowsCE(); // add to the list of projects target->Target->SetProperty("GENERATOR_FILE_NAME", lname); // create the dsp.cmake file std::string fname; fname = cmStrCat(this->GetCurrentBinaryDirectory(), '/', lname); if (this->FortranProject) { fname += ".vfproj"; } else { fname += ".vcproj"; } // Generate the project file and replace it atomically with // copy-if-different. We use a separate timestamp so that the IDE // does not reload project files unnecessarily. cmGeneratedFileStream fout(fname); fout.SetCopyIfDifferent(true); this->WriteVCProjFile(fout, lname, target); if (fout.Close()) { this->GlobalGenerator->FileReplacedDuringGenerate(fname); } this->WindowsCEProject = false; this->FortranProject = false; } cmSourceFile* cmLocalVisualStudio7Generator::CreateVCProjBuildRule() { if (this->GlobalGenerator->GlobalSettingIsOn( "CMAKE_SUPPRESS_REGENERATION")) { return nullptr; } std::string makefileIn = cmStrCat(this->GetCurrentSourceDirectory(), "/CMakeLists.txt"); if (cmSourceFile* file = this->Makefile->GetSource(makefileIn)) { if (file->GetCustomCommand()) { return file; } } if (!cmSystemTools::FileExists(makefileIn)) { return nullptr; } std::vector listFiles = this->Makefile->GetListFiles(); cmake* cm = this->GlobalGenerator->GetCMakeInstance(); if (cm->DoWriteGlobVerifyTarget()) { listFiles.push_back(cm->GetGlobVerifyStamp()); } // Sort the list of input files and remove duplicates. std::sort(listFiles.begin(), listFiles.end(), std::less()); auto new_end = std::unique(listFiles.begin(), listFiles.end()); listFiles.erase(new_end, listFiles.end()); std::string argS = cmStrCat("-S", this->GetSourceDirectory()); std::string argB = cmStrCat("-B", this->GetBinaryDirectory()); std::string stampName = cmStrCat(this->GetCurrentBinaryDirectory(), "/CMakeFiles/generate.stamp"); cmCustomCommandLines commandLines = cmMakeSingleCommandLine({ cmSystemTools::GetCMakeCommand(), argS, argB, "--check-stamp-file", stampName }); if (cm->GetIgnoreWarningAsError()) { commandLines[0].emplace_back("--compile-no-warning-as-error"); } std::string comment = cmStrCat("Building Custom Rule ", makefileIn); auto cc = cm::make_unique(); cc->SetOutputs(stampName); cc->SetMainDependency(makefileIn); cc->SetDepends(listFiles); cc->SetCommandLines(commandLines); cc->SetComment(comment.c_str()); cc->SetEscapeOldStyle(false); cc->SetStdPipesUTF8(true); cc->SetUsesTerminal(true); this->AddCustomCommandToOutput(std::move(cc), true); if (cmSourceFile* file = this->Makefile->GetSource(makefileIn)) { // Finalize the source file path now since we're adding this after // the generator validated all project-named sources. file->ResolveFullPath(); return file; } cmSystemTools::Error(cmStrCat("Error adding rule for ", makefileIn)); return nullptr; } void cmLocalVisualStudio7Generator::WriteConfigurations( std::ostream& fout, std::vector const& configs, const std::string& libName, cmGeneratorTarget* target) { fout << "\t\n"; for (std::string const& config : configs) { this->WriteConfiguration(fout, config, libName, target); } fout << "\t\n"; } cmVS7FlagTable cmLocalVisualStudio7GeneratorFortranFlagTable[] = { { "Preprocess", "fpp", "Run Preprocessor on files", "preprocessYes", 0 }, { "Preprocess", "nofpp", "Run Preprocessor on files", "preprocessNo", 0 }, { "SuppressStartupBanner", "nologo", "SuppressStartupBanner", "true", 0 }, { "SourceFileFormat", "fixed", "Use Fixed Format", "fileFormatFixed", 0 }, { "SourceFileFormat", "free", "Use Free Format", "fileFormatFree", 0 }, { "DebugInformationFormat", "debug:full", "full debug", "debugEnabled", 0 }, { "DebugInformationFormat", "debug:minimal", "line numbers", "debugLineInfoOnly", 0 }, { "Optimization", "Od", "disable optimization", "optimizeDisabled", 0 }, { "Optimization", "O1", "min space", "optimizeMinSpace", 0 }, { "Optimization", "O3", "full optimize", "optimizeFull", 0 }, { "GlobalOptimizations", "Og", "global optimize", "true", 0 }, { "InterproceduralOptimizations", "Qipo", "Interprocedural optimization across multiple files", "ipoMultiFile", 0 }, { "InlineFunctionExpansion", "Ob0", "", "expandDisable", 0 }, { "InlineFunctionExpansion", "Ob1", "", "expandOnlyInline", 0 }, { "FavorSizeOrSpeed", "Os", "", "favorSize", 0 }, { "OmitFramePointers", "Oy-", "", "false", 0 }, { "OptimizeForProcessor", "GB", "", "procOptimizeBlended", 0 }, { "OptimizeForProcessor", "G5", "", "procOptimizePentium", 0 }, { "OptimizeForProcessor", "G6", "", "procOptimizePentiumProThruIII", 0 }, { "UseProcessorExtensions", "QzxK", "", "codeForStreamingSIMD", 0 }, { "OptimizeForProcessor", "QaxN", "", "codeForPentium4", 0 }, { "OptimizeForProcessor", "QaxB", "", "codeForPentiumM", 0 }, { "OptimizeForProcessor", "QaxP", "", "codeForCodeNamedPrescott", 0 }, { "OptimizeForProcessor", "QaxT", "", "codeForCore2Duo", 0 }, { "OptimizeForProcessor", "QxK", "", "codeExclusivelyStreamingSIMD", 0 }, { "OptimizeForProcessor", "QxN", "", "codeExclusivelyPentium4", 0 }, { "OptimizeForProcessor", "QxB", "", "codeExclusivelyPentiumM", 0 }, { "OptimizeForProcessor", "QxP", "", "codeExclusivelyCodeNamedPrescott", 0 }, { "OptimizeForProcessor", "QxT", "", "codeExclusivelyCore2Duo", 0 }, { "OptimizeForProcessor", "QxO", "", "codeExclusivelyCore2StreamingSIMD", 0 }, { "OptimizeForProcessor", "QxS", "", "codeExclusivelyCore2StreamingSIMD4", 0 }, { "OpenMP", "Qopenmp", "", "OpenMPParallelCode", 0 }, { "OpenMP", "Qopenmp-stubs", "", "OpenMPSequentialCode", 0 }, { "Traceback", "traceback", "", "true", 0 }, { "Traceback", "notraceback", "", "false", 0 }, { "FloatingPointExceptionHandling", "fpe:0", "", "fpe0", 0 }, { "FloatingPointExceptionHandling", "fpe:1", "", "fpe1", 0 }, { "FloatingPointExceptionHandling", "fpe:3", "", "fpe3", 0 }, { "MultiProcessorCompilation", "MP", "", "true", cmVS7FlagTable::UserValueIgnored | cmVS7FlagTable::Continue }, { "ProcessorNumber", "MP", "Multi-processor Compilation", "", cmVS7FlagTable::UserValueRequired }, { "ModulePath", "module:", "", "", cmVS7FlagTable::UserValueRequired }, { "LoopUnrolling", "Qunroll:", "", "", cmVS7FlagTable::UserValueRequired }, { "AutoParallelThreshold", "Qpar-threshold:", "", "", cmVS7FlagTable::UserValueRequired }, { "HeapArrays", "heap-arrays:", "", "", cmVS7FlagTable::UserValueRequired }, { "ObjectText", "bintext:", "", "", cmVS7FlagTable::UserValueRequired }, { "Parallelization", "Qparallel", "", "true", 0 }, { "PrefetchInsertion", "Qprefetch-", "", "false", 0 }, { "BufferedIO", "assume:buffered_io", "", "true", 0 }, { "CallingConvention", "iface:stdcall", "", "callConventionStdCall", 0 }, { "CallingConvention", "iface:cref", "", "callConventionCRef", 0 }, { "CallingConvention", "iface:stdref", "", "callConventionStdRef", 0 }, { "CallingConvention", "iface:stdcall", "", "callConventionStdCall", 0 }, { "CallingConvention", "iface:cvf", "", "callConventionCVF", 0 }, { "EnableRecursion", "recursive", "", "true", 0 }, { "ReentrantCode", "reentrancy", "", "true", 0 }, // done up to Language { "", "", "", "", 0 } }; // fill the table here currently the comment field is not used for // anything other than documentation NOTE: Make sure the longer // commandFlag comes FIRST! cmVS7FlagTable cmLocalVisualStudio7GeneratorFlagTable[] = { // option flags (some flags map to the same option) { "BasicRuntimeChecks", "GZ", "Stack frame checks", "1", 0 }, { "BasicRuntimeChecks", "RTCsu", "Both stack and uninitialized checks", "3", 0 }, { "BasicRuntimeChecks", "RTCs", "Stack frame checks", "1", 0 }, { "BasicRuntimeChecks", "RTCu", "Uninitialized Variables ", "2", 0 }, { "BasicRuntimeChecks", "RTC1", "Both stack and uninitialized checks", "3", 0 }, { "DebugInformationFormat", "Z7", "debug format", "1", 0 }, { "DebugInformationFormat", "Zd", "debug format", "2", 0 }, { "DebugInformationFormat", "Zi", "debug format", "3", 0 }, { "DebugInformationFormat", "ZI", "debug format", "4", 0 }, { "EnableEnhancedInstructionSet", "arch:SSE2", "Use sse2 instructions", "2", 0 }, { "EnableEnhancedInstructionSet", "arch:SSE", "Use sse instructions", "1", 0 }, { "FloatingPointModel", "fp:precise", "Use precise floating point model", "0", 0 }, { "FloatingPointModel", "fp:strict", "Use strict floating point model", "1", 0 }, { "FloatingPointModel", "fp:fast", "Use fast floating point model", "2", 0 }, { "FavorSizeOrSpeed", "Ot", "Favor fast code", "1", 0 }, { "FavorSizeOrSpeed", "Os", "Favor small code", "2", 0 }, { "CompileAs", "TC", "Compile as c code", "1", 0 }, { "CompileAs", "TP", "Compile as c++ code", "2", 0 }, { "Optimization", "Od", "Non Debug", "0", 0 }, { "Optimization", "O1", "Min Size", "1", 0 }, { "Optimization", "O2", "Max Speed", "2", 0 }, { "Optimization", "Ox", "Max Optimization", "3", 0 }, { "OptimizeForProcessor", "GB", "Blended processor mode", "0", 0 }, { "OptimizeForProcessor", "G5", "Pentium", "1", 0 }, { "OptimizeForProcessor", "G6", "PPro PII PIII", "2", 0 }, { "OptimizeForProcessor", "G7", "Pentium 4 or Athlon", "3", 0 }, { "InlineFunctionExpansion", "Ob0", "no inlines", "0", 0 }, { "InlineFunctionExpansion", "Ob1", "when inline keyword", "1", 0 }, { "InlineFunctionExpansion", "Ob2", "any time you can inline", "2", 0 }, { "RuntimeLibrary", "MTd", "Multithreaded debug", "1", 0 }, { "RuntimeLibrary", "MT", "Multithreaded", "0", 0 }, { "RuntimeLibrary", "MDd", "Multithreaded dll debug", "3", 0 }, { "RuntimeLibrary", "MD", "Multithreaded dll", "2", 0 }, { "RuntimeLibrary", "MLd", "Single Thread debug", "5", 0 }, { "RuntimeLibrary", "ML", "Single Thread", "4", 0 }, { "StructMemberAlignment", "Zp16", "struct align 16 byte ", "5", 0 }, { "StructMemberAlignment", "Zp1", "struct align 1 byte ", "1", 0 }, { "StructMemberAlignment", "Zp2", "struct align 2 byte ", "2", 0 }, { "StructMemberAlignment", "Zp4", "struct align 4 byte ", "3", 0 }, { "StructMemberAlignment", "Zp8", "struct align 8 byte ", "4", 0 }, { "WarningLevel", "W0", "Warning level", "0", 0 }, { "WarningLevel", "W1", "Warning level", "1", 0 }, { "WarningLevel", "W2", "Warning level", "2", 0 }, { "WarningLevel", "W3", "Warning level", "3", 0 }, { "WarningLevel", "W4", "Warning level", "4", 0 }, { "DisableSpecificWarnings", "wd", "Disable specific warnings", "", cmVS7FlagTable::UserValue | cmVS7FlagTable::SemicolonAppendable }, // Precompiled header and related options. Note that the // UsePrecompiledHeader entries are marked as "Continue" so that the // corresponding PrecompiledHeaderThrough entry can be found. { "UsePrecompiledHeader", "Yc", "Create Precompiled Header", "1", cmVS7FlagTable::UserValueIgnored | cmVS7FlagTable::Continue }, { "PrecompiledHeaderThrough", "Yc", "Precompiled Header Name", "", cmVS7FlagTable::UserValueRequired }, { "UsePrecompiledHeader", "Y-", "Don't use precompiled header", "0", 0 }, { "PrecompiledHeaderFile", "Fp", "Generated Precompiled Header", "", cmVS7FlagTable::UserValue }, // The YX and Yu options are in a per-global-generator table because // their values differ based on the VS IDE version. { "ForcedIncludeFiles", "FI", "Forced include files", "", cmVS7FlagTable::UserValueRequired | cmVS7FlagTable::SemicolonAppendable }, { "AssemblerListingLocation", "Fa", "ASM List Location", "", cmVS7FlagTable::UserValue }, { "ProgramDataBaseFileName", "Fd", "Program Database File Name", "", cmVS7FlagTable::UserValue }, // boolean flags { "BufferSecurityCheck", "GS", "Buffer security check", "true", 0 }, { "BufferSecurityCheck", "GS-", "Turn off Buffer security check", "false", 0 }, { "Detect64BitPortabilityProblems", "Wp64", "Detect 64-bit Portability Problems", "true", 0 }, { "EnableFiberSafeOptimizations", "GT", "Enable Fiber-safe Optimizations", "true", 0 }, { "EnableFunctionLevelLinking", "Gy", "EnableFunctionLevelLinking", "true", 0 }, { "EnableIntrinsicFunctions", "Oi", "EnableIntrinsicFunctions", "true", 0 }, { "GlobalOptimizations", "Og", "Global Optimize", "true", 0 }, { "ImproveFloatingPointConsistency", "Op", "ImproveFloatingPointConsistency", "true", 0 }, { "MinimalRebuild", "Gm", "minimal rebuild", "true", 0 }, { "OmitFramePointers", "Oy", "OmitFramePointers", "true", 0 }, { "OptimizeForWindowsApplication", "GA", "Optimize for windows", "true", 0 }, { "RuntimeTypeInfo", "GR", "Turn on Run time type information for c++", "true", 0 }, { "RuntimeTypeInfo", "GR-", "Turn off Run time type information for c++", "false", 0 }, { "SmallerTypeCheck", "RTCc", "smaller type check", "true", 0 }, { "SuppressStartupBanner", "nologo", "SuppressStartupBanner", "true", 0 }, { "WholeProgramOptimization", "GL", "Enables whole program optimization", "true", 0 }, { "WholeProgramOptimization", "GL-", "Disables whole program optimization", "false", 0 }, { "WarnAsError", "WX", "Treat warnings as errors", "true", 0 }, { "BrowseInformation", "FR", "Generate browse information", "1", 0 }, { "StringPooling", "GF", "Enable StringPooling", "true", 0 }, { "", "", "", "", 0 } }; cmVS7FlagTable cmLocalVisualStudio7GeneratorLinkFlagTable[] = { // option flags (some flags map to the same option) { "GenerateManifest", "MANIFEST:NO", "disable manifest generation", "false", 0 }, { "GenerateManifest", "MANIFEST", "enable manifest generation", "true", 0 }, { "LinkIncremental", "INCREMENTAL:NO", "link incremental", "1", 0 }, { "LinkIncremental", "INCREMENTAL:YES", "link incremental", "2", 0 }, { "CLRUnmanagedCodeCheck", "CLRUNMANAGEDCODECHECK:NO", "", "false", 0 }, { "CLRUnmanagedCodeCheck", "CLRUNMANAGEDCODECHECK", "", "true", 0 }, { "DataExecutionPrevention", "NXCOMPAT:NO", "Not known to work with Windows Data Execution Prevention", "1", 0 }, { "DataExecutionPrevention", "NXCOMPAT", "Known to work with Windows Data Execution Prevention", "2", 0 }, { "DelaySign", "DELAYSIGN:NO", "", "false", 0 }, { "DelaySign", "DELAYSIGN", "", "true", 0 }, { "EntryPointSymbol", "ENTRY:", "sets the starting address", "", cmVS7FlagTable::UserValue }, { "IgnoreDefaultLibraryNames", "NODEFAULTLIB:", "default libs to ignore", "", cmVS7FlagTable::UserValue | cmVS7FlagTable::SemicolonAppendable }, { "IgnoreAllDefaultLibraries", "NODEFAULTLIB", "ignore all default libs", "true", 0 }, { "FixedBaseAddress", "FIXED:NO", "Generate a relocation section", "1", 0 }, { "FixedBaseAddress", "FIXED", "Image must be loaded at a fixed address", "2", 0 }, { "EnableCOMDATFolding", "OPT:NOICF", "Do not remove redundant COMDATs", "1", 0 }, { "EnableCOMDATFolding", "OPT:ICF", "Remove redundant COMDATs", "2", 0 }, { "ResourceOnlyDLL", "NOENTRY", "Create DLL with no entry point", "true", 0 }, { "OptimizeReferences", "OPT:NOREF", "Keep unreferenced data", "1", 0 }, { "OptimizeReferences", "OPT:REF", "Eliminate unreferenced data", "2", 0 }, { "Profile", "PROFILE", "", "true", 0 }, { "RandomizedBaseAddress", "DYNAMICBASE:NO", "Image may not be rebased at load-time", "1", 0 }, { "RandomizedBaseAddress", "DYNAMICBASE", "Image may be rebased at load-time", "2", 0 }, { "SetChecksum", "RELEASE", "Enable setting checksum in header", "true", 0 }, { "SupportUnloadOfDelayLoadedDLL", "DELAY:UNLOAD", "", "true", 0 }, { "TargetMachine", "MACHINE:I386", "Machine x86", "1", 0 }, { "TargetMachine", "MACHINE:X86", "Machine x86", "1", 0 }, { "TargetMachine", "MACHINE:AM33", "Machine AM33", "2", 0 }, { "TargetMachine", "MACHINE:ARM", "Machine ARM", "3", 0 }, { "TargetMachine", "MACHINE:EBC", "Machine EBC", "4", 0 }, { "TargetMachine", "MACHINE:IA64", "Machine IA64", "5", 0 }, { "TargetMachine", "MACHINE:M32R", "Machine M32R", "6", 0 }, { "TargetMachine", "MACHINE:MIPS", "Machine MIPS", "7", 0 }, { "TargetMachine", "MACHINE:MIPS16", "Machine MIPS16", "8", 0 }, { "TargetMachine", "MACHINE:MIPSFPU)", "Machine MIPSFPU", "9", 0 }, { "TargetMachine", "MACHINE:MIPSFPU16", "Machine MIPSFPU16", "10", 0 }, { "TargetMachine", "MACHINE:MIPSR41XX", "Machine MIPSR41XX", "11", 0 }, { "TargetMachine", "MACHINE:SH3", "Machine SH3", "12", 0 }, { "TargetMachine", "MACHINE:SH3DSP", "Machine SH3DSP", "13", 0 }, { "TargetMachine", "MACHINE:SH4", "Machine SH4", "14", 0 }, { "TargetMachine", "MACHINE:SH5", "Machine SH5", "15", 0 }, { "TargetMachine", "MACHINE:THUMB", "Machine THUMB", "16", 0 }, { "TargetMachine", "MACHINE:X64", "Machine x64", "17", 0 }, { "TargetMachine", "MACHINE:ARM64", "Machine ARM64", "18", 0 }, { "TurnOffAssemblyGeneration", "NOASSEMBLY", "No assembly even if CLR information is present in objects.", "true", 0 }, { "ModuleDefinitionFile", "DEF:", "add an export def file", "", cmVS7FlagTable::UserValue }, { "GenerateMapFile", "MAP", "enable generation of map file", "true", 0 }, { "", "", "", "", 0 } }; cmVS7FlagTable cmLocalVisualStudio7GeneratorFortranLinkFlagTable[] = { { "LinkIncremental", "INCREMENTAL:NO", "link incremental", "linkIncrementalNo", 0 }, { "LinkIncremental", "INCREMENTAL:YES", "link incremental", "linkIncrementalYes", 0 }, { "EnableCOMDATFolding", "OPT:NOICF", "Do not remove redundant COMDATs", "optNoFolding", 0 }, { "EnableCOMDATFolding", "OPT:ICF", "Remove redundant COMDATs", "optFolding", 0 }, { "OptimizeReferences", "OPT:NOREF", "Keep unreferenced data", "optNoReferences", 0 }, { "OptimizeReferences", "OPT:REF", "Eliminate unreferenced data", "optReferences", 0 }, { "", "", "", "", 0 } }; // Helper class to write build event elements. class cmLocalVisualStudio7Generator::EventWriter { public: EventWriter(cmLocalVisualStudio7Generator* lg, std::string config, std::ostream& os) : LG(lg) , Config(std::move(config)) , Stream(os) { } void Start(const char* tool) { this->First = true; this->Stream << "\t\t\tFirst) { std::string finishScript = this->LG->FinishConstructScript(VsProjectType::vcxproj); this->Stream << this->LG->EscapeForXML(finishScript) << "\""; } this->Stream << "/>\n"; } void Write(std::vector const& ccs) { for (cmCustomCommand const& command : ccs) { this->Write(command); } } void Write(cmCustomCommand const& cc) { cmCustomCommandGenerator ccg(cc, this->Config, this->LG); if (this->First) { if (cm::optional comment = ccg.GetComment()) { this->Stream << "\nDescription=\"" << this->LG->EscapeForXML(*comment) << "\""; } this->Stream << "\nCommandLine=\""; this->First = false; } else { this->Stream << this->LG->EscapeForXML("\n"); } std::string script = this->LG->ConstructScript(ccg); this->Stream << this->LG->EscapeForXML(script); } private: cmLocalVisualStudio7Generator* LG; std::string Config; std::ostream& Stream; bool First = true; }; void cmLocalVisualStudio7Generator::WriteConfiguration( std::ostream& fout, const std::string& configName, const std::string& libName, cmGeneratorTarget* target) { std::string mfcFlag; if (cmValue p = this->Makefile->GetDefinition("CMAKE_MFC_FLAG")) { mfcFlag = cmGeneratorExpression::Evaluate(*p, this, configName); } else { mfcFlag = "0"; } cmGlobalVisualStudio7Generator* gg = static_cast(this->GlobalGenerator); fout << "\t\tGetPlatformName() << "\"\n"; // This is an internal type to Visual Studio, it seems that: // 4 == static library // 2 == dll // 1 == executable // 10 == utility const char* configType = "10"; const char* projectType = nullptr; bool targetBuilds = true; switch (target->GetType()) { case cmStateEnums::OBJECT_LIBRARY: targetBuilds = false; // no manifest tool for object library CM_FALLTHROUGH; case cmStateEnums::STATIC_LIBRARY: projectType = "typeStaticLibrary"; configType = "4"; break; case cmStateEnums::SHARED_LIBRARY: case cmStateEnums::MODULE_LIBRARY: projectType = "typeDynamicLibrary"; configType = "2"; break; case cmStateEnums::EXECUTABLE: configType = "1"; break; case cmStateEnums::UTILITY: case cmStateEnums::GLOBAL_TARGET: case cmStateEnums::INTERFACE_LIBRARY: configType = "10"; CM_FALLTHROUGH; case cmStateEnums::UNKNOWN_LIBRARY: targetBuilds = false; break; } if (this->FortranProject && projectType) { configType = projectType; } std::string flags; std::string langForClCompile; if (target->GetType() <= cmStateEnums::OBJECT_LIBRARY) { const std::string& linkLanguage = (this->FortranProject ? std::string("Fortran") : target->GetLinkerLanguage(configName)); if (linkLanguage.empty()) { cmSystemTools::Error( cmStrCat("CMake can not determine linker language for target: ", target->GetName())); return; } langForClCompile = linkLanguage; if (langForClCompile == "C" || langForClCompile == "CXX" || langForClCompile == "Fortran") { this->AddLanguageFlags(flags, target, cmBuildStep::Compile, langForClCompile, configName); } // set the correct language if (linkLanguage == "C") { flags += " /TC "; } if (linkLanguage == "CXX") { flags += " /TP "; } // Add the target-specific flags. this->AddCompileOptions(flags, target, langForClCompile, configName); // Check IPO related warning/error. if (target->IsIPOEnabled(linkLanguage, configName)) { if (this->FortranProject) { this->AppendCompileOptions(flags, this->Makefile->GetSafeDefinition( "CMAKE_Fortran_COMPILE_OPTIONS_IPO")); } } } if (this->FortranProject) { switch (cmOutputConverter::GetFortranFormat( target->GetSafeProperty("Fortran_FORMAT"))) { case cmOutputConverter::FortranFormatFixed: flags += " -fixed"; break; case cmOutputConverter::FortranFormatFree: flags += " -free"; break; default: break; } switch (cmOutputConverter::GetFortranPreprocess( target->GetSafeProperty("Fortran_PREPROCESS"))) { case cmOutputConverter::FortranPreprocess::Needed: flags += " -fpp"; break; case cmOutputConverter::FortranPreprocess::NotNeeded: flags += " -nofpp"; break; default: break; } } // Get preprocessor definitions for this directory. std::string defineFlags = this->Makefile->GetDefineFlags(); Options::Tool t = Options::Compiler; cmVS7FlagTable const* table = cmLocalVisualStudio7GeneratorFlagTable; if (this->FortranProject) { t = Options::FortranCompiler; table = cmLocalVisualStudio7GeneratorFortranFlagTable; } Options targetOptions(this, t, table, gg->ExtraFlagTable); targetOptions.FixExceptionHandlingDefault(); targetOptions.AddFlag("AssemblerListingLocation", "$(IntDir)\\"); targetOptions.Parse(flags); targetOptions.Parse(defineFlags); targetOptions.ParseFinish(); if (!langForClCompile.empty()) { std::vector targetDefines; target->GetCompileDefinitions(targetDefines, configName, langForClCompile); targetOptions.AddDefines(targetDefines); std::vector targetIncludes; this->GetIncludeDirectories(targetIncludes, target, langForClCompile, configName); targetOptions.AddIncludes(targetIncludes); } targetOptions.SetVerboseMakefile( this->Makefile->IsOn("CMAKE_VERBOSE_MAKEFILE")); // Add a definition for the configuration name. std::string configDefine = cmStrCat("CMAKE_INTDIR=\"", configName, '"'); targetOptions.AddDefine(configDefine); // Add the export symbol definition for shared library objects. if (const std::string* exportMacro = target->GetExportMacro()) { targetOptions.AddDefine(*exportMacro); } // The intermediate directory name consists of a directory for the // target and a subdirectory for the configuration name. std::string intermediateDir = cmStrCat(this->GetTargetDirectory(target), '/', configName); if (target->GetType() < cmStateEnums::UTILITY) { std::string const& outDir = target->GetType() == cmStateEnums::OBJECT_LIBRARY ? intermediateDir : target->GetDirectory(configName); /* clang-format off */ fout << "\t\t\tOutputDirectory=\"" << this->ConvertToXMLOutputPathSingle(outDir) << "\"\n"; /* clang-format on */ } /* clang-format off */ fout << "\t\t\tIntermediateDirectory=\"" << this->ConvertToXMLOutputPath(intermediateDir) << "\"\n" << "\t\t\tConfigurationType=\"" << configType << "\"\n" << "\t\t\tUseOfMFC=\"" << mfcFlag << "\"\n" << "\t\t\tATLMinimizesCRunTimeLibraryUsage=\"false\"\n"; /* clang-format on */ if (this->FortranProject) { // Intel Fortran >= 15.0 uses TargetName property. std::string const targetNameFull = target->GetFullName(configName); std::string const targetName = cmSystemTools::GetFilenameWithoutLastExtension(targetNameFull); std::string const targetExt = target->GetType() == cmStateEnums::OBJECT_LIBRARY ? ".lib" : cmSystemTools::GetFilenameLastExtension(targetNameFull); if (cm::optional fortran = gg->GetPlatformToolsetFortran()) { fout << "\t\t\tUseCompiler=\"" << *fortran << "Compiler\"\n"; } /* clang-format off */ fout << "\t\t\tTargetName=\"" << this->EscapeForXML(targetName) << "\"\n" "\t\t\tTargetExt=\"" << this->EscapeForXML(targetExt) << "\"\n" ; /* clang-format on */ } // If unicode is enabled change the character set to unicode, if not // then default to MBCS. if (targetOptions.UsingUnicode()) { fout << "\t\t\tCharacterSet=\"1\">\n"; } else if (targetOptions.UsingSBCS()) { fout << "\t\t\tCharacterSet=\"0\">\n"; } else { fout << "\t\t\tCharacterSet=\"2\">\n"; } const char* tool = "VCCLCompilerTool"; if (this->FortranProject) { tool = "VFFortranCompilerTool"; } fout << "\t\t\tFortranProject) { cmValue target_mod_dir = target->GetProperty("Fortran_MODULE_DIRECTORY"); std::string modDir; if (target_mod_dir) { modDir = this->MaybeRelativeToCurBinDir(*target_mod_dir); } else { modDir = "."; } fout << "\t\t\t\tModulePath=\"" << this->ConvertToXMLOutputPath(modDir) << "\\$(ConfigurationName)\"\n"; } targetOptions.OutputAdditionalIncludeDirectories( fout, 4, this->FortranProject ? "Fortran" : langForClCompile); targetOptions.OutputFlagMap(fout, 4); targetOptions.OutputPreprocessorDefinitions(fout, 4, langForClCompile); fout << "\t\t\t\tObjectFile=\"$(IntDir)\\\"\n"; if (target->GetType() <= cmStateEnums::OBJECT_LIBRARY) { // Specify the compiler program database file if configured. std::string pdb = target->GetCompilePDBPath(configName); if (!pdb.empty()) { fout << "\t\t\t\tProgramDataBaseFileName=\"" << this->ConvertToXMLOutputPathSingle(pdb) << "\"\n"; } } fout << "/>\n"; // end of IsMarmasmEnabled() && !this->FortranProject) { Options marmasmOptions(this, Options::MarmasmCompiler, nullptr, nullptr); /* clang-format off */ fout << "\t\t\t\n"; /* clang-format on */ } if (gg->IsMasmEnabled() && !this->FortranProject) { Options masmOptions(this, Options::MasmCompiler, nullptr, nullptr); /* clang-format off */ fout << "\t\t\t\n"; /* clang-format on */ } tool = "VCCustomBuildTool"; if (this->FortranProject) { tool = "VFCustomBuildTool"; } fout << "\t\t\t\n"; tool = "VCResourceCompilerTool"; if (this->FortranProject) { tool = "VFResourceCompilerTool"; } fout << "\t\t\t\n"; tool = "VCMIDLTool"; if (this->FortranProject) { tool = "VFMIDLTool"; } fout << "\t\t\tGetPlatformName() == "x64") { fout << "\t\t\t\tTargetEnvironment=\"3\"\n"; } else if (gg->GetPlatformName() == "ia64") { fout << "\t\t\t\tTargetEnvironment=\"2\"\n"; } else { fout << "\t\t\t\tTargetEnvironment=\"1\"\n"; } fout << "\t\t\t\tGenerateStublessProxies=\"true\"\n"; fout << "\t\t\t\tTypeLibraryName=\"$(InputName).tlb\"\n"; fout << "\t\t\t\tOutputDirectory=\"$(IntDir)\"\n"; fout << "\t\t\t\tHeaderFileName=\"$(InputName).h\"\n"; fout << "\t\t\t\tDLLDataFileName=\"\"\n"; fout << "\t\t\t\tInterfaceIdentifierFileName=\"$(InputName)_i.c\"\n"; fout << "\t\t\t\tProxyFileName=\"$(InputName)_p.c\"/>\n"; // end of FortranProject) { manifestTool = "VFManifestTool"; } /* clang-format off */ fout << "\t\t\t manifest_srcs; target->GetManifests(manifest_srcs, configName); if (!manifest_srcs.empty()) { fout << "\n\t\t\t\tAdditionalManifestFiles=\""; for (cmSourceFile const* manifest : manifest_srcs) { std::string m = manifest->GetFullPath(); fout << this->ConvertToXMLOutputPath(m) << ";"; } fout << "\""; } // Check if we need the FAT32 workaround. // Check the filesystem type where the target will be written. if (cmLVS7G_IsFAT(target->GetDirectory(configName).c_str())) { // Add a flag telling the manifest tool to use a workaround // for FAT32 file systems, which can cause an empty manifest // to be embedded into the resulting executable. See CMake // bug #2617. fout << "\n\t\t\t\tUseFAT32Workaround=\"true\""; } fout << "/>\n"; } this->OutputTargetRules(fout, configName, target, libName); this->OutputBuildTool(fout, configName, target, targetOptions); this->OutputDeploymentDebuggerTool(fout, configName, target); fout << "\t\t\n"; } std::string cmLocalVisualStudio7Generator::GetBuildTypeLinkerFlags( std::string const& rootLinkerFlags, const std::string& configName) { std::string configTypeUpper = cmSystemTools::UpperCase(configName); std::string extraLinkOptionsBuildTypeDef = cmStrCat(rootLinkerFlags, '_', configTypeUpper); const std::string& extraLinkOptionsBuildType = this->Makefile->GetRequiredDefinition(extraLinkOptionsBuildTypeDef); return extraLinkOptionsBuildType; } void cmLocalVisualStudio7Generator::OutputBuildTool( std::ostream& fout, const std::string& configName, cmGeneratorTarget* target, const Options& targetOptions) { cmGlobalVisualStudio7Generator* gg = static_cast(this->GlobalGenerator); std::string temp; std::string extraLinkOptions; if (target->GetType() == cmStateEnums::EXECUTABLE) { extraLinkOptions = cmStrCat( this->Makefile->GetRequiredDefinition("CMAKE_EXE_LINKER_FLAGS"), ' ', GetBuildTypeLinkerFlags("CMAKE_EXE_LINKER_FLAGS", configName)); } if (target->GetType() == cmStateEnums::SHARED_LIBRARY) { extraLinkOptions = cmStrCat( this->Makefile->GetRequiredDefinition("CMAKE_SHARED_LINKER_FLAGS"), ' ', GetBuildTypeLinkerFlags("CMAKE_SHARED_LINKER_FLAGS", configName)); } if (target->GetType() == cmStateEnums::MODULE_LIBRARY) { extraLinkOptions = cmStrCat( this->Makefile->GetRequiredDefinition("CMAKE_MODULE_LINKER_FLAGS"), ' ', GetBuildTypeLinkerFlags("CMAKE_MODULE_LINKER_FLAGS", configName)); } cmValue targetLinkFlags = target->GetProperty("LINK_FLAGS"); if (targetLinkFlags) { extraLinkOptions += ' '; extraLinkOptions += *targetLinkFlags; } std::string configTypeUpper = cmSystemTools::UpperCase(configName); std::string linkFlagsConfig = cmStrCat("LINK_FLAGS_", configTypeUpper); targetLinkFlags = target->GetProperty(linkFlagsConfig); if (targetLinkFlags) { extraLinkOptions += ' '; extraLinkOptions += *targetLinkFlags; } std::vector opts; target->GetLinkOptions(opts, configName, target->GetLinkerLanguage(configName)); // LINK_OPTIONS are escaped. this->AppendCompileOptions(extraLinkOptions, opts); Options linkOptions(this, Options::Linker); if (this->FortranProject) { linkOptions.AddTable(cmLocalVisualStudio7GeneratorFortranLinkFlagTable); } linkOptions.AddTable(cmLocalVisualStudio7GeneratorLinkFlagTable); linkOptions.Parse(extraLinkOptions); cmGeneratorTarget::ModuleDefinitionInfo const* mdi = target->GetModuleDefinitionInfo(configName); if (mdi && !mdi->DefFile.empty()) { std::string defFile = this->ConvertToOutputFormat(mdi->DefFile, cmOutputConverter::SHELL); linkOptions.AddFlag("ModuleDefinitionFile", defFile); } switch (target->GetType()) { case cmStateEnums::UNKNOWN_LIBRARY: break; case cmStateEnums::OBJECT_LIBRARY: { std::string libpath = cmStrCat(this->GetTargetDirectory(target), '/', configName, '/', target->GetName(), ".lib"); const char* tool = this->FortranProject ? "VFLibrarianTool" : "VCLibrarianTool"; fout << "\t\t\tConvertToXMLOutputPathSingle(libpath) << "\"/>\n"; break; } case cmStateEnums::STATIC_LIBRARY: { std::string targetNameFull = target->GetFullName(configName); std::string libpath = cmStrCat(target->GetDirectory(configName), '/', targetNameFull); const char* tool = "VCLibrarianTool"; if (this->FortranProject) { tool = "VFLibrarianTool"; } fout << "\t\t\tFortranProject) { std::ostringstream libdeps; this->Internal->OutputObjects(libdeps, target, configName); if (!libdeps.str().empty()) { fout << "\t\t\t\tAdditionalDependencies=\"" << libdeps.str() << "\"\n"; } } std::string libflags; this->GetStaticLibraryFlags( libflags, configName, target->GetLinkerLanguage(configName), target); if (!libflags.empty()) { fout << "\t\t\t\tAdditionalOptions=\"" << this->EscapeForXML(libflags) << "\"\n"; } fout << "\t\t\t\tOutputFile=\"" << this->ConvertToXMLOutputPathSingle(libpath) << "\"/>\n"; break; } case cmStateEnums::SHARED_LIBRARY: case cmStateEnums::MODULE_LIBRARY: { cmGeneratorTarget::Names targetNames = target->GetLibraryNames(configName); // Compute the link library and directory information. cmComputeLinkInformation* pcli = target->GetLinkInformation(configName); if (!pcli) { return; } cmComputeLinkInformation& cli = *pcli; std::string linkLanguage = cli.GetLinkLanguage(); if (!target->GetLinkerTypeProperty(linkLanguage, configName).empty()) { // Visual Studio 10 or upper is required for this feature this->GetCMakeInstance()->IssueMessage( MessageType::FATAL_ERROR, cmStrCat("'LINKER_TYPE' property, specified on target '", target->GetName(), "', is not supported by this generator."), target->GetBacktrace()); } // Compute the variable name to lookup standard libraries for this // language. std::string standardLibsVar = cmStrCat("CMAKE_", linkLanguage, "_STANDARD_LIBRARIES"); const char* tool = "VCLinkerTool"; if (this->FortranProject) { tool = "VFLinkerTool"; } fout << "\t\t\tNeedLinkLibraryDependencies(target)) { fout << "\t\t\t\tLinkLibraryDependencies=\"false\"\n"; } // Use the NOINHERIT macro to avoid getting VS project default // libraries which may be set by the user to something bad. fout << "\t\t\t\tAdditionalDependencies=\"$(NOINHERIT) " << this->Makefile->GetSafeDefinition(standardLibsVar); if (this->FortranProject) { this->Internal->OutputObjects(fout, target, configName, " "); } fout << " "; this->Internal->OutputLibraries(fout, cli.GetItems()); fout << "\"\n"; temp = cmStrCat(target->GetDirectory(configName), '/', targetNames.Output); fout << "\t\t\t\tOutputFile=\"" << this->ConvertToXMLOutputPathSingle(temp) << "\"\n"; this->WriteTargetVersionAttribute(fout, target); linkOptions.OutputFlagMap(fout, 4); fout << "\t\t\t\tAdditionalLibraryDirectories=\""; std::string const& linkDirsString = this->Makefile->GetSafeDefinition( cmStrCat("CMAKE_", linkLanguage, "_STANDARD_LINK_DIRECTORIES")); this->OutputLibraryDirectories(fout, cmList(linkDirsString), cli.GetDirectories()); fout << "\"\n"; temp = cmStrCat(target->GetPDBDirectory(configName), '/', targetNames.PDB); fout << "\t\t\t\tProgramDatabaseFile=\"" << this->ConvertToXMLOutputPathSingle(temp) << "\"\n"; if (targetOptions.UsingDebugInfo()) { fout << "\t\t\t\tGenerateDebugInformation=\"true\"\n"; } if (this->WindowsCEProject) { fout << "\t\t\t\tSubSystem=\"8\"\n"; } std::string stackVar = cmStrCat("CMAKE_", linkLanguage, "_STACK_SIZE"); cmValue stackVal = this->Makefile->GetDefinition(stackVar); if (stackVal) { fout << "\t\t\t\tStackReserveSize=\"" << *stackVal << "\"\n"; } if (!targetNames.ImportLibrary.empty()) { temp = cmStrCat(target->GetDirectory( configName, cmStateEnums::ImportLibraryArtifact), '/', targetNames.ImportLibrary); fout << "\t\t\t\tImportLibrary=\"" << this->ConvertToXMLOutputPathSingle(temp) << "\""; } if (this->FortranProject) { fout << "\n\t\t\t\tLinkDLL=\"true\""; } fout << "/>\n"; } break; case cmStateEnums::EXECUTABLE: { cmGeneratorTarget::Names targetNames = target->GetExecutableNames(configName); // Compute the link library and directory information. cmComputeLinkInformation* pcli = target->GetLinkInformation(configName); if (!pcli) { return; } cmComputeLinkInformation& cli = *pcli; std::string linkLanguage = cli.GetLinkLanguage(); if (!target->GetLinkerTypeProperty(linkLanguage, configName).empty()) { // Visual Studio 10 or upper is required for this feature this->GetCMakeInstance()->IssueMessage( MessageType::FATAL_ERROR, cmStrCat("'LINKER_TYPE' property, specified on target '", target->GetName(), "', is not supported by this generator."), target->GetBacktrace()); } bool isWin32Executable = target->IsWin32Executable(configName); // Compute the variable name to lookup standard libraries for this // language. std::string standardLibsVar = cmStrCat("CMAKE_", linkLanguage, "_STANDARD_LIBRARIES"); const char* tool = "VCLinkerTool"; if (this->FortranProject) { tool = "VFLinkerTool"; } fout << "\t\t\tNeedLinkLibraryDependencies(target)) { fout << "\t\t\t\tLinkLibraryDependencies=\"false\"\n"; } // Use the NOINHERIT macro to avoid getting VS project default // libraries which may be set by the user to something bad. fout << "\t\t\t\tAdditionalDependencies=\"$(NOINHERIT) " << this->Makefile->GetSafeDefinition(standardLibsVar); if (this->FortranProject) { this->Internal->OutputObjects(fout, target, configName, " "); } fout << " "; this->Internal->OutputLibraries(fout, cli.GetItems()); fout << "\"\n"; temp = cmStrCat(target->GetDirectory(configName), '/', targetNames.Output); fout << "\t\t\t\tOutputFile=\"" << this->ConvertToXMLOutputPathSingle(temp) << "\"\n"; this->WriteTargetVersionAttribute(fout, target); linkOptions.OutputFlagMap(fout, 4); fout << "\t\t\t\tAdditionalLibraryDirectories=\""; std::string const& linkDirsString = this->Makefile->GetSafeDefinition( cmStrCat("CMAKE_", linkLanguage, "_STANDARD_LINK_DIRECTORIES")); this->OutputLibraryDirectories(fout, cmList(linkDirsString), cli.GetDirectories()); fout << "\"\n"; std::string path = this->ConvertToXMLOutputPathSingle( target->GetPDBDirectory(configName)); fout << "\t\t\t\tProgramDatabaseFile=\"" << path << "/" << targetNames.PDB << "\"\n"; if (targetOptions.UsingDebugInfo()) { fout << "\t\t\t\tGenerateDebugInformation=\"true\"\n"; } if (this->WindowsCEProject) { fout << "\t\t\t\tSubSystem=\"8\"\n"; if (!linkOptions.GetFlag("EntryPointSymbol")) { const char* entryPointSymbol = targetOptions.UsingUnicode() ? (isWin32Executable ? "wWinMainCRTStartup" : "mainWCRTStartup") : (isWin32Executable ? "WinMainCRTStartup" : "mainACRTStartup"); fout << "\t\t\t\tEntryPointSymbol=\"" << entryPointSymbol << "\"\n"; } } else if (this->FortranProject) { fout << "\t\t\t\tSubSystem=\"" << (isWin32Executable ? "subSystemWindows" : "subSystemConsole") << "\"\n"; } else { fout << "\t\t\t\tSubSystem=\"" << (isWin32Executable ? "2" : "1") << "\"\n"; } std::string stackVar = cmStrCat("CMAKE_", linkLanguage, "_STACK_SIZE"); cmValue stackVal = this->Makefile->GetDefinition(stackVar); if (stackVal) { fout << "\t\t\t\tStackReserveSize=\"" << *stackVal << "\""; } temp = cmStrCat( target->GetDirectory(configName, cmStateEnums::ImportLibraryArtifact), '/', targetNames.ImportLibrary); fout << "\t\t\t\tImportLibrary=\"" << this->ConvertToXMLOutputPathSingle(temp) << "\"/>\n"; break; } case cmStateEnums::UTILITY: case cmStateEnums::GLOBAL_TARGET: case cmStateEnums::INTERFACE_LIBRARY: break; } } static std::string cmLocalVisualStudio7GeneratorEscapeForXML( const std::string& s) { std::string ret = s; cmSystemTools::ReplaceString(ret, "&", "&"); cmSystemTools::ReplaceString(ret, "\"", """); cmSystemTools::ReplaceString(ret, "<", "<"); cmSystemTools::ReplaceString(ret, ">", ">"); cmSystemTools::ReplaceString(ret, "\n", " "); return ret; } static std::string GetEscapedPropertyIfValueNotNULL(const char* propertyValue) { return propertyValue ? cmLocalVisualStudio7GeneratorEscapeForXML(propertyValue) : std::string(); } void cmLocalVisualStudio7Generator::OutputDeploymentDebuggerTool( std::ostream& fout, std::string const& config, cmGeneratorTarget* target) { if (this->WindowsCEProject) { cmValue dir = target->GetProperty("DEPLOYMENT_REMOTE_DIRECTORY"); cmValue additionalFiles = target->GetProperty("DEPLOYMENT_ADDITIONAL_FILES"); if (!dir && !additionalFiles) { return; } fout << "\t\t\tc_str()) << "\"\n" "\t\t\t\tRegisterOutput=\"0\"\n" "\t\t\t\tAdditionalFiles=\"" << GetEscapedPropertyIfValueNotNULL(additionalFiles->c_str()) << "\"/>\n"; if (dir) { std::string const exe = cmStrCat(*dir, '\\', target->GetFullName(config)); fout << "\t\t\tEscapeForXML(exe) << "\"\n" "\t\t\t\tArguments=\"\"\n" "\t\t\t/>\n"; } } } void cmLocalVisualStudio7Generator::WriteTargetVersionAttribute( std::ostream& fout, cmGeneratorTarget* gt) { int major; int minor; gt->GetTargetVersion(major, minor); fout << "\t\t\t\tVersion=\"" << major << "." << minor << "\"\n"; } void cmLocalVisualStudio7GeneratorInternals::OutputLibraries( std::ostream& fout, ItemVector const& libs) { cmLocalVisualStudio7Generator* lg = this->LocalGenerator; for (auto const& lib : libs) { if (lib.IsPath == cmComputeLinkInformation::ItemIsPath::Yes) { std::string rel = lg->MaybeRelativeToCurBinDir(lib.Value.Value); rel = lg->ConvertToXMLOutputPath(rel); fout << (lib.HasFeature() ? lib.GetFormattedItem(rel).Value : rel) << " "; } else if (!lib.Target || (lib.Target->GetType() != cmStateEnums::INTERFACE_LIBRARY && lib.Target->GetType() != cmStateEnums::OBJECT_LIBRARY)) { fout << lib.Value.Value << " "; } } } void cmLocalVisualStudio7GeneratorInternals::OutputObjects( std::ostream& fout, cmGeneratorTarget* gt, std::string const& configName, const char* isep) { // VS < 8 does not support per-config source locations so we // list object library content on the link line instead. cmLocalVisualStudio7Generator* lg = this->LocalGenerator; std::vector objs; gt->GetExternalObjects(objs, configName); const char* sep = isep ? isep : ""; for (cmSourceFile const* obj : objs) { if (!obj->GetObjectLibrary().empty()) { std::string const& objFile = obj->GetFullPath(); std::string rel = lg->MaybeRelativeToCurBinDir(objFile); fout << sep << lg->ConvertToXMLOutputPath(rel); sep = " "; } } } void cmLocalVisualStudio7Generator::OutputLibraryDirectories( std::ostream& fout, std::vector const& stdlink, std::vector const& dirs) { const char* comma = ""; for (std::string dir : dirs) { // Remove any trailing slash and skip empty paths. if (dir.back() == '/') { dir = dir.substr(0, dir.size() - 1); } if (dir.empty()) { continue; } // Switch to a relative path specification if it is shorter. if (cmSystemTools::FileIsFullPath(dir)) { std::string rel = this->MaybeRelativeToCurBinDir(dir); if (rel.size() < dir.size()) { dir = rel; } } // First search a configuration-specific subdirectory and then the // original directory. fout << comma << this->ConvertToXMLOutputPath( cmStrCat(dir, "/$(ConfigurationName)")) << ',' << this->ConvertToXMLOutputPath(dir); comma = ","; } // No special processing on toolchain-defined standard link directory paths for (const auto& dir : stdlink) { fout << comma << this->ConvertToXMLOutputPath(dir); comma = ","; } } void cmLocalVisualStudio7Generator::WriteVCProjFile(std::ostream& fout, const std::string& libName, cmGeneratorTarget* target) { std::vector configs = this->Makefile->GetGeneratorConfigs(cmMakefile::ExcludeEmptyConfig); // We may be modifying the source groups temporarily, so make a copy. std::vector sourceGroups = this->Makefile->GetSourceGroups(); AllConfigSources sources; sources.Sources = target->GetAllConfigSources(); // Add CMakeLists.txt file with rule to re-run CMake for user convenience. if (target->GetType() != cmStateEnums::GLOBAL_TARGET && target->GetName() != CMAKE_CHECK_BUILD_SYSTEM_TARGET) { if (cmSourceFile* sf = this->CreateVCProjBuildRule()) { cmGeneratorTarget::AllConfigSource acs; acs.Source = sf; acs.Kind = cmGeneratorTarget::SourceKindCustomCommand; for (size_t ci = 0; ci < configs.size(); ++ci) { acs.Configs.push_back(ci); } bool haveCMakeLists = false; for (cmGeneratorTarget::AllConfigSource& si : sources.Sources) { if (si.Source == sf) { haveCMakeLists = true; // Replace the explicit source reference with our generated one. si = acs; break; } } if (!haveCMakeLists) { sources.Sources.emplace_back(std::move(acs)); } } } for (size_t si = 0; si < sources.Sources.size(); ++si) { cmSourceFile const* sf = sources.Sources[si].Source; sources.Index[sf] = si; if (!sf->GetObjectLibrary().empty()) { if (this->FortranProject) { // Intel Fortran does not support per-config source locations // so we list object library content on the link line instead. // See OutputObjects. continue; } } // Add the file to the list of sources. std::string const source = sf->GetFullPath(); cmSourceGroup* sourceGroup = this->Makefile->FindSourceGroup(source, sourceGroups); sourceGroup->AssignSource(sf); } // open the project this->WriteProjectStart(fout, libName, target, sourceGroups); // write the configuration information this->WriteConfigurations(fout, configs, libName, target); fout << "\t\n"; // Loop through every source group. for (auto const& sg : sourceGroups) { this->WriteGroup(&sg, target, fout, libName, configs, sources); } fout << "\t\n"; // Write the VCProj file's footer. this->WriteVCProjFooter(fout, target); } struct cmLVS7GFileConfig { std::string ObjectName; std::string CompileFlags; std::string CompileDefs; std::string CompileDefsConfig; std::string AdditionalDeps; std::string IncludeDirs; bool ExcludedFromBuild; }; class cmLocalVisualStudio7GeneratorFCInfo { public: cmLocalVisualStudio7GeneratorFCInfo( cmLocalVisualStudio7Generator* lg, cmGeneratorTarget* target, cmGeneratorTarget::AllConfigSource const& acs, std::vector const& configs); std::map FileConfigMap; }; cmLocalVisualStudio7GeneratorFCInfo::cmLocalVisualStudio7GeneratorFCInfo( cmLocalVisualStudio7Generator* lg, cmGeneratorTarget* gt, cmGeneratorTarget::AllConfigSource const& acs, std::vector const& configs) { cmSourceFile const& sf = *acs.Source; std::string objectName; if (gt->HasExplicitObjectName(&sf)) { objectName = gt->GetObjectName(&sf); } // Compute per-source, per-config information. size_t ci = 0; for (std::string const& config : configs) { std::string configUpper = cmSystemTools::UpperCase(config); cmLVS7GFileConfig fc; std::string lang = lg->GlobalGenerator->GetLanguageFromExtension(sf.GetExtension().c_str()); const std::string& sourceLang = lg->GetSourceFileLanguage(sf); bool needForceLang = false; // source file does not match its extension language if (lang != sourceLang) { needForceLang = true; lang = sourceLang; } cmGeneratorExpressionInterpreter genexInterpreter(lg, config, gt, lang); bool needfc = false; if (!objectName.empty()) { fc.ObjectName = objectName; needfc = true; } const std::string COMPILE_FLAGS("COMPILE_FLAGS"); if (cmValue cflags = sf.GetProperty(COMPILE_FLAGS)) { fc.CompileFlags = genexInterpreter.Evaluate(*cflags, COMPILE_FLAGS); needfc = true; } const std::string COMPILE_OPTIONS("COMPILE_OPTIONS"); if (cmValue coptions = sf.GetProperty(COMPILE_OPTIONS)) { lg->AppendCompileOptions( fc.CompileFlags, genexInterpreter.Evaluate(*coptions, COMPILE_OPTIONS)); needfc = true; } // Add precompile headers compile options. const std::string pchSource = gt->GetPchSource(config, lang); if (!pchSource.empty() && !sf.GetProperty("SKIP_PRECOMPILE_HEADERS")) { std::string pchOptions; if (sf.GetFullPath() == pchSource) { pchOptions = gt->GetPchCreateCompileOptions(config, lang); } else { pchOptions = gt->GetPchUseCompileOptions(config, lang); } lg->AppendCompileOptions( fc.CompileFlags, genexInterpreter.Evaluate(pchOptions, COMPILE_OPTIONS)); needfc = true; } if (lg->FortranProject) { switch (cmOutputConverter::GetFortranPreprocess( sf.GetSafeProperty("Fortran_PREPROCESS"))) { case cmOutputConverter::FortranPreprocess::Needed: fc.CompileFlags = cmStrCat("-fpp ", fc.CompileFlags); needfc = true; break; case cmOutputConverter::FortranPreprocess::NotNeeded: fc.CompileFlags = cmStrCat("-nofpp ", fc.CompileFlags); needfc = true; break; default: break; } switch (cmOutputConverter::GetFortranFormat( sf.GetSafeProperty("Fortran_FORMAT"))) { case cmOutputConverter::FortranFormatFixed: fc.CompileFlags = cmStrCat("-fixed ", fc.CompileFlags); needfc = true; break; case cmOutputConverter::FortranFormatFree: fc.CompileFlags = cmStrCat("-free ", fc.CompileFlags); needfc = true; break; default: break; } } const std::string COMPILE_DEFINITIONS("COMPILE_DEFINITIONS"); if (cmValue cdefs = sf.GetProperty(COMPILE_DEFINITIONS)) { fc.CompileDefs = genexInterpreter.Evaluate(*cdefs, COMPILE_DEFINITIONS); needfc = true; } std::string defPropName = cmStrCat("COMPILE_DEFINITIONS_", configUpper); if (cmValue ccdefs = sf.GetProperty(defPropName)) { fc.CompileDefsConfig = genexInterpreter.Evaluate(*ccdefs, COMPILE_DEFINITIONS); needfc = true; } const std::string INCLUDE_DIRECTORIES("INCLUDE_DIRECTORIES"); if (cmValue cincs = sf.GetProperty(INCLUDE_DIRECTORIES)) { fc.IncludeDirs = genexInterpreter.Evaluate(*cincs, INCLUDE_DIRECTORIES); needfc = true; } // Check for extra object-file dependencies. if (cmValue deps = sf.GetProperty("OBJECT_DEPENDS")) { cmList depends{ *deps }; if (!depends.empty()) { for (std::string& d : depends) { d = lg->ConvertToXMLOutputPath(d); } fc.AdditionalDeps += depends.to_string(); needfc = true; } } const std::string& linkLanguage = gt->GetLinkerLanguage(config); // If HEADER_FILE_ONLY is set, we must suppress this generation in // the project file fc.ExcludedFromBuild = sf.GetPropertyAsBool("HEADER_FILE_ONLY") || !cm::contains(acs.Configs, ci) || (gt->GetPropertyAsBool("UNITY_BUILD") && sf.GetProperty("UNITY_SOURCE_FILE") && !sf.GetPropertyAsBool("SKIP_UNITY_BUILD_INCLUSION")); if (fc.ExcludedFromBuild) { needfc = true; } // if the source file does not match the linker language // then force c or c++ if (needForceLang || (linkLanguage != lang)) { if (lang == "CXX") { // force a C++ file type fc.CompileFlags += " /TP "; needfc = true; } else if (lang == "C") { // force to c fc.CompileFlags += " /TC "; needfc = true; } } if (needfc) { this->FileConfigMap[config] = fc; } ++ci; } } std::string cmLocalVisualStudio7Generator::ComputeLongestObjectDirectory( cmGeneratorTarget const* target) const { std::vector configs = target->Target->GetMakefile()->GetGeneratorConfigs( cmMakefile::ExcludeEmptyConfig); // Compute the maximum length configuration name. std::string config_max; for (auto& config : configs) { if (config.size() > config_max.size()) { config_max = config; } } // Compute the maximum length full path to the intermediate // files directory for any configuration. This is used to construct // object file names that do not produce paths that are too long. std::string dir_max = cmStrCat(this->GetCurrentBinaryDirectory(), '/', this->GetTargetDirectory(target), '/', config_max, '/'); return dir_max; } bool cmLocalVisualStudio7Generator::WriteGroup( const cmSourceGroup* sg, cmGeneratorTarget* target, std::ostream& fout, const std::string& libName, std::vector const& configs, AllConfigSources const& sources) { cmGlobalVisualStudio7Generator* gg = static_cast(this->GlobalGenerator); const std::vector& sourceFiles = sg->GetSourceFiles(); std::vector const& children = sg->GetGroupChildren(); // Write the children to temporary output. bool hasChildrenWithSources = false; std::ostringstream tmpOut; for (const auto& child : children) { if (this->WriteGroup(&child, target, tmpOut, libName, configs, sources)) { hasChildrenWithSources = true; } } // If the group is empty, don't write it at all. if (sourceFiles.empty() && !hasChildrenWithSources) { return false; } // If the group has a name, write the header. std::string const& name = sg->GetName(); if (!name.empty()) { this->WriteVCProjBeginGroup(fout, name.c_str(), ""); } auto& sourcesVisited = this->GetSourcesVisited(target); // Loop through each source in the source group. for (const cmSourceFile* sf : sourceFiles) { std::string source = sf->GetFullPath(); if (source != libName || target->GetType() == cmStateEnums::UTILITY || target->GetType() == cmStateEnums::GLOBAL_TARGET || target->GetType() == cmStateEnums::INTERFACE_LIBRARY) { // Look up the source kind and configs. auto map_it = sources.Index.find(sf); // The map entry must exist because we populated it earlier. assert(map_it != sources.Index.end()); cmGeneratorTarget::AllConfigSource const& acs = sources.Sources[map_it->second]; FCInfo fcinfo(this, target, acs, configs); fout << "\t\t\tConvertToXMLOutputPathSingle(source); // Tell MS-Dev what the source is. If the compiler knows how to // build it, then it will. fout << "\t\t\t\tRelativePath=\"" << d << "\">\n"; if (cmCustomCommand const* command = sf->GetCustomCommand()) { if (sourcesVisited.insert(sf).second) { this->WriteCustomRule(fout, configs, source.c_str(), *command, fcinfo); } } else if (!fcinfo.FileConfigMap.empty()) { const char* aCompilerTool = "VCCLCompilerTool"; std::string ppLang = "CXX"; if (this->FortranProject) { aCompilerTool = "VFFortranCompilerTool"; } std::string const& lang = sf->GetLanguage(); std::string ext = sf->GetExtension(); ext = cmSystemTools::LowerCase(ext); if (ext == "idl") { aCompilerTool = "VCMIDLTool"; if (this->FortranProject) { aCompilerTool = "VFMIDLTool"; } } if (ext == "rc") { aCompilerTool = "VCResourceCompilerTool"; ppLang = "RC"; if (this->FortranProject) { aCompilerTool = "VFResourceCompilerTool"; } } if (ext == "def") { aCompilerTool = "VCCustomBuildTool"; if (this->FortranProject) { aCompilerTool = "VFCustomBuildTool"; } } if (gg->IsMarmasmEnabled() && !this->FortranProject && lang == "ASM_MARMASM") { aCompilerTool = "MARMASM"; } if (gg->IsMasmEnabled() && !this->FortranProject && lang == "ASM_MASM") { aCompilerTool = "MASM"; } if (acs.Kind == cmGeneratorTarget::SourceKindExternalObject) { aCompilerTool = "VCCustomBuildTool"; } for (auto const& fci : fcinfo.FileConfigMap) { cmLVS7GFileConfig const& fc = fci.second; fout << "\t\t\t\tGetPlatformName() << "\""; if (fc.ExcludedFromBuild) { fout << " ExcludedFromBuild=\"true\""; } fout << ">\n"; fout << "\t\t\t\t\tFortranProject) { tool = Options::FortranCompiler; table = cmLocalVisualStudio7GeneratorFortranFlagTable; } Options fileOptions(this, tool, table, gg->ExtraFlagTable); fileOptions.Parse(fc.CompileFlags); fileOptions.AddDefines(fc.CompileDefs); fileOptions.AddDefines(fc.CompileDefsConfig); // validate source level include directories std::vector includes; this->AppendIncludeDirectories(includes, fc.IncludeDirs, *sf); fileOptions.AddIncludes(includes); fileOptions.OutputFlagMap(fout, 5); fileOptions.OutputAdditionalIncludeDirectories( fout, 5, ppLang == "CXX" && this->FortranProject ? "Fortran" : ppLang); fileOptions.OutputPreprocessorDefinitions(fout, 5, ppLang); } if (!fc.AdditionalDeps.empty()) { fout << "\t\t\t\t\tAdditionalDependencies=\"" << fc.AdditionalDeps << "\"\n"; } if (!fc.ObjectName.empty()) { fout << "\t\t\t\t\tObjectFile=\"$(IntDir)/" << fc.ObjectName << "\"\n"; } fout << "\t\t\t\t\t/>\n" << "\t\t\t\t\n"; } } fout << "\t\t\t\n"; } } // If the group has children with source files, write the children. if (hasChildrenWithSources) { fout << tmpOut.str(); } // If the group has a name, write the footer. if (!name.empty()) { this->WriteVCProjEndGroup(fout); } return true; } void cmLocalVisualStudio7Generator::WriteCustomRule( std::ostream& fout, std::vector const& configs, const char* source, const cmCustomCommand& command, FCInfo& fcinfo) { cmGlobalVisualStudio7Generator* gg = static_cast(this->GlobalGenerator); // Write the rule for each configuration. const char* compileTool = "VCCLCompilerTool"; if (this->FortranProject) { compileTool = "VFCLCompilerTool"; } const char* customTool = "VCCustomBuildTool"; if (this->FortranProject) { customTool = "VFCustomBuildTool"; } for (std::string const& config : configs) { cmCustomCommandGenerator ccg(command, config, this); cmLVS7GFileConfig const& fc = fcinfo.FileConfigMap[config]; fout << "\t\t\t\tGetPlatformName() << "\">\n"; if (!fc.CompileFlags.empty()) { fout << "\t\t\t\t\tEscapeForXML(fc.CompileFlags) << "\"/>\n"; } std::string comment = this->ConstructComment(ccg); std::string script = this->ConstructScript(ccg); if (this->FortranProject) { cmSystemTools::ReplaceString(script, "$(Configuration)", config); } script += this->FinishConstructScript(VsProjectType::vcxproj); /* clang-format off */ fout << "\t\t\t\t\tEscapeForXML(comment) << "\"\n" << "\t\t\t\t\tCommandLine=\"" << this->EscapeForXML(script) << "\"\n" << "\t\t\t\t\tAdditionalDependencies=\""; /* clang-format on */ if (ccg.GetDepends().empty()) { // There are no real dependencies. Produce an artificial one to // make sure the rule runs reliably. if (!cmSystemTools::FileExists(source)) { cmsys::ofstream depout(source); depout << "Artificial dependency for a custom command.\n"; } fout << this->ConvertToXMLOutputPath(source); } else { // Write out the dependencies for the rule. for (std::string const& d : ccg.GetDepends()) { // Get the real name of the dependency in case it is a CMake target. std::string dep; if (this->GetRealDependency(d, config, dep)) { fout << this->ConvertToXMLOutputPath(dep) << ";"; } } } fout << "\"\n"; fout << "\t\t\t\t\tOutputs=\""; if (ccg.GetOutputs().empty()) { fout << source << "_force"; } else { // Write a rule for the output generated by this command. const char* sep = ""; for (std::string const& output : ccg.GetOutputs()) { fout << sep << this->ConvertToXMLOutputPathSingle(output); sep = ";"; } } fout << "\"/>\n"; fout << "\t\t\t\t\n"; } } void cmLocalVisualStudio7Generator::WriteVCProjBeginGroup(std::ostream& fout, const char* group, const char*) { /* clang-format off */ fout << "\t\t\n"; /* clang-format on */ } void cmLocalVisualStudio7Generator::WriteVCProjEndGroup(std::ostream& fout) { fout << "\t\t\n"; } // look for custom rules on a target and collect them together void cmLocalVisualStudio7Generator::OutputTargetRules( std::ostream& fout, const std::string& configName, cmGeneratorTarget* target, const std::string& /*libName*/) { if (target->GetType() > cmStateEnums::GLOBAL_TARGET) { return; } EventWriter event(this, configName, fout); // Add pre-build event. const char* tool = this->FortranProject ? "VFPreBuildEventTool" : "VCPreBuildEventTool"; event.Start(tool); event.Write(target->GetPreBuildCommands()); event.Finish(); // Add pre-link event. tool = this->FortranProject ? "VFPreLinkEventTool" : "VCPreLinkEventTool"; event.Start(tool); bool addedPrelink = false; cmGeneratorTarget::ModuleDefinitionInfo const* mdi = target->GetModuleDefinitionInfo(configName); if (mdi && mdi->DefFileGenerated) { addedPrelink = true; std::vector commands = target->GetPreLinkCommands(); cmGlobalVisualStudioGenerator* gg = static_cast(this->GlobalGenerator); gg->AddSymbolExportCommand(target, commands, configName); event.Write(commands); } if (!addedPrelink) { event.Write(target->GetPreLinkCommands()); } std::unique_ptr pcc( this->MaybeCreateImplibDir(target, configName, this->FortranProject)); if (pcc) { event.Write(*pcc); } event.Finish(); // Add post-build event. tool = this->FortranProject ? "VFPostBuildEventTool" : "VCPostBuildEventTool"; event.Start(tool); event.Write(target->GetPostBuildCommands()); event.Finish(); } void cmLocalVisualStudio7Generator::WriteProjectSCC(std::ostream& fout, cmGeneratorTarget* target) { // if we have all the required Source code control tags // then add that to the project cmValue vsProjectname = target->GetProperty("VS_SCC_PROJECTNAME"); cmValue vsLocalpath = target->GetProperty("VS_SCC_LOCALPATH"); cmValue vsProvider = target->GetProperty("VS_SCC_PROVIDER"); if (vsProvider && vsLocalpath && vsProjectname) { /* clang-format off */ fout << "\tSccProjectName=\"" << *vsProjectname << "\"\n" << "\tSccLocalPath=\"" << *vsLocalpath << "\"\n" << "\tSccProvider=\"" << *vsProvider << "\"\n"; /* clang-format on */ cmValue vsAuxPath = target->GetProperty("VS_SCC_AUXPATH"); if (vsAuxPath) { fout << "\tSccAuxPath=\"" << *vsAuxPath << "\"\n"; } } } void cmLocalVisualStudio7Generator::WriteProjectStartFortran( std::ostream& fout, const std::string& libName, cmGeneratorTarget* target) { cmGlobalVisualStudio7Generator* gg = static_cast(this->GlobalGenerator); /* clang-format off */ fout << R"(Encoding() << "\"?>\n" << "GetIntelProjectVersion() << "\"\n"; /* clang-format on */ cmValue p = target->GetProperty("VS_KEYWORD"); const char* keyword = p ? p->c_str() : "Console Application"; const char* projectType = nullptr; switch (target->GetType()) { case cmStateEnums::OBJECT_LIBRARY: case cmStateEnums::STATIC_LIBRARY: projectType = "typeStaticLibrary"; if (keyword) { keyword = "Static Library"; } break; case cmStateEnums::SHARED_LIBRARY: case cmStateEnums::MODULE_LIBRARY: projectType = "typeDynamicLibrary"; if (!keyword) { keyword = "Dll"; } break; case cmStateEnums::EXECUTABLE: if (!keyword) { keyword = "Console Application"; } projectType = nullptr; break; case cmStateEnums::UTILITY: case cmStateEnums::GLOBAL_TARGET: case cmStateEnums::INTERFACE_LIBRARY: case cmStateEnums::UNKNOWN_LIBRARY: break; } if (projectType) { fout << "\tProjectType=\"" << projectType << "\"\n"; } this->WriteProjectSCC(fout, target); /* clang-format off */ fout<< "\tKeyword=\"" << keyword << "\">\n" << "\tProjectGUID=\"{" << gg->GetGUID(libName) << "}\">\n" << "\t\n" << "\t\tGetPlatformName() << "\"/>\n" << "\t\n"; /* clang-format on */ } void cmLocalVisualStudio7Generator::WriteProjectStart( std::ostream& fout, const std::string& libName, cmGeneratorTarget* target, std::vector&) { if (this->FortranProject) { this->WriteProjectStartFortran(fout, libName, target); return; } cmGlobalVisualStudio7Generator* gg = static_cast(this->GlobalGenerator); /* clang-format off */ fout << R"(Encoding() << "\"?>\n" << "(gg->GetVersion()) / 10) << ".00\"\n"; cmValue p = target->GetProperty("PROJECT_LABEL"); const std::string projLabel = p ? *p : libName; p = target->GetProperty("VS_KEYWORD"); const std::string keyword = p ? *p : "Win32Proj"; fout << "\tName=\"" << projLabel << "\"\n"; fout << "\tProjectGUID=\"{" << gg->GetGUID(libName) << "}\"\n"; this->WriteProjectSCC(fout, target); if (cmValue targetFrameworkVersion = target->GetProperty("VS_DOTNET_TARGET_FRAMEWORK_VERSION")) { fout << "\tTargetFrameworkVersion=\"" << *targetFrameworkVersion << "\"\n"; } /* clang-format off */ fout << "\tKeyword=\"" << keyword << "\">\n" << "\t\n" << "\t\tGetPlatformName() << "\"/>\n" << "\t\n"; /* clang-format on */ if (gg->IsMarmasmEnabled()) { /* clang-format off */ fout << "\t\n" "\t\t\n" "\t\n" ; /* clang-format on */ } if (gg->IsMasmEnabled()) { /* clang-format off */ fout << "\t\n" "\t\t\n" "\t\n" ; /* clang-format on */ } } void cmLocalVisualStudio7Generator::WriteVCProjFooter( std::ostream& fout, cmGeneratorTarget* target) { fout << "\t\n"; for (std::string const& key : target->GetPropertyKeys()) { if (cmHasLiteralPrefix(key, "VS_GLOBAL_")) { std::string name = key.substr(10); if (!name.empty()) { /* clang-format off */ fout << "\t\tGetProperty(key) << "\"\n" << "\t\t/>\n"; /* clang-format on */ } } } fout << "\t\n" << "\n"; } std::string cmLocalVisualStudio7Generator::EscapeForXML(const std::string& s) { return cmLocalVisualStudio7GeneratorEscapeForXML(s); } std::string cmLocalVisualStudio7Generator::ConvertToXMLOutputPath( const std::string& path) { std::string ret = this->ConvertToOutputFormat(path, cmOutputConverter::SHELL); cmSystemTools::ReplaceString(ret, "&", "&"); cmSystemTools::ReplaceString(ret, "\"", """); cmSystemTools::ReplaceString(ret, "<", "<"); cmSystemTools::ReplaceString(ret, ">", ">"); return ret; } std::string cmLocalVisualStudio7Generator::ConvertToXMLOutputPathSingle( const std::string& path) { std::string ret = this->ConvertToOutputFormat(path, cmOutputConverter::SHELL); cmSystemTools::ReplaceString(ret, "\"", ""); cmSystemTools::ReplaceString(ret, "&", "&"); cmSystemTools::ReplaceString(ret, "<", "<"); cmSystemTools::ReplaceString(ret, ">", ">"); return ret; } void cmVS7GeneratorOptions::OutputFlag(std::ostream& fout, int indent, const std::string& flag, const std::string& content) { fout.fill('\t'); fout.width(indent); // write an empty string to get the fill level indent to print fout << ""; fout << flag << "=\""; fout << cmLocalVisualStudio7GeneratorEscapeForXML(content); fout << "\"\n"; } // This class is used to parse an existing vs 7 project // and extract the GUID class cmVS7XMLParser : public cmXMLParser { public: void EndElement(const std::string& /* name */) override {} void StartElement(const std::string& name, const char** atts) override { // once the GUID is found do nothing if (!this->GUID.empty()) { return; } int i = 0; if ("VisualStudioProject" == name) { while (atts[i]) { if (strcmp(atts[i], "ProjectGUID") == 0) { if (atts[i + 1]) { this->GUID = atts[i + 1]; if (this->GUID[0] == '{') { // remove surrounding curly brackets this->GUID = this->GUID.substr(1, this->GUID.size() - 2); } } else { this->GUID.clear(); } return; } ++i; } } } int InitializeParser() override { int ret = cmXMLParser::InitializeParser(); if (ret == 0) { return ret; } // visual studio projects have a strange encoding, but it is // really utf-8 XML_SetEncoding(static_cast(this->Parser), "utf-8"); return 1; } std::string GUID; }; void cmLocalVisualStudio7Generator::ReadAndStoreExternalGUID( const std::string& name, const char* path) { cmVS7XMLParser parser; parser.ParseFile(path); // if we can not find a GUID then we will generate one later if (parser.GUID.empty()) { return; } std::string guidStoreName = cmStrCat(name, "_GUID_CMAKE"); // save the GUID in the cache this->GlobalGenerator->GetCMakeInstance()->AddCacheEntry( guidStoreName, parser.GUID, "Stored GUID", cmStateEnums::INTERNAL); } std::string cmLocalVisualStudio7Generator::GetTargetDirectory( cmGeneratorTarget const* target) const { std::string dir = cmStrCat(target->GetName(), ".dir"); return dir; } static bool cmLVS7G_IsFAT(const char* dir) { if (dir[0] && dir[1] == ':') { char volRoot[4] = "_:/"; volRoot[0] = dir[0]; char fsName[16]; if (GetVolumeInformationA(volRoot, 0, 0, 0, 0, 0, fsName, 16) && strstr(fsName, "FAT") != nullptr) { return true; } } return false; }