/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmMakefileTargetGenerator.h" #include #include #include #include #include #include #include #include #include #include #include "cmComputeLinkInformation.h" #include "cmCustomCommand.h" #include "cmCustomCommandGenerator.h" #include "cmGeneratedFileStream.h" #include "cmGeneratorExpression.h" #include "cmGeneratorTarget.h" #include "cmGlobalUnixMakefileGenerator3.h" #include "cmLinkLineComputer.h" // IWYU pragma: keep #include "cmLocalCommonGenerator.h" #include "cmLocalUnixMakefileGenerator3.h" #include "cmMakefile.h" #include "cmMakefileExecutableTargetGenerator.h" #include "cmMakefileLibraryTargetGenerator.h" #include "cmMakefileUtilityTargetGenerator.h" #include "cmMessageType.h" #include "cmOutputConverter.h" #include "cmPolicies.h" #include "cmProperty.h" #include "cmRange.h" #include "cmRulePlaceholderExpander.h" #include "cmSourceFile.h" #include "cmSourceFileLocationKind.h" #include "cmState.h" #include "cmStateDirectory.h" #include "cmStateSnapshot.h" #include "cmStateTypes.h" #include "cmStringAlgorithms.h" #include "cmSystemTools.h" #include "cmake.h" cmMakefileTargetGenerator::cmMakefileTargetGenerator(cmGeneratorTarget* target) : cmCommonTargetGenerator(target) { this->CustomCommandDriver = OnBuild; this->LocalGenerator = static_cast(target->GetLocalGenerator()); this->GlobalGenerator = static_cast( this->LocalGenerator->GetGlobalGenerator()); cmake* cm = this->GlobalGenerator->GetCMakeInstance(); this->NoRuleMessages = false; if (cmProp ruleStatus = cm->GetState()->GetGlobalProperty("RULE_MESSAGES")) { this->NoRuleMessages = cmIsOff(*ruleStatus); } switch (this->GeneratorTarget->GetPolicyStatusCMP0113()) { case cmPolicies::WARN: case cmPolicies::OLD: this->CMP0113New = false; break; case cmPolicies::NEW: case cmPolicies::REQUIRED_IF_USED: case cmPolicies::REQUIRED_ALWAYS: this->CMP0113New = true; break; } MacOSXContentGenerator = cm::make_unique(this); } cmMakefileTargetGenerator::~cmMakefileTargetGenerator() = default; std::unique_ptr cmMakefileTargetGenerator::New( cmGeneratorTarget* tgt) { std::unique_ptr result; switch (tgt->GetType()) { case cmStateEnums::EXECUTABLE: result = cm::make_unique(tgt); break; case cmStateEnums::STATIC_LIBRARY: case cmStateEnums::SHARED_LIBRARY: case cmStateEnums::MODULE_LIBRARY: case cmStateEnums::OBJECT_LIBRARY: result = cm::make_unique(tgt); break; case cmStateEnums::INTERFACE_LIBRARY: case cmStateEnums::UTILITY: result = cm::make_unique(tgt); break; default: return result; // break; /* unreachable */ } return result; } std::string cmMakefileTargetGenerator::GetConfigName() { auto const& configNames = this->LocalGenerator->GetConfigNames(); assert(configNames.size() == 1); return configNames.front(); } void cmMakefileTargetGenerator::GetDeviceLinkFlags( std::string& linkFlags, const std::string& linkLanguage) { cmGeneratorTarget::DeviceLinkSetter setter(*this->GetGeneratorTarget()); std::vector linkOpts; this->GeneratorTarget->GetLinkOptions(linkOpts, this->GetConfigName(), linkLanguage); // LINK_OPTIONS are escaped. this->LocalGenerator->AppendCompileOptions(linkFlags, linkOpts); } void cmMakefileTargetGenerator::GetTargetLinkFlags( std::string& flags, const std::string& linkLanguage) { this->LocalGenerator->AppendFlags( flags, this->GeneratorTarget->GetSafeProperty("LINK_FLAGS")); std::string linkFlagsConfig = cmStrCat("LINK_FLAGS_", cmSystemTools::UpperCase(this->GetConfigName())); this->LocalGenerator->AppendFlags( flags, this->GeneratorTarget->GetSafeProperty(linkFlagsConfig)); std::vector opts; this->GeneratorTarget->GetLinkOptions(opts, this->GetConfigName(), linkLanguage); // LINK_OPTIONS are escaped. this->LocalGenerator->AppendCompileOptions(flags, opts); this->LocalGenerator->AppendPositionIndependentLinkerFlags( flags, this->GeneratorTarget, this->GetConfigName(), linkLanguage); } void cmMakefileTargetGenerator::CreateRuleFile() { // Create a directory for this target. this->TargetBuildDirectory = this->LocalGenerator->GetTargetDirectory(this->GeneratorTarget); this->TargetBuildDirectoryFull = this->LocalGenerator->ConvertToFullPath(this->TargetBuildDirectory); cmSystemTools::MakeDirectory(this->TargetBuildDirectoryFull); // Construct the rule file name. this->BuildFileName = cmStrCat(this->TargetBuildDirectory, "/build.make"); this->BuildFileNameFull = cmStrCat(this->TargetBuildDirectoryFull, "/build.make"); // Construct the rule file name. this->ProgressFileNameFull = cmStrCat(this->TargetBuildDirectoryFull, "/progress.make"); // reset the progress count this->NumberOfProgressActions = 0; // Open the rule file. This should be copy-if-different because the // rules may depend on this file itself. this->BuildFileStream = cm::make_unique( this->BuildFileNameFull, false, this->GlobalGenerator->GetMakefileEncoding()); if (!this->BuildFileStream) { return; } this->BuildFileStream->SetCopyIfDifferent(true); this->LocalGenerator->WriteDisclaimer(*this->BuildFileStream); if (this->GlobalGenerator->AllowDeleteOnError()) { std::vector no_depends; std::vector no_commands; this->LocalGenerator->WriteMakeRule( *this->BuildFileStream, "Delete rule output on recipe failure.", ".DELETE_ON_ERROR", no_depends, no_commands, false); } this->LocalGenerator->WriteSpecialTargetsTop(*this->BuildFileStream); } void cmMakefileTargetGenerator::WriteTargetBuildRules() { // -- Write the custom commands for this target // Evaluates generator expressions and expands prop_value auto evaluatedFiles = [this](const std::string& prop_value) -> std::vector { std::vector files; cmExpandList(cmGeneratorExpression::Evaluate( prop_value, this->LocalGenerator, this->GetConfigName(), this->GeneratorTarget), files); return files; }; // Look for additional files registered for cleaning in this directory. if (cmProp prop_value = this->Makefile->GetProperty("ADDITIONAL_MAKE_CLEAN_FILES")) { std::vector const files = evaluatedFiles(*prop_value); this->CleanFiles.insert(files.begin(), files.end()); } // Look for additional files registered for cleaning in this target. if (cmProp prop_value = this->GeneratorTarget->GetProperty("ADDITIONAL_CLEAN_FILES")) { std::vector const files = evaluatedFiles(*prop_value); // For relative path support std::string const& binaryDir = this->LocalGenerator->GetCurrentBinaryDirectory(); for (std::string const& cfl : files) { this->CleanFiles.insert(cmSystemTools::CollapseFullPath(cfl, binaryDir)); } } std::string currentBinDir = this->LocalGenerator->GetCurrentBinaryDirectory(); // Look for ISPC extra object files generated by this target auto ispcAdditionalObjs = this->GeneratorTarget->GetGeneratedISPCObjects(this->GetConfigName()); for (std::string const& ispcObj : ispcAdditionalObjs) { this->CleanFiles.insert(this->LocalGenerator->MaybeConvertToRelativePath( currentBinDir, ispcObj)); } // add custom commands to the clean rules? bool clean = cmIsOff(this->Makefile->GetProperty("CLEAN_NO_CUSTOM")); // First generate the object rule files. Save a list of all object // files for this target. std::vector customCommands; this->GeneratorTarget->GetCustomCommands(customCommands, this->GetConfigName()); for (cmSourceFile const* sf : customCommands) { if (this->CMP0113New && !this->LocalGenerator->GetCommandsVisited(this->GeneratorTarget) .insert(sf) .second) { continue; } cmCustomCommandGenerator ccg(*sf->GetCustomCommand(), this->GetConfigName(), this->LocalGenerator); this->GenerateCustomRuleFile(ccg); if (clean) { const std::vector& outputs = ccg.GetOutputs(); for (std::string const& output : outputs) { this->CleanFiles.insert( this->LocalGenerator->MaybeConvertToRelativePath(currentBinDir, output)); } const std::vector& byproducts = ccg.GetByproducts(); for (std::string const& byproduct : byproducts) { this->CleanFiles.insert( this->LocalGenerator->MaybeConvertToRelativePath(currentBinDir, byproduct)); } } } // Add byproducts from build events to the clean rules if (clean) { std::vector buildEventCommands = this->GeneratorTarget->GetPreBuildCommands(); cm::append(buildEventCommands, this->GeneratorTarget->GetPreLinkCommands()); cm::append(buildEventCommands, this->GeneratorTarget->GetPostBuildCommands()); for (const auto& be : buildEventCommands) { cmCustomCommandGenerator beg(be, this->GetConfigName(), this->LocalGenerator); const std::vector& byproducts = beg.GetByproducts(); for (std::string const& byproduct : byproducts) { this->CleanFiles.insert( this->LocalGenerator->MaybeConvertToRelativePath(currentBinDir, byproduct)); } } } std::vector headerSources; this->GeneratorTarget->GetHeaderSources(headerSources, this->GetConfigName()); this->OSXBundleGenerator->GenerateMacOSXContentStatements( headerSources, this->MacOSXContentGenerator.get(), this->GetConfigName()); std::vector extraSources; this->GeneratorTarget->GetExtraSources(extraSources, this->GetConfigName()); this->OSXBundleGenerator->GenerateMacOSXContentStatements( extraSources, this->MacOSXContentGenerator.get(), this->GetConfigName()); cmProp pchExtension = this->Makefile->GetDefinition("CMAKE_PCH_EXTENSION"); std::vector externalObjects; this->GeneratorTarget->GetExternalObjects(externalObjects, this->GetConfigName()); for (cmSourceFile const* sf : externalObjects) { auto const& objectFileName = sf->GetFullPath(); if (!cmSystemTools::StringEndsWith(objectFileName, cmToCStr(pchExtension))) { this->ExternalObjects.push_back(objectFileName); } } std::vector objectSources; this->GeneratorTarget->GetObjectSources(objectSources, this->GetConfigName()); for (cmSourceFile const* sf : objectSources) { // Generate this object file's rule file. this->WriteObjectRuleFiles(*sf); } } void cmMakefileTargetGenerator::WriteCommonCodeRules() { const char* root = (this->Makefile->IsOn("CMAKE_MAKE_INCLUDE_FROM_ROOT") ? "$(CMAKE_BINARY_DIR)/" : ""); // Include the dependencies for the target. std::string dependFileNameFull = cmStrCat(this->TargetBuildDirectoryFull, "/depend.make"); *this->BuildFileStream << "# Include any dependencies generated for this target.\n" << this->GlobalGenerator->IncludeDirective << " " << root << cmSystemTools::ConvertToOutputPath( this->LocalGenerator->MaybeConvertToRelativePath( this->LocalGenerator->GetBinaryDirectory(), dependFileNameFull)) << "\n\n"; if (!this->NoRuleMessages) { // Include the progress variables for the target. *this->BuildFileStream << "# Include the progress variables for this target.\n" << this->GlobalGenerator->IncludeDirective << " " << root << cmSystemTools::ConvertToOutputPath( this->LocalGenerator->MaybeConvertToRelativePath( this->LocalGenerator->GetBinaryDirectory(), this->ProgressFileNameFull)) << "\n\n"; } // make sure the depend file exists if (!cmSystemTools::FileExists(dependFileNameFull)) { // Write an empty dependency file. cmGeneratedFileStream depFileStream( dependFileNameFull, false, this->GlobalGenerator->GetMakefileEncoding()); depFileStream << "# Empty dependencies file for " << this->GeneratorTarget->GetName() << ".\n" << "# This may be replaced when dependencies are built.\n"; } // Open the flags file. This should be copy-if-different because the // rules may depend on this file itself. this->FlagFileNameFull = cmStrCat(this->TargetBuildDirectoryFull, "/flags.make"); this->FlagFileStream = cm::make_unique( this->FlagFileNameFull, false, this->GlobalGenerator->GetMakefileEncoding()); if (!this->FlagFileStream) { return; } this->FlagFileStream->SetCopyIfDifferent(true); this->LocalGenerator->WriteDisclaimer(*this->FlagFileStream); // Include the flags for the target. *this->BuildFileStream << "# Include the compile flags for this target's objects.\n" << this->GlobalGenerator->IncludeDirective << " " << root << cmSystemTools::ConvertToOutputPath( this->LocalGenerator->MaybeConvertToRelativePath( this->LocalGenerator->GetBinaryDirectory(), this->FlagFileNameFull)) << "\n\n"; } void cmMakefileTargetGenerator::WriteTargetLanguageFlags() { // write language flags for target std::set languages; this->GeneratorTarget->GetLanguages( languages, this->Makefile->GetSafeDefinition("CMAKE_BUILD_TYPE")); // put the compiler in the rules.make file so that if it changes // things rebuild for (std::string const& language : languages) { std::string compiler = cmStrCat("CMAKE_", language, "_COMPILER"); *this->FlagFileStream << "# compile " << language << " with " << this->Makefile->GetSafeDefinition(compiler) << "\n"; } bool const escapeOctothorpe = this->GlobalGenerator->CanEscapeOctothorpe(); for (std::string const& language : languages) { std::string defines = this->GetDefines(language, this->GetConfigName()); std::string includes = this->GetIncludes(language, this->GetConfigName()); if (escapeOctothorpe) { // Escape comment characters so they do not terminate assignment. cmSystemTools::ReplaceString(defines, "#", "\\#"); cmSystemTools::ReplaceString(includes, "#", "\\#"); } *this->FlagFileStream << language << "_DEFINES = " << defines << "\n\n"; *this->FlagFileStream << language << "_INCLUDES = " << includes << "\n\n"; std::vector architectures; this->GeneratorTarget->GetAppleArchs(this->GetConfigName(), architectures); architectures.emplace_back(); for (const std::string& arch : architectures) { std::string flags = this->GetFlags(language, this->GetConfigName(), arch); if (escapeOctothorpe) { cmSystemTools::ReplaceString(flags, "#", "\\#"); } *this->FlagFileStream << language << "_FLAGS" << arch << " = " << flags << "\n\n"; } } } void cmMakefileTargetGenerator::MacOSXContentGeneratorType::operator()( cmSourceFile const& source, const char* pkgloc, const std::string& config) { // Skip OS X content when not building a Framework or Bundle. if (!this->Generator->GetGeneratorTarget()->IsBundleOnApple()) { return; } std::string macdir = this->Generator->OSXBundleGenerator->InitMacOSXContentDirectory(pkgloc, config); // Get the input file location. std::string const& input = source.GetFullPath(); // Get the output file location. std::string output = cmStrCat(macdir, '/', cmSystemTools::GetFilenameName(input)); this->Generator->CleanFiles.insert( this->Generator->LocalGenerator->MaybeConvertToRelativePath( this->Generator->LocalGenerator->GetCurrentBinaryDirectory(), output)); output = this->Generator->LocalGenerator->MaybeConvertToRelativePath( this->Generator->LocalGenerator->GetBinaryDirectory(), output); // Create a rule to copy the content into the bundle. std::vector depends; std::vector commands; depends.push_back(input); std::string copyEcho = cmStrCat("Copying OS X content ", output); this->Generator->LocalGenerator->AppendEcho( commands, copyEcho, cmLocalUnixMakefileGenerator3::EchoBuild); std::string copyCommand = cmStrCat("$(CMAKE_COMMAND) -E copy ", this->Generator->LocalGenerator->ConvertToOutputFormat( input, cmOutputConverter::SHELL), ' ', this->Generator->LocalGenerator->ConvertToOutputFormat( output, cmOutputConverter::SHELL)); commands.push_back(std::move(copyCommand)); this->Generator->LocalGenerator->WriteMakeRule( *this->Generator->BuildFileStream, nullptr, output, depends, commands, false); this->Generator->ExtraFiles.insert(output); } void cmMakefileTargetGenerator::WriteObjectRuleFiles( cmSourceFile const& source) { // Identify the language of the source file. const std::string& lang = this->LocalGenerator->GetSourceFileLanguage(source); if (lang.empty()) { // don't know anything about this file so skip it return; } // Get the full path name of the object file. std::string const& objectName = this->GeneratorTarget->GetObjectName(&source); std::string obj = cmStrCat(this->LocalGenerator->GetTargetDirectory(this->GeneratorTarget), '/', objectName); // Avoid generating duplicate rules. if (this->ObjectFiles.find(obj) == this->ObjectFiles.end()) { this->ObjectFiles.insert(obj); } else { std::ostringstream err; err << "Warning: Source file \"" << source.GetFullPath() << "\" is listed multiple times for target \"" << this->GeneratorTarget->GetName() << "\"."; cmSystemTools::Message(err.str(), "Warning"); return; } // Create the directory containing the object file. This may be a // subdirectory under the target's directory. { std::string dir = cmSystemTools::GetFilenamePath(obj); cmSystemTools::MakeDirectory(this->LocalGenerator->ConvertToFullPath(dir)); } // Save this in the target's list of object files. this->Objects.push_back(obj); this->CleanFiles.insert(obj); std::vector depends; // The object file should be checked for dependency integrity. std::string objFullPath = cmStrCat(this->LocalGenerator->GetCurrentBinaryDirectory(), '/', obj); objFullPath = cmSystemTools::CollapseFullPath(objFullPath); std::string srcFullPath = cmSystemTools::CollapseFullPath(source.GetFullPath()); this->LocalGenerator->AddImplicitDepends(this->GeneratorTarget, lang, objFullPath, srcFullPath); this->LocalGenerator->AppendRuleDepend(depends, this->FlagFileNameFull.c_str()); this->LocalGenerator->AppendRuleDepends(depends, this->FlagFileDepends[lang]); // generate the depend scanning rule this->WriteObjectDependRules(source, depends); std::string config = this->GetConfigName(); std::string configUpper = cmSystemTools::UpperCase(config); // Add precompile headers dependencies std::vector architectures; this->GeneratorTarget->GetAppleArchs(config, architectures); if (architectures.empty()) { architectures.emplace_back(); } std::string filterArch; std::unordered_map pchSources; for (const std::string& arch : architectures) { const std::string pchSource = this->GeneratorTarget->GetPchSource(config, lang, arch); if (pchSource == source.GetFullPath()) { filterArch = arch; } if (!pchSource.empty()) { pchSources.insert(std::make_pair(pchSource, arch)); } } if (!pchSources.empty() && !source.GetProperty("SKIP_PRECOMPILE_HEADERS")) { for (const std::string& arch : architectures) { std::string const& pchHeader = this->GeneratorTarget->GetPchHeader(config, lang, arch); depends.push_back(pchHeader); if (pchSources.find(source.GetFullPath()) == pchSources.end()) { depends.push_back( this->GeneratorTarget->GetPchFile(config, lang, arch)); } this->LocalGenerator->AddImplicitDepends(this->GeneratorTarget, lang, objFullPath, pchHeader); } } if (lang != "ISPC") { auto const& headers = this->GeneratorTarget->GetGeneratedISPCHeaders(config); if (!headers.empty()) { depends.insert(depends.end(), headers.begin(), headers.end()); } } std::string relativeObj = cmStrCat(this->LocalGenerator->GetHomeRelativeOutputPath(), obj); // Write the build rule. // Build the set of compiler flags. std::string flags; // Add language-specific flags. std::string langFlags = cmStrCat("$(", lang, "_FLAGS", filterArch, ")"); this->LocalGenerator->AppendFlags(flags, langFlags); cmGeneratorExpressionInterpreter genexInterpreter( this->LocalGenerator, config, this->GeneratorTarget, lang); // Add Fortran format flags. if (lang == "Fortran") { this->AppendFortranFormatFlags(flags, source); this->AppendFortranPreprocessFlags(flags, source); } std::string ispcHeaderRelative; std::string ispcHeaderForShell; if (lang == "ISPC") { std::string ispcSource = cmSystemTools::GetFilenameWithoutLastExtension(objectName); ispcSource = cmSystemTools::GetFilenameWithoutLastExtension(ispcSource); cmProp ispcSuffixProp = this->GeneratorTarget->GetProperty("ISPC_HEADER_SUFFIX"); assert(ispcSuffixProp != nullptr); std::string directory = this->GeneratorTarget->GetObjectDirectory(config); if (cmProp prop = this->GeneratorTarget->GetProperty("ISPC_HEADER_DIRECTORY")) { directory = cmStrCat(this->LocalGenerator->GetBinaryDirectory(), '/', *prop); } ispcHeaderRelative = cmStrCat(directory, '/', ispcSource, *ispcSuffixProp); ispcHeaderForShell = this->LocalGenerator->ConvertToOutputFormat( ispcHeaderRelative, cmOutputConverter::SHELL); } // Add flags from source file properties. const std::string COMPILE_FLAGS("COMPILE_FLAGS"); if (cmProp cflags = source.GetProperty(COMPILE_FLAGS)) { const std::string& evaluatedFlags = genexInterpreter.Evaluate(*cflags, COMPILE_FLAGS); this->LocalGenerator->AppendFlags(flags, evaluatedFlags); *this->FlagFileStream << "# Custom flags: " << relativeObj << "_FLAGS = " << evaluatedFlags << "\n" << "\n"; } const std::string COMPILE_OPTIONS("COMPILE_OPTIONS"); if (cmProp coptions = source.GetProperty(COMPILE_OPTIONS)) { const std::string& evaluatedOptions = genexInterpreter.Evaluate(*coptions, COMPILE_OPTIONS); this->LocalGenerator->AppendCompileOptions(flags, evaluatedOptions); *this->FlagFileStream << "# Custom options: " << relativeObj << "_OPTIONS = " << evaluatedOptions << "\n" << "\n"; } // Add precompile headers compile options. if (!pchSources.empty() && !source.GetProperty("SKIP_PRECOMPILE_HEADERS")) { std::string pchOptions; auto pchIt = pchSources.find(source.GetFullPath()); if (pchIt != pchSources.end()) { pchOptions = this->GeneratorTarget->GetPchCreateCompileOptions( config, lang, pchIt->second); } else { pchOptions = this->GeneratorTarget->GetPchUseCompileOptions(config, lang); } const std::string& evaluatedFlags = genexInterpreter.Evaluate(pchOptions, COMPILE_OPTIONS); this->LocalGenerator->AppendCompileOptions(flags, evaluatedFlags); *this->FlagFileStream << "# PCH options: " << relativeObj << "_OPTIONS = " << evaluatedFlags << "\n" << "\n"; } // Add include directories from source file properties. std::vector includes; const std::string INCLUDE_DIRECTORIES("INCLUDE_DIRECTORIES"); if (cmProp cincludes = source.GetProperty(INCLUDE_DIRECTORIES)) { const std::string& evaluatedIncludes = genexInterpreter.Evaluate(*cincludes, INCLUDE_DIRECTORIES); this->LocalGenerator->AppendIncludeDirectories(includes, evaluatedIncludes, source); *this->FlagFileStream << "# Custom include directories: " << relativeObj << "_INCLUDE_DIRECTORIES = " << evaluatedIncludes << "\n" << "\n"; } // Add language-specific defines. std::set defines; // Add source-specific preprocessor definitions. const std::string COMPILE_DEFINITIONS("COMPILE_DEFINITIONS"); if (cmProp compile_defs = source.GetProperty(COMPILE_DEFINITIONS)) { const std::string& evaluatedDefs = genexInterpreter.Evaluate(*compile_defs, COMPILE_DEFINITIONS); this->LocalGenerator->AppendDefines(defines, evaluatedDefs); *this->FlagFileStream << "# Custom defines: " << relativeObj << "_DEFINES = " << evaluatedDefs << "\n" << "\n"; } std::string defPropName = cmStrCat("COMPILE_DEFINITIONS_", configUpper); if (cmProp config_compile_defs = source.GetProperty(defPropName)) { const std::string& evaluatedDefs = genexInterpreter.Evaluate(*config_compile_defs, COMPILE_DEFINITIONS); this->LocalGenerator->AppendDefines(defines, evaluatedDefs); *this->FlagFileStream << "# Custom defines: " << relativeObj << "_DEFINES_" << configUpper << " = " << evaluatedDefs << "\n" << "\n"; } // Get the output paths for source and object files. std::string sourceFile = this->LocalGenerator->ConvertToOutputFormat( source.GetFullPath(), cmOutputConverter::SHELL); // Construct the build message. std::vector no_commands; std::vector commands; // add in a progress call if needed this->NumberOfProgressActions++; if (!this->NoRuleMessages) { cmLocalUnixMakefileGenerator3::EchoProgress progress; this->MakeEchoProgress(progress); std::string buildEcho = cmStrCat("Building ", lang, " object ", relativeObj); this->LocalGenerator->AppendEcho(commands, buildEcho, cmLocalUnixMakefileGenerator3::EchoBuild, &progress); } std::string targetOutPathReal; std::string targetOutPathPDB; std::string targetOutPathCompilePDB; { std::string targetFullPathReal; std::string targetFullPathPDB; std::string targetFullPathCompilePDB = this->ComputeTargetCompilePDB(this->GetConfigName()); if (this->GeneratorTarget->GetType() == cmStateEnums::EXECUTABLE || this->GeneratorTarget->GetType() == cmStateEnums::STATIC_LIBRARY || this->GeneratorTarget->GetType() == cmStateEnums::SHARED_LIBRARY || this->GeneratorTarget->GetType() == cmStateEnums::MODULE_LIBRARY) { targetFullPathReal = this->GeneratorTarget->GetFullPath( this->GetConfigName(), cmStateEnums::RuntimeBinaryArtifact, true); targetFullPathPDB = cmStrCat( this->GeneratorTarget->GetPDBDirectory(this->GetConfigName()), '/', this->GeneratorTarget->GetPDBName(this->GetConfigName())); } targetOutPathReal = this->LocalGenerator->ConvertToOutputFormat( this->LocalGenerator->MaybeConvertToRelativePath( this->LocalGenerator->GetCurrentBinaryDirectory(), targetFullPathReal), cmOutputConverter::SHELL); targetOutPathPDB = this->LocalGenerator->ConvertToOutputFormat( targetFullPathPDB, cmOutputConverter::SHELL); targetOutPathCompilePDB = this->LocalGenerator->ConvertToOutputFormat( this->LocalGenerator->MaybeConvertToRelativePath( this->LocalGenerator->GetCurrentBinaryDirectory(), targetFullPathCompilePDB), cmOutputConverter::SHELL); if (this->LocalGenerator->IsMinGWMake() && cmHasLiteralSuffix(targetOutPathCompilePDB, "\\")) { // mingw32-make incorrectly interprets 'a\ b c' as 'a b' and 'c' // (but 'a\ b "c"' as 'a\', 'b', and 'c'!). Workaround this by // avoiding a trailing backslash in the argument. targetOutPathCompilePDB.back() = '/'; } } cmRulePlaceholderExpander::RuleVariables vars; vars.CMTargetName = this->GeneratorTarget->GetName().c_str(); vars.CMTargetType = cmState::GetTargetTypeName(this->GeneratorTarget->GetType()).c_str(); vars.Language = lang.c_str(); vars.Target = targetOutPathReal.c_str(); vars.TargetPDB = targetOutPathPDB.c_str(); vars.TargetCompilePDB = targetOutPathCompilePDB.c_str(); vars.Source = sourceFile.c_str(); std::string shellObj = this->LocalGenerator->ConvertToOutputFormat(obj, cmOutputConverter::SHELL); vars.Object = shellObj.c_str(); std::string objectDir = this->GeneratorTarget->GetSupportDirectory(); objectDir = this->LocalGenerator->ConvertToOutputFormat( this->LocalGenerator->MaybeConvertToRelativePath( this->LocalGenerator->GetCurrentBinaryDirectory(), objectDir), cmOutputConverter::SHELL); vars.ObjectDir = objectDir.c_str(); std::string objectFileDir = cmSystemTools::GetFilenamePath(obj); objectFileDir = this->LocalGenerator->ConvertToOutputFormat( this->LocalGenerator->MaybeConvertToRelativePath( this->LocalGenerator->GetCurrentBinaryDirectory(), objectFileDir), cmOutputConverter::SHELL); vars.ObjectFileDir = objectFileDir.c_str(); vars.Flags = flags.c_str(); vars.ISPCHeader = ispcHeaderForShell.c_str(); std::string definesString = cmStrCat("$(", lang, "_DEFINES)"); this->LocalGenerator->JoinDefines(defines, definesString, lang); vars.Defines = definesString.c_str(); std::string includesString = this->LocalGenerator->GetIncludeFlags( includes, this->GeneratorTarget, lang, true, false, config); this->LocalGenerator->AppendFlags(includesString, "$(" + lang + "_INCLUDES)"); vars.Includes = includesString.c_str(); // At the moment, it is assumed that C, C++, Fortran, and CUDA have both // assembly and preprocessor capabilities. The same is true for the // ability to export compile commands bool lang_has_preprocessor = ((lang == "C") || (lang == "CXX") || (lang == "OBJC") || (lang == "OBJCXX") || (lang == "Fortran") || (lang == "CUDA") || lang == "ISPC"); bool const lang_has_assembly = lang_has_preprocessor; bool const lang_can_export_cmds = lang_has_preprocessor; std::unique_ptr rulePlaceholderExpander( this->LocalGenerator->CreateRulePlaceholderExpander()); // Construct the compile rules. { std::vector compileCommands; if (lang == "CUDA") { std::string cmdVar; if (this->GeneratorTarget->GetPropertyAsBool( "CUDA_SEPARABLE_COMPILATION")) { cmdVar = "CMAKE_CUDA_COMPILE_SEPARABLE_COMPILATION"; } else if (this->GeneratorTarget->GetPropertyAsBool( "CUDA_PTX_COMPILATION")) { cmdVar = "CMAKE_CUDA_COMPILE_PTX_COMPILATION"; } else { cmdVar = "CMAKE_CUDA_COMPILE_WHOLE_COMPILATION"; } const std::string& compileRule = this->Makefile->GetRequiredDefinition(cmdVar); cmExpandList(compileRule, compileCommands); } else { const std::string cmdVar = "CMAKE_" + lang + "_COMPILE_OBJECT"; const std::string& compileRule = this->Makefile->GetRequiredDefinition(cmdVar); cmExpandList(compileRule, compileCommands); } if (this->Makefile->IsOn("CMAKE_EXPORT_COMPILE_COMMANDS") && lang_can_export_cmds && compileCommands.size() == 1) { std::string compileCommand = compileCommands[0]; // no launcher for CMAKE_EXPORT_COMPILE_COMMANDS rulePlaceholderExpander->ExpandRuleVariables(this->LocalGenerator, compileCommand, vars); std::string workingDirectory = this->LocalGenerator->GetCurrentBinaryDirectory(); compileCommand.replace(compileCommand.find(langFlags), langFlags.size(), this->GetFlags(lang, this->GetConfigName())); std::string langDefines = std::string("$(") + lang + "_DEFINES)"; std::string::size_type ldPos = compileCommand.find(langDefines); if (ldPos != std::string::npos) { compileCommand.replace(ldPos, langDefines.size(), this->GetDefines(lang, this->GetConfigName())); } std::string langIncludes = std::string("$(") + lang + "_INCLUDES)"; std::string::size_type liPos = compileCommand.find(langIncludes); if (liPos != std::string::npos) { compileCommand.replace(liPos, langIncludes.size(), this->GetIncludes(lang, this->GetConfigName())); } cmProp eliminate[] = { this->Makefile->GetDefinition("CMAKE_START_TEMP_FILE"), this->Makefile->GetDefinition("CMAKE_END_TEMP_FILE") }; for (cmProp el : eliminate) { if (el) { cmSystemTools::ReplaceString(compileCommand, *el, ""); } } this->GlobalGenerator->AddCXXCompileCommand( source.GetFullPath(), workingDirectory, compileCommand); } // See if we need to use a compiler launcher like ccache or distcc std::string compilerLauncher; if (!compileCommands.empty() && (lang == "C" || lang == "CXX" || lang == "Fortran" || lang == "CUDA" || lang == "ISPC" || lang == "OBJC" || lang == "OBJCXX")) { std::string const clauncher_prop = lang + "_COMPILER_LAUNCHER"; cmProp clauncher = this->GeneratorTarget->GetProperty(clauncher_prop); if (cmNonempty(clauncher)) { compilerLauncher = *clauncher; } } // Maybe insert an include-what-you-use runner. if (!compileCommands.empty() && (lang == "C" || lang == "CXX")) { std::string const iwyu_prop = lang + "_INCLUDE_WHAT_YOU_USE"; cmProp iwyu = this->GeneratorTarget->GetProperty(iwyu_prop); std::string const tidy_prop = lang + "_CLANG_TIDY"; cmProp tidy = this->GeneratorTarget->GetProperty(tidy_prop); std::string const cpplint_prop = lang + "_CPPLINT"; cmProp cpplint = this->GeneratorTarget->GetProperty(cpplint_prop); std::string const cppcheck_prop = lang + "_CPPCHECK"; cmProp cppcheck = this->GeneratorTarget->GetProperty(cppcheck_prop); if (cmNonempty(iwyu) || cmNonempty(tidy) || cmNonempty(cpplint) || cmNonempty(cppcheck)) { std::string run_iwyu = "$(CMAKE_COMMAND) -E __run_co_compile"; if (!compilerLauncher.empty()) { // In __run_co_compile case the launcher command is supplied // via --launcher= and consumed run_iwyu += " --launcher="; run_iwyu += this->LocalGenerator->EscapeForShell(compilerLauncher); compilerLauncher.clear(); } if (cmNonempty(iwyu)) { run_iwyu += " --iwyu="; run_iwyu += this->LocalGenerator->EscapeForShell(*iwyu); } if (cmNonempty(tidy)) { run_iwyu += " --tidy="; cmProp p = this->Makefile->GetDefinition("CMAKE_" + lang + "_CLANG_TIDY_DRIVER_MODE"); std::string driverMode; if (cmNonempty(p)) { driverMode = *p; } else { driverMode = lang == "C" ? "gcc" : "g++"; } run_iwyu += this->LocalGenerator->EscapeForShell( cmStrCat(*tidy, ";--extra-arg-before=--driver-mode=", driverMode)); } if (cmNonempty(cpplint)) { run_iwyu += " --cpplint="; run_iwyu += this->LocalGenerator->EscapeForShell(*cpplint); } if (cmNonempty(cppcheck)) { run_iwyu += " --cppcheck="; run_iwyu += this->LocalGenerator->EscapeForShell(*cppcheck); } if (cmNonempty(tidy) || (cmNonempty(cpplint)) || (cmNonempty(cppcheck))) { run_iwyu += " --source="; run_iwyu += sourceFile; } run_iwyu += " -- "; compileCommands.front().insert(0, run_iwyu); } } // If compiler launcher was specified and not consumed above, it // goes to the beginning of the command line. if (!compileCommands.empty() && !compilerLauncher.empty()) { std::vector args = cmExpandedList(compilerLauncher, true); if (!args.empty()) { args[0] = this->LocalGenerator->ConvertToOutputFormat( args[0], cmOutputConverter::SHELL); for (std::string& i : cmMakeRange(args.begin() + 1, args.end())) { i = this->LocalGenerator->EscapeForShell(i); } } compileCommands.front().insert(0, cmJoin(args, " ") + " "); } std::string launcher; { const char* val = this->LocalGenerator->GetRuleLauncher( this->GeneratorTarget, "RULE_LAUNCH_COMPILE"); if (cmNonempty(val)) { launcher = cmStrCat(val, ' '); } } // Expand placeholders in the commands. for (std::string& compileCommand : compileCommands) { compileCommand = cmStrCat(launcher, compileCommand); rulePlaceholderExpander->ExpandRuleVariables(this->LocalGenerator, compileCommand, vars); } // Change the command working directory to the local build tree. this->LocalGenerator->CreateCDCommand( compileCommands, this->LocalGenerator->GetCurrentBinaryDirectory(), this->LocalGenerator->GetBinaryDirectory()); cm::append(commands, compileCommands); } // Check for extra outputs created by the compilation. std::vector outputs(1, relativeObj); if (cmProp extra_outputs_str = source.GetProperty("OBJECT_OUTPUTS")) { std::string evaluated_outputs = cmGeneratorExpression::Evaluate( *extra_outputs_str, this->LocalGenerator, config); if (!evaluated_outputs.empty()) { // Register these as extra files to clean. cmExpandList(evaluated_outputs, outputs); } } if (!ispcHeaderRelative .empty()) { // can't move ispcHeader as vars is using it outputs.emplace_back(ispcHeaderRelative); } if (outputs.size() > 1) { this->CleanFiles.insert(outputs.begin() + 1, outputs.end()); } // Write the rule. this->WriteMakeRule(*this->BuildFileStream, nullptr, outputs, depends, commands); bool do_preprocess_rules = lang_has_preprocessor && this->LocalGenerator->GetCreatePreprocessedSourceRules(); bool do_assembly_rules = lang_has_assembly && this->LocalGenerator->GetCreateAssemblySourceRules(); if (do_preprocess_rules || do_assembly_rules) { std::vector force_depends; force_depends.emplace_back("cmake_force"); std::string::size_type dot_pos = relativeObj.rfind('.'); std::string relativeObjBase = relativeObj.substr(0, dot_pos); dot_pos = obj.rfind('.'); std::string objBase = obj.substr(0, dot_pos); if (do_preprocess_rules) { commands.clear(); std::string relativeObjI = relativeObjBase + ".i"; std::string objI = objBase + ".i"; std::string preprocessEcho = cmStrCat("Preprocessing ", lang, " source to ", objI); this->LocalGenerator->AppendEcho( commands, preprocessEcho, cmLocalUnixMakefileGenerator3::EchoBuild); std::string preprocessRuleVar = cmStrCat("CMAKE_", lang, "_CREATE_PREPROCESSED_SOURCE"); if (cmProp preprocessRule = this->Makefile->GetDefinition(preprocessRuleVar)) { std::vector preprocessCommands = cmExpandedList(*preprocessRule); std::string shellObjI = this->LocalGenerator->ConvertToOutputFormat( objI, cmOutputConverter::SHELL); vars.PreprocessedSource = shellObjI.c_str(); // Expand placeholders in the commands. for (std::string& preprocessCommand : preprocessCommands) { // no launcher for preprocessor commands rulePlaceholderExpander->ExpandRuleVariables( this->LocalGenerator, preprocessCommand, vars); } this->LocalGenerator->CreateCDCommand( preprocessCommands, this->LocalGenerator->GetCurrentBinaryDirectory(), this->LocalGenerator->GetBinaryDirectory()); cm::append(commands, preprocessCommands); } else { std::string cmd = cmStrCat("$(CMAKE_COMMAND) -E cmake_unimplemented_variable ", preprocessRuleVar); commands.push_back(std::move(cmd)); } this->LocalGenerator->WriteMakeRule(*this->BuildFileStream, nullptr, relativeObjI, force_depends, commands, false); } if (do_assembly_rules) { commands.clear(); std::string relativeObjS = relativeObjBase + ".s"; std::string objS = objBase + ".s"; std::string assemblyEcho = cmStrCat("Compiling ", lang, " source to assembly ", objS); this->LocalGenerator->AppendEcho( commands, assemblyEcho, cmLocalUnixMakefileGenerator3::EchoBuild); std::string assemblyRuleVar = cmStrCat("CMAKE_", lang, "_CREATE_ASSEMBLY_SOURCE"); if (cmProp assemblyRule = this->Makefile->GetDefinition(assemblyRuleVar)) { std::vector assemblyCommands = cmExpandedList(*assemblyRule); std::string shellObjS = this->LocalGenerator->ConvertToOutputFormat( objS, cmOutputConverter::SHELL); vars.AssemblySource = shellObjS.c_str(); // Expand placeholders in the commands. for (std::string& assemblyCommand : assemblyCommands) { // no launcher for assembly commands rulePlaceholderExpander->ExpandRuleVariables(this->LocalGenerator, assemblyCommand, vars); } this->LocalGenerator->CreateCDCommand( assemblyCommands, this->LocalGenerator->GetCurrentBinaryDirectory(), this->LocalGenerator->GetBinaryDirectory()); cm::append(commands, assemblyCommands); } else { std::string cmd = cmStrCat("$(CMAKE_COMMAND) -E cmake_unimplemented_variable ", assemblyRuleVar); commands.push_back(std::move(cmd)); } this->LocalGenerator->WriteMakeRule(*this->BuildFileStream, nullptr, relativeObjS, force_depends, commands, false); } } } void cmMakefileTargetGenerator::WriteTargetCleanRules() { std::vector depends; std::vector commands; // Construct the clean target name. std::string cleanTarget = cmStrCat( this->LocalGenerator->GetRelativeTargetDirectory(this->GeneratorTarget), "/clean"); // Construct the clean command. this->LocalGenerator->AppendCleanCommand(commands, this->CleanFiles, this->GeneratorTarget); this->LocalGenerator->CreateCDCommand( commands, this->LocalGenerator->GetCurrentBinaryDirectory(), this->LocalGenerator->GetBinaryDirectory()); // Write the rule. this->LocalGenerator->WriteMakeRule(*this->BuildFileStream, nullptr, cleanTarget, depends, commands, true); } bool cmMakefileTargetGenerator::WriteMakeRule( std::ostream& os, const char* comment, const std::vector& outputs, const std::vector& depends, const std::vector& commands, bool in_help) { bool symbolic = false; if (outputs.empty()) { return symbolic; } // Check whether we need to bother checking for a symbolic output. bool need_symbolic = this->GlobalGenerator->GetNeedSymbolicMark(); // Check whether the first output is marked as symbolic. if (need_symbolic) { if (cmSourceFile* sf = this->Makefile->GetSource(outputs[0])) { symbolic = sf->GetPropertyAsBool("SYMBOLIC"); } } // We always attach the actual commands to the first output. this->LocalGenerator->WriteMakeRule(os, comment, outputs[0], depends, commands, symbolic, in_help); // For single outputs, we are done. if (outputs.size() == 1) { return symbolic; } // For multiple outputs, make the extra ones depend on the first one. std::vector const output_depends(1, outputs[0]); std::string binDir = this->LocalGenerator->GetBinaryDirectory(); for (std::string const& output : cmMakeRange(outputs).advance(1)) { // Touch the extra output so "make" knows that it was updated, // but only if the output was actually created. std::string const out = this->LocalGenerator->ConvertToOutputFormat( this->LocalGenerator->MaybeConvertToRelativePath(binDir, output), cmOutputConverter::SHELL); std::vector output_commands; bool o_symbolic = false; if (need_symbolic) { if (cmSourceFile* sf = this->Makefile->GetSource(output)) { o_symbolic = sf->GetPropertyAsBool("SYMBOLIC"); } } symbolic = symbolic && o_symbolic; if (!o_symbolic) { output_commands.push_back("@$(CMAKE_COMMAND) -E touch_nocreate " + out); } this->LocalGenerator->WriteMakeRule(os, nullptr, output, output_depends, output_commands, o_symbolic, in_help); if (!o_symbolic) { // At build time, remove the first output if this one does not exist // so that "make" will rerun the real commands that create this one. MultipleOutputPairsType::value_type p(output, outputs[0]); this->MultipleOutputPairs.insert(p); } } return symbolic; } void cmMakefileTargetGenerator::WriteTargetDependRules() { // must write the targets depend info file std::string dir = this->LocalGenerator->GetTargetDirectory(this->GeneratorTarget); this->InfoFileNameFull = cmStrCat(dir, "/DependInfo.cmake"); this->InfoFileNameFull = this->LocalGenerator->ConvertToFullPath(this->InfoFileNameFull); this->InfoFileStream = cm::make_unique(this->InfoFileNameFull); if (!this->InfoFileStream) { return; } this->InfoFileStream->SetCopyIfDifferent(true); this->LocalGenerator->WriteDependLanguageInfo(*this->InfoFileStream, this->GeneratorTarget); // Store multiple output pairs in the depend info file. if (!this->MultipleOutputPairs.empty()) { /* clang-format off */ *this->InfoFileStream << "\n" << "# Pairs of files generated by the same build rule.\n" << "set(CMAKE_MULTIPLE_OUTPUT_PAIRS\n"; /* clang-format on */ for (auto const& pi : this->MultipleOutputPairs) { *this->InfoFileStream << " " << cmOutputConverter::EscapeForCMake(pi.first) << " " << cmOutputConverter::EscapeForCMake(pi.second) << "\n"; } *this->InfoFileStream << " )\n\n"; } // Store list of targets linked directly or transitively. { /* clang-format off */ *this->InfoFileStream << "\n" << "# Targets to which this target links.\n" << "set(CMAKE_TARGET_LINKED_INFO_FILES\n"; /* clang-format on */ std::vector dirs = this->GetLinkedTargetDirectories(this->GetConfigName()); for (std::string const& d : dirs) { *this->InfoFileStream << " \"" << d << "/DependInfo.cmake\"\n"; } *this->InfoFileStream << " )\n"; } std::string const& working_dir = this->LocalGenerator->GetCurrentBinaryDirectory(); /* clang-format off */ *this->InfoFileStream << "\n" << "# Fortran module output directory.\n" << "set(CMAKE_Fortran_TARGET_MODULE_DIR \"" << this->GeneratorTarget->GetFortranModuleDirectory(working_dir) << "\")\n"; /* clang-format on */ // and now write the rule to use it std::vector depends; std::vector commands; // Construct the name of the dependency generation target. std::string depTarget = cmStrCat( this->LocalGenerator->GetRelativeTargetDirectory(this->GeneratorTarget), "/depend"); // Add a command to call CMake to scan dependencies. CMake will // touch the corresponding depends file after scanning dependencies. std::ostringstream depCmd; // TODO: Account for source file properties and directory-level // definitions when scanning for dependencies. #if !defined(_WIN32) || defined(__CYGWIN__) // This platform supports symlinks, so cmSystemTools will translate // paths. Make sure PWD is set to the original name of the home // output directory to help cmSystemTools to create the same // translation table for the dependency scanning process. depCmd << "cd " << (this->LocalGenerator->ConvertToOutputFormat( this->LocalGenerator->GetBinaryDirectory(), cmOutputConverter::SHELL)) << " && "; #endif // Generate a call this signature: // // cmake -E cmake_depends // // // --color=$(COLOR) // // This gives the dependency scanner enough information to recreate // the state of our local generator sufficiently for its needs. depCmd << "$(CMAKE_COMMAND) -E cmake_depends \"" << this->GlobalGenerator->GetName() << "\" " << this->LocalGenerator->ConvertToOutputFormat( this->LocalGenerator->GetSourceDirectory(), cmOutputConverter::SHELL) << " " << this->LocalGenerator->ConvertToOutputFormat( this->LocalGenerator->GetCurrentSourceDirectory(), cmOutputConverter::SHELL) << " " << this->LocalGenerator->ConvertToOutputFormat( this->LocalGenerator->GetBinaryDirectory(), cmOutputConverter::SHELL) << " " << this->LocalGenerator->ConvertToOutputFormat( this->LocalGenerator->GetCurrentBinaryDirectory(), cmOutputConverter::SHELL) << " " << this->LocalGenerator->ConvertToOutputFormat( cmSystemTools::CollapseFullPath(this->InfoFileNameFull), cmOutputConverter::SHELL); if (this->LocalGenerator->GetColorMakefile()) { depCmd << " --color=$(COLOR)"; } commands.push_back(depCmd.str()); // Make sure all custom command outputs in this target are built. if (this->CustomCommandDriver == OnDepends) { this->DriveCustomCommands(depends); } // Write the rule. this->LocalGenerator->WriteMakeRule(*this->BuildFileStream, nullptr, depTarget, depends, commands, true); } void cmMakefileTargetGenerator::DriveCustomCommands( std::vector& depends) { // Depend on all custom command outputs. cm::append(depends, this->CustomCommandOutputs); } void cmMakefileTargetGenerator::WriteObjectDependRules( cmSourceFile const& source, std::vector& depends) { // Create the list of dependencies known at cmake time. These are // shared between the object file and dependency scanning rule. depends.push_back(source.GetFullPath()); if (cmProp objectDeps = source.GetProperty("OBJECT_DEPENDS")) { cmExpandList(*objectDeps, depends); } } void cmMakefileTargetGenerator::WriteDeviceLinkRule( std::vector& commands, const std::string& output) { std::string architecturesStr = this->GeneratorTarget->GetSafeProperty("CUDA_ARCHITECTURES"); if (cmIsOff(architecturesStr)) { this->Makefile->IssueMessage(MessageType::FATAL_ERROR, "CUDA_SEPARABLE_COMPILATION on Clang " "requires CUDA_ARCHITECTURES to be set."); return; } std::vector architectures = cmExpandedList(architecturesStr); // Ensure there are no duplicates. const std::vector linkDeps = [&]() -> std::vector { std::vector deps; this->AppendTargetDepends(deps, true); this->GeneratorTarget->GetLinkDepends(deps, this->GetConfigName(), "CUDA"); std::copy(this->Objects.begin(), this->Objects.end(), std::back_inserter(deps)); std::unordered_set depsSet(deps.begin(), deps.end()); deps.clear(); std::copy(depsSet.begin(), depsSet.end(), std::back_inserter(deps)); return deps; }(); const std::string objectDir = this->GeneratorTarget->ObjectDirectory; const std::string relObjectDir = this->LocalGenerator->MaybeConvertToRelativePath( this->LocalGenerator->GetCurrentBinaryDirectory(), objectDir); // Construct a list of files associated with this executable that // may need to be cleaned. std::vector cleanFiles; cleanFiles.push_back(this->LocalGenerator->MaybeConvertToRelativePath( this->LocalGenerator->GetCurrentBinaryDirectory(), output)); std::string profiles; std::vector fatbinaryDepends; std::string registerFile = cmStrCat(objectDir, "cmake_cuda_register.h"); // Link device code for each architecture. for (const std::string& architectureKind : architectures) { // Clang always generates real code, so strip the specifier. const std::string architecture = architectureKind.substr(0, architectureKind.find('-')); const std::string cubin = cmStrCat(relObjectDir, "sm_", architecture, ".cubin"); profiles += cmStrCat(" -im=profile=sm_", architecture, ",file=", cubin); fatbinaryDepends.emplace_back(cubin); std::string registerFileCmd; // The generated register file contains macros that when expanded register // the device routines. Because the routines are the same for all // architectures the register file will be the same too. Thus generate it // only on the first invocation to reduce overhead. if (fatbinaryDepends.size() == 1) { std::string registerFileRel = this->LocalGenerator->MaybeConvertToRelativePath( this->LocalGenerator->GetCurrentBinaryDirectory(), registerFile); registerFileCmd = cmStrCat(" --register-link-binaries=", registerFileRel); cleanFiles.push_back(registerFileRel); } std::string command = cmStrCat( this->Makefile->GetRequiredDefinition("CMAKE_CUDA_DEVICE_LINKER"), " -arch=sm_", architecture, registerFileCmd, " -o=$@ ", cmJoin(linkDeps, " ")); this->LocalGenerator->WriteMakeRule(*this->BuildFileStream, nullptr, cubin, linkDeps, { command }, false); } // Combine all architectures into a single fatbinary. const std::string fatbinaryCommand = cmStrCat(this->Makefile->GetRequiredDefinition("CMAKE_CUDA_FATBINARY"), " -64 -cmdline=--compile-only -compress-all -link " "--embedded-fatbin=$@", profiles); const std::string fatbinaryOutput = cmStrCat(objectDir, "cmake_cuda_fatbin.h"); const std::string fatbinaryOutputRel = this->LocalGenerator->MaybeConvertToRelativePath( this->LocalGenerator->GetCurrentBinaryDirectory(), fatbinaryOutput); this->LocalGenerator->WriteMakeRule(*this->BuildFileStream, nullptr, fatbinaryOutputRel, fatbinaryDepends, { fatbinaryCommand }, false); // Compile the stub that registers the kernels and contains the fatbinaries. cmRulePlaceholderExpander::RuleVariables vars; vars.CMTargetName = this->GetGeneratorTarget()->GetName().c_str(); vars.CMTargetType = cmState::GetTargetTypeName(this->GetGeneratorTarget()->GetType()).c_str(); vars.Language = "CUDA"; vars.Object = output.c_str(); vars.Fatbinary = fatbinaryOutput.c_str(); vars.RegisterFile = registerFile.c_str(); std::string flags = this->GetFlags("CUDA", this->GetConfigName()); vars.Flags = flags.c_str(); std::string compileCmd = this->GetLinkRule("CMAKE_CUDA_DEVICE_LINK_COMPILE"); std::unique_ptr rulePlaceholderExpander( this->LocalGenerator->CreateRulePlaceholderExpander()); rulePlaceholderExpander->ExpandRuleVariables(this->LocalGenerator, compileCmd, vars); commands.emplace_back(compileCmd); this->LocalGenerator->WriteMakeRule( *this->BuildFileStream, nullptr, output, { cmStrCat(relObjectDir, "cmake_cuda_fatbin.h") }, commands, false); // Clean all the possible executable names and symlinks. this->CleanFiles.insert(cleanFiles.begin(), cleanFiles.end()); } void cmMakefileTargetGenerator::GenerateCustomRuleFile( cmCustomCommandGenerator const& ccg) { // Collect the commands. std::vector commands; std::string comment = this->LocalGenerator->ConstructComment(ccg); if (!comment.empty()) { // add in a progress call if needed this->NumberOfProgressActions++; if (!this->NoRuleMessages) { cmLocalUnixMakefileGenerator3::EchoProgress progress; this->MakeEchoProgress(progress); this->LocalGenerator->AppendEcho( commands, comment, cmLocalUnixMakefileGenerator3::EchoGenerate, &progress); } } // Now append the actual user-specified commands. std::ostringstream content; this->LocalGenerator->AppendCustomCommand( commands, ccg, this->GeneratorTarget, this->LocalGenerator->GetBinaryDirectory(), false, &content); // Collect the dependencies. std::vector depends; this->LocalGenerator->AppendCustomDepend(depends, ccg); // Write the rule. const std::vector& outputs = ccg.GetOutputs(); bool symbolic = this->WriteMakeRule(*this->BuildFileStream, nullptr, outputs, depends, commands); // Symbolic inputs are not expected to exist, so add dummy rules. if (this->CMP0113New && !depends.empty()) { std::vector no_depends; std::vector no_commands; for (std::string const& dep : depends) { if (cmSourceFile* dsf = this->Makefile->GetSource(dep, cmSourceFileLocationKind::Known)) { if (dsf->GetPropertyAsBool("SYMBOLIC")) { this->LocalGenerator->WriteMakeRule(*this->BuildFileStream, nullptr, dep, no_depends, no_commands, true); } } } } // If the rule has changed make sure the output is rebuilt. if (!symbolic) { this->GlobalGenerator->AddRuleHash(ccg.GetOutputs(), content.str()); } // Setup implicit dependency scanning. for (auto const& idi : ccg.GetCC().GetImplicitDepends()) { std::string objFullPath = cmSystemTools::CollapseFullPath( outputs[0], this->LocalGenerator->GetCurrentBinaryDirectory()); std::string srcFullPath = cmSystemTools::CollapseFullPath( idi.second, this->LocalGenerator->GetCurrentBinaryDirectory()); this->LocalGenerator->AddImplicitDepends(this->GeneratorTarget, idi.first, objFullPath, srcFullPath); } this->CustomCommandOutputs.insert(outputs.begin(), outputs.end()); } void cmMakefileTargetGenerator::MakeEchoProgress( cmLocalUnixMakefileGenerator3::EchoProgress& progress) const { progress.Dir = cmStrCat(this->LocalGenerator->GetBinaryDirectory(), "/CMakeFiles"); std::ostringstream progressArg; progressArg << "$(CMAKE_PROGRESS_" << this->NumberOfProgressActions << ")"; progress.Arg = progressArg.str(); } void cmMakefileTargetGenerator::WriteObjectsVariable( std::string& variableName, std::string& variableNameExternal, bool useWatcomQuote) { // Write a make variable assignment that lists all objects for the // target. variableName = this->LocalGenerator->CreateMakeVariable( this->GeneratorTarget->GetName(), "_OBJECTS"); *this->BuildFileStream << "# Object files for target " << this->GeneratorTarget->GetName() << "\n" << variableName << " ="; std::string object; std::string lineContinue; if (cmProp p = this->Makefile->GetDefinition("CMAKE_MAKE_LINE_CONTINUE")) { lineContinue = *p; } else { lineContinue = "\\"; } cmProp pchExtension = this->Makefile->GetDefinition("CMAKE_PCH_EXTENSION"); for (std::string const& obj : this->Objects) { if (cmSystemTools::StringEndsWith(obj, cmToCStr(pchExtension))) { continue; } *this->BuildFileStream << " " << lineContinue << "\n"; *this->BuildFileStream << cmLocalUnixMakefileGenerator3::ConvertToQuotedOutputPath( obj, useWatcomQuote); } *this->BuildFileStream << "\n"; // Write a make variable assignment that lists all external objects // for the target. variableNameExternal = this->LocalGenerator->CreateMakeVariable( this->GeneratorTarget->GetName(), "_EXTERNAL_OBJECTS"); /* clang-format off */ *this->BuildFileStream << "\n" << "# External object files for target " << this->GeneratorTarget->GetName() << "\n" << variableNameExternal << " ="; /* clang-format on */ std::string currentBinDir = this->LocalGenerator->GetCurrentBinaryDirectory(); for (std::string const& obj : this->ExternalObjects) { object = this->LocalGenerator->MaybeConvertToRelativePath(currentBinDir, obj); *this->BuildFileStream << " " << lineContinue << "\n"; *this->BuildFileStream << cmLocalUnixMakefileGenerator3::ConvertToQuotedOutputPath( obj, useWatcomQuote); } *this->BuildFileStream << "\n" << "\n"; } class cmMakefileTargetGeneratorObjectStrings { public: cmMakefileTargetGeneratorObjectStrings(std::vector& strings, cmOutputConverter* outputConverter, cmStateDirectory const& stateDir, std::string::size_type limit) : Strings(strings) , OutputConverter(outputConverter) , StateDir(stateDir) , LengthLimit(limit) { this->Space = ""; } void Feed(std::string const& obj) { // Construct the name of the next object. this->NextObject = this->OutputConverter->ConvertToOutputFormat( this->MaybeConvertToRelativePath(obj), cmOutputConverter::RESPONSE); // Roll over to next string if the limit will be exceeded. if (this->LengthLimit != std::string::npos && (this->CurrentString.length() + 1 + this->NextObject.length() > this->LengthLimit)) { this->Strings.push_back(this->CurrentString); this->CurrentString.clear(); this->Space = ""; } // Separate from previous object. this->CurrentString += this->Space; this->Space = " "; // Append this object. this->CurrentString += this->NextObject; } void Done() { this->Strings.push_back(this->CurrentString); } private: std::string MaybeConvertToRelativePath(std::string const& obj) { if (!this->StateDir.ContainsBoth(this->StateDir.GetCurrentBinary(), obj)) { return obj; } return cmSystemTools::ForceToRelativePath( this->StateDir.GetCurrentBinary(), obj); } std::vector& Strings; cmOutputConverter* OutputConverter; cmStateDirectory StateDir; std::string::size_type LengthLimit; std::string CurrentString; std::string NextObject; const char* Space; }; void cmMakefileTargetGenerator::WriteObjectsStrings( std::vector& objStrings, std::string::size_type limit) { cmProp pchExtension = this->Makefile->GetDefinition("CMAKE_PCH_EXTENSION"); cmMakefileTargetGeneratorObjectStrings helper( objStrings, this->LocalGenerator, this->LocalGenerator->GetStateSnapshot().GetDirectory(), limit); for (std::string const& obj : this->Objects) { if (cmSystemTools::StringEndsWith(obj, cmToCStr(pchExtension))) { continue; } helper.Feed(obj); } for (std::string const& obj : this->ExternalObjects) { helper.Feed(obj); } auto ispcAdditionalObjs = this->GeneratorTarget->GetGeneratedISPCObjects(this->GetConfigName()); for (std::string const& obj : ispcAdditionalObjs) { helper.Feed(obj); } helper.Done(); } void cmMakefileTargetGenerator::WriteTargetDriverRule( const std::string& main_output, bool relink) { // Compute the name of the driver target. std::string dir = this->LocalGenerator->GetRelativeTargetDirectory(this->GeneratorTarget); std::string buildTargetRuleName = cmStrCat(dir, relink ? "/preinstall" : "/build"); buildTargetRuleName = this->LocalGenerator->MaybeConvertToRelativePath( this->LocalGenerator->GetBinaryDirectory(), buildTargetRuleName); // Build the list of target outputs to drive. std::vector depends; depends.push_back(main_output); const char* comment = nullptr; if (relink) { // Setup the comment for the preinstall driver. comment = "Rule to relink during preinstall."; } else { // Setup the comment for the main build driver. comment = "Rule to build all files generated by this target."; // Make sure all custom command outputs in this target are built. if (this->CustomCommandDriver == OnBuild) { this->DriveCustomCommands(depends); } // Make sure the extra files are built. cm::append(depends, this->ExtraFiles); } // Write the driver rule. std::vector no_commands; this->LocalGenerator->WriteMakeRule(*this->BuildFileStream, comment, buildTargetRuleName, depends, no_commands, true); } void cmMakefileTargetGenerator::AppendTargetDepends( std::vector& depends, bool ignoreType) { // Static libraries never depend on anything for linking. if (this->GeneratorTarget->GetType() == cmStateEnums::STATIC_LIBRARY && !ignoreType) { return; } // Loop over all library dependencies. const std::string& cfg = this->GetConfigName(); if (cmComputeLinkInformation* cli = this->GeneratorTarget->GetLinkInformation(cfg)) { cm::append(depends, cli->GetDepends()); } } void cmMakefileTargetGenerator::AppendObjectDepends( std::vector& depends) { // Add dependencies on the compiled object files. std::string const& relPath = this->LocalGenerator->GetHomeRelativeOutputPath(); for (std::string const& obj : this->Objects) { std::string objTarget = cmStrCat(relPath, obj); depends.push_back(std::move(objTarget)); } // Add dependencies on the external object files. cm::append(depends, this->ExternalObjects); // Add a dependency on the rule file itself. this->LocalGenerator->AppendRuleDepend(depends, this->BuildFileNameFull.c_str()); } void cmMakefileTargetGenerator::AppendLinkDepends( std::vector& depends, const std::string& linkLanguage) { this->AppendObjectDepends(depends); // Add dependencies on targets that must be built first. this->AppendTargetDepends(depends); // Add a dependency on the link definitions file, if any. if (cmGeneratorTarget::ModuleDefinitionInfo const* mdi = this->GeneratorTarget->GetModuleDefinitionInfo( this->GetConfigName())) { for (cmSourceFile const* src : mdi->Sources) { depends.push_back(src->GetFullPath()); } } // Add a dependency on user-specified manifest files, if any. std::vector manifest_srcs; this->GeneratorTarget->GetManifests(manifest_srcs, this->GetConfigName()); for (cmSourceFile const* manifest_src : manifest_srcs) { depends.push_back(manifest_src->GetFullPath()); } // Add user-specified dependencies. this->GeneratorTarget->GetLinkDepends(depends, this->GetConfigName(), linkLanguage); } std::string cmMakefileTargetGenerator::GetLinkRule( const std::string& linkRuleVar) { std::string linkRule = this->Makefile->GetRequiredDefinition(linkRuleVar); if (this->GeneratorTarget->HasImplibGNUtoMS(this->GetConfigName())) { std::string ruleVar = cmStrCat("CMAKE_", this->GeneratorTarget->GetLinkerLanguage(this->GetConfigName()), "_GNUtoMS_RULE"); if (cmProp rule = this->Makefile->GetDefinition(ruleVar)) { linkRule += *rule; } } return linkRule; } void cmMakefileTargetGenerator::CloseFileStreams() { this->BuildFileStream.reset(); this->InfoFileStream.reset(); this->FlagFileStream.reset(); } void cmMakefileTargetGenerator::CreateLinkScript( const char* name, std::vector const& link_commands, std::vector& makefile_commands, std::vector& makefile_depends) { // Create the link script file. std::string linkScriptName = cmStrCat(this->TargetBuildDirectoryFull, '/', name); cmGeneratedFileStream linkScriptStream(linkScriptName); linkScriptStream.SetCopyIfDifferent(true); for (std::string const& link_command : link_commands) { // Do not write out empty commands or commands beginning in the // shell no-op ":". if (!link_command.empty() && link_command[0] != ':') { linkScriptStream << link_command << "\n"; } } // Create the makefile command to invoke the link script. std::string link_command = cmStrCat( "$(CMAKE_COMMAND) -E cmake_link_script ", this->LocalGenerator->ConvertToOutputFormat( this->LocalGenerator->MaybeConvertToRelativePath( this->LocalGenerator->GetCurrentBinaryDirectory(), linkScriptName), cmOutputConverter::SHELL), " --verbose=$(VERBOSE)"); makefile_commands.push_back(std::move(link_command)); makefile_depends.push_back(std::move(linkScriptName)); } bool cmMakefileTargetGenerator::CheckUseResponseFileForObjects( std::string const& l) const { // Check for an explicit setting one way or the other. std::string const responseVar = "CMAKE_" + l + "_USE_RESPONSE_FILE_FOR_OBJECTS"; if (cmProp val = this->Makefile->GetDefinition(responseVar)) { if (!val->empty()) { return cmIsOn(val); } } // Check for a system limit. if (size_t const limit = cmSystemTools::CalculateCommandLineLengthLimit()) { // Compute the total length of our list of object files with room // for argument separation and quoting. This does not convert paths // relative to CMAKE_CURRENT_BINARY_DIR like the final list will be, so the // actual list will likely be much shorter than this. However, in the // worst case all objects will remain as absolute paths. size_t length = 0; for (std::string const& obj : this->Objects) { length += obj.size() + 3; } for (std::string const& ext_obj : this->ExternalObjects) { length += ext_obj.size() + 3; } // We need to guarantee room for both objects and libraries, so // if the objects take up more than half then use a response file // for them. if (length > (limit / 2)) { return true; } } // We do not need a response file for objects. return false; } bool cmMakefileTargetGenerator::CheckUseResponseFileForLibraries( std::string const& l) const { // Check for an explicit setting one way or the other. std::string const responseVar = "CMAKE_" + l + "_USE_RESPONSE_FILE_FOR_LIBRARIES"; if (cmProp val = this->Makefile->GetDefinition(responseVar)) { if (!val->empty()) { return cmIsOn(val); } } // We do not need a response file for libraries. return false; } std::string cmMakefileTargetGenerator::CreateResponseFile( const char* name, std::string const& options, std::vector& makefile_depends) { // Create the response file. std::string responseFileNameFull = cmStrCat(this->TargetBuildDirectoryFull, '/', name); cmGeneratedFileStream responseStream(responseFileNameFull); responseStream.SetCopyIfDifferent(true); responseStream << options << "\n"; // Add a dependency so the target will rebuild when the set of // objects changes. makefile_depends.push_back(std::move(responseFileNameFull)); // Construct the name to be used on the command line. std::string responseFileName = cmStrCat(this->TargetBuildDirectory, '/', name); return responseFileName; } std::unique_ptr cmMakefileTargetGenerator::CreateLinkLineComputer( cmOutputConverter* outputConverter, cmStateDirectory const& stateDir) { if (this->Makefile->IsOn("MSVC60")) { return this->GlobalGenerator->CreateMSVC60LinkLineComputer(outputConverter, stateDir); } return this->GlobalGenerator->CreateLinkLineComputer(outputConverter, stateDir); } void cmMakefileTargetGenerator::CreateLinkLibs( cmLinkLineComputer* linkLineComputer, std::string& linkLibs, bool useResponseFile, std::vector& makefile_depends) { std::string frameworkPath; std::string linkPath; cmComputeLinkInformation* pcli = this->GeneratorTarget->GetLinkInformation(this->GetConfigName()); this->LocalGenerator->OutputLinkLibraries(pcli, linkLineComputer, linkLibs, frameworkPath, linkPath); linkLibs = frameworkPath + linkPath + linkLibs; if (useResponseFile && linkLibs.find_first_not_of(' ') != std::string::npos) { // Lookup the response file reference flag. std::string responseFlagVar = cmStrCat("CMAKE_", this->GeneratorTarget->GetLinkerLanguage(this->GetConfigName()), "_RESPONSE_FILE_LINK_FLAG"); std::string responseFlag; if (cmProp p = this->Makefile->GetDefinition(responseFlagVar)) { responseFlag = *p; } else { responseFlag = "@"; } // Create this response file. std::string link_rsp = this->CreateResponseFile("linklibs.rsp", linkLibs, makefile_depends); // Reference the response file. linkLibs = cmStrCat(responseFlag, this->LocalGenerator->ConvertToOutputFormat( link_rsp, cmOutputConverter::SHELL)); } } void cmMakefileTargetGenerator::CreateObjectLists( bool useLinkScript, bool useArchiveRules, bool useResponseFile, std::string& buildObjs, std::vector& makefile_depends, bool useWatcomQuote) { std::string variableName; std::string variableNameExternal; this->WriteObjectsVariable(variableName, variableNameExternal, useWatcomQuote); if (useResponseFile) { // MSVC response files cannot exceed 128K. std::string::size_type const responseFileLimit = 131000; // Construct the individual object list strings. std::vector object_strings; this->WriteObjectsStrings(object_strings, responseFileLimit); // Lookup the response file reference flag. std::string responseFlagVar = cmStrCat("CMAKE_", this->GeneratorTarget->GetLinkerLanguage(this->GetConfigName()), "_RESPONSE_FILE_LINK_FLAG"); std::string responseFlag; if (cmProp p = this->Makefile->GetDefinition(responseFlagVar)) { responseFlag = *p; } else { responseFlag = "@"; } // Write a response file for each string. const char* sep = ""; for (unsigned int i = 0; i < object_strings.size(); ++i) { // Number the response files. char rsp[32]; sprintf(rsp, "objects%u.rsp", i + 1); // Create this response file. std::string objects_rsp = this->CreateResponseFile(rsp, object_strings[i], makefile_depends); // Separate from previous response file references. buildObjs += sep; sep = " "; // Reference the response file. buildObjs += responseFlag; buildObjs += this->LocalGenerator->ConvertToOutputFormat( objects_rsp, cmOutputConverter::SHELL); } } else if (useLinkScript) { if (!useArchiveRules) { std::vector objStrings; this->WriteObjectsStrings(objStrings); buildObjs = objStrings[0]; } } else { buildObjs = cmStrCat("$(", variableName, ") $(", variableNameExternal, ')'); } } void cmMakefileTargetGenerator::AddIncludeFlags(std::string& flags, const std::string& lang, const std::string& /*config*/) { std::string responseVar = cmStrCat("CMAKE_", lang, "_USE_RESPONSE_FILE_FOR_INCLUDES"); bool useResponseFile = this->Makefile->IsOn(responseVar); std::vector includes; this->LocalGenerator->GetIncludeDirectories(includes, this->GeneratorTarget, lang, this->GetConfigName()); std::string includeFlags = this->LocalGenerator->GetIncludeFlags( includes, this->GeneratorTarget, lang, false, useResponseFile, this->GetConfigName()); if (includeFlags.empty()) { return; } if (useResponseFile) { std::string const responseFlagVar = "CMAKE_" + lang + "_RESPONSE_FILE_FLAG"; std::string responseFlag = this->Makefile->GetSafeDefinition(responseFlagVar); if (responseFlag.empty()) { responseFlag = "@"; } std::string name = cmStrCat("includes_", lang, ".rsp"); std::string arg = std::move(responseFlag) + this->CreateResponseFile(name.c_str(), includeFlags, this->FlagFileDepends[lang]); this->LocalGenerator->AppendFlags(flags, arg); } else { this->LocalGenerator->AppendFlags(flags, includeFlags); } } void cmMakefileTargetGenerator::GenDefFile( std::vector& real_link_commands) { cmGeneratorTarget::ModuleDefinitionInfo const* mdi = this->GeneratorTarget->GetModuleDefinitionInfo(this->GetConfigName()); if (!mdi || !mdi->DefFileGenerated) { return; } std::string cmd = cmSystemTools::GetCMakeCommand(); cmd = cmStrCat( this->LocalGenerator->ConvertToOutputFormat(cmd, cmOutputConverter::SHELL), " -E __create_def ", this->LocalGenerator->ConvertToOutputFormat( this->LocalGenerator->MaybeConvertToRelativePath( this->LocalGenerator->GetCurrentBinaryDirectory(), mdi->DefFile), cmOutputConverter::SHELL), ' '); std::string objlist_file = mdi->DefFile + ".objs"; cmd += this->LocalGenerator->ConvertToOutputFormat( this->LocalGenerator->MaybeConvertToRelativePath( this->LocalGenerator->GetCurrentBinaryDirectory(), objlist_file), cmOutputConverter::SHELL); cmProp nm_executable = this->Makefile->GetDefinition("CMAKE_NM"); if (cmNonempty(nm_executable)) { cmd += " --nm="; cmd += this->LocalCommonGenerator->ConvertToOutputFormat( *nm_executable, cmOutputConverter::SHELL); } real_link_commands.insert(real_link_commands.begin(), cmd); // create a list of obj files for the -E __create_def to read cmGeneratedFileStream fout(objlist_file); if (mdi->WindowsExportAllSymbols) { for (std::string const& obj : this->Objects) { if (cmHasLiteralSuffix(obj, ".obj")) { fout << obj << "\n"; } } for (std::string const& obj : this->ExternalObjects) { fout << obj << "\n"; } } for (cmSourceFile const* src : mdi->Sources) { fout << src->GetFullPath() << "\n"; } }