/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmNinjaNormalTargetGenerator.h" #include #include #include #include #include #include #include #include "cm_memory.hxx" #include "cmAlgorithms.h" #include "cmCustomCommand.h" // IWYU pragma: keep #include "cmCustomCommandGenerator.h" #include "cmGeneratedFileStream.h" #include "cmGeneratorTarget.h" #include "cmGlobalNinjaGenerator.h" #include "cmLinkLineComputer.h" #include "cmLinkLineDeviceComputer.h" #include "cmLocalGenerator.h" #include "cmLocalNinjaGenerator.h" #include "cmMakefile.h" #include "cmNinjaLinkLineDeviceComputer.h" #include "cmNinjaTypes.h" #include "cmOSXBundleGenerator.h" #include "cmOutputConverter.h" #include "cmRulePlaceholderExpander.h" #include "cmSourceFile.h" #include "cmState.h" #include "cmStateDirectory.h" #include "cmStateSnapshot.h" #include "cmStateTypes.h" #include "cmStringAlgorithms.h" #include "cmSystemTools.h" cmNinjaNormalTargetGenerator::cmNinjaNormalTargetGenerator( cmGeneratorTarget* target) : cmNinjaTargetGenerator(target) , TargetLinkLanguage("") { this->TargetLinkLanguage = target->GetLinkerLanguage(this->GetConfigName()); if (target->GetType() == cmStateEnums::EXECUTABLE) { this->TargetNames = this->GetGeneratorTarget()->GetExecutableNames( GetLocalGenerator()->GetConfigName()); } else { this->TargetNames = this->GetGeneratorTarget()->GetLibraryNames( GetLocalGenerator()->GetConfigName()); } if (target->GetType() != cmStateEnums::OBJECT_LIBRARY) { // on Windows the output dir is already needed at compile time // ensure the directory exists (OutDir test) EnsureDirectoryExists(target->GetDirectory(this->GetConfigName())); } this->OSXBundleGenerator = cm::make_unique(target, this->GetConfigName()); this->OSXBundleGenerator->SetMacContentFolders(&this->MacContentFolders); } cmNinjaNormalTargetGenerator::~cmNinjaNormalTargetGenerator() = default; void cmNinjaNormalTargetGenerator::Generate() { if (this->TargetLinkLanguage.empty()) { cmSystemTools::Error("CMake can not determine linker language for " "target: " + this->GetGeneratorTarget()->GetName()); return; } // Write the rules for each language. this->WriteLanguagesRules(); // Write the build statements this->WriteObjectBuildStatements(); if (this->GetGeneratorTarget()->GetType() == cmStateEnums::OBJECT_LIBRARY) { this->WriteObjectLibStatement(); } else { // If this target has cuda language link inputs, and we need to do // device linking this->WriteDeviceLinkStatement(); this->WriteLinkStatement(); } this->AdditionalCleanFiles(); } void cmNinjaNormalTargetGenerator::WriteLanguagesRules() { #ifdef NINJA_GEN_VERBOSE_FILES cmGlobalNinjaGenerator::WriteDivider(this->GetRulesFileStream()); this->GetRulesFileStream() << "# Rules for each languages for " << cmState::GetTargetTypeName(this->GetGeneratorTarget()->GetType()) << " target " << this->GetTargetName() << "\n\n"; #endif // Write rules for languages compiled in this target. std::set languages; std::vector sourceFiles; this->GetGeneratorTarget()->GetObjectSources( sourceFiles, this->GetMakefile()->GetSafeDefinition("CMAKE_BUILD_TYPE")); for (cmSourceFile const* sf : sourceFiles) { std::string const lang = sf->GetLanguage(); if (!lang.empty()) { languages.insert(lang); } } for (std::string const& language : languages) { this->WriteLanguageRules(language); } } const char* cmNinjaNormalTargetGenerator::GetVisibleTypeName() const { switch (this->GetGeneratorTarget()->GetType()) { case cmStateEnums::STATIC_LIBRARY: return "static library"; case cmStateEnums::SHARED_LIBRARY: return "shared library"; case cmStateEnums::MODULE_LIBRARY: if (this->GetGeneratorTarget()->IsCFBundleOnApple()) { return "CFBundle shared module"; } else { return "shared module"; } case cmStateEnums::EXECUTABLE: return "executable"; default: return nullptr; } } std::string cmNinjaNormalTargetGenerator::LanguageLinkerRule() const { return this->TargetLinkLanguage + "_" + cmState::GetTargetTypeName(this->GetGeneratorTarget()->GetType()) + "_LINKER__" + cmGlobalNinjaGenerator::EncodeRuleName( this->GetGeneratorTarget()->GetName()); } std::string cmNinjaNormalTargetGenerator::LanguageLinkerDeviceRule() const { return this->TargetLinkLanguage + "_" + cmState::GetTargetTypeName(this->GetGeneratorTarget()->GetType()) + "_DEVICE_LINKER__" + cmGlobalNinjaGenerator::EncodeRuleName( this->GetGeneratorTarget()->GetName()); } struct cmNinjaRemoveNoOpCommands { bool operator()(std::string const& cmd) { return cmd.empty() || cmd[0] == ':'; } }; void cmNinjaNormalTargetGenerator::WriteDeviceLinkRule(bool useResponseFile) { cmNinjaRule rule(this->LanguageLinkerDeviceRule()); if (!this->GetGlobalGenerator()->HasRule(rule.Name)) { cmRulePlaceholderExpander::RuleVariables vars; vars.CMTargetName = this->GetGeneratorTarget()->GetName().c_str(); vars.CMTargetType = cmState::GetTargetTypeName(this->GetGeneratorTarget()->GetType()); vars.Language = "CUDA"; // build response file name std::string responseFlag = this->GetMakefile()->GetSafeDefinition( "CMAKE_CUDA_RESPONSE_FILE_LINK_FLAG"); if (!useResponseFile || responseFlag.empty()) { vars.Objects = "$in"; vars.LinkLibraries = "$LINK_PATH $LINK_LIBRARIES"; } else { rule.RspFile = "$RSP_FILE"; responseFlag += rule.RspFile; // build response file content if (this->GetGlobalGenerator()->IsGCCOnWindows()) { rule.RspContent = "$in"; } else { rule.RspContent = "$in_newline"; } rule.RspContent += " $LINK_LIBRARIES"; vars.Objects = responseFlag.c_str(); vars.LinkLibraries = ""; } vars.ObjectDir = "$OBJECT_DIR"; vars.Target = "$TARGET_FILE"; vars.SONameFlag = "$SONAME_FLAG"; vars.TargetSOName = "$SONAME"; vars.TargetPDB = "$TARGET_PDB"; vars.TargetCompilePDB = "$TARGET_COMPILE_PDB"; vars.Flags = "$FLAGS"; vars.LinkFlags = "$LINK_FLAGS"; vars.Manifests = "$MANIFESTS"; std::string langFlags; if (this->GetGeneratorTarget()->GetType() != cmStateEnums::EXECUTABLE) { langFlags += "$LANGUAGE_COMPILE_FLAGS $ARCH_FLAGS"; vars.LanguageCompileFlags = langFlags.c_str(); } std::string launcher; const char* val = this->GetLocalGenerator()->GetRuleLauncher( this->GetGeneratorTarget(), "RULE_LAUNCH_LINK"); if (val && *val) { launcher = val; launcher += " "; } std::unique_ptr rulePlaceholderExpander( this->GetLocalGenerator()->CreateRulePlaceholderExpander()); // Rule for linking library/executable. std::vector linkCmds = this->ComputeDeviceLinkCmd(); for (std::string& linkCmd : linkCmds) { linkCmd = cmStrCat(launcher, linkCmd); rulePlaceholderExpander->ExpandRuleVariables(this->GetLocalGenerator(), linkCmd, vars); } // If there is no ranlib the command will be ":". Skip it. cmEraseIf(linkCmds, cmNinjaRemoveNoOpCommands()); rule.Command = this->GetLocalGenerator()->BuildCommandLine(linkCmds); // Write the linker rule with response file if needed. rule.Comment = "Rule for linking "; rule.Comment += this->TargetLinkLanguage; rule.Comment += " "; rule.Comment += this->GetVisibleTypeName(); rule.Comment += "."; rule.Description = "Linking "; rule.Description += this->TargetLinkLanguage; rule.Description += " "; rule.Description += this->GetVisibleTypeName(); rule.Description += " $TARGET_FILE"; rule.Restat = "$RESTAT"; this->GetGlobalGenerator()->AddRule(rule); } } void cmNinjaNormalTargetGenerator::WriteLinkRule(bool useResponseFile) { cmStateEnums::TargetType targetType = this->GetGeneratorTarget()->GetType(); std::string linkRuleName = this->LanguageLinkerRule(); if (!this->GetGlobalGenerator()->HasRule(linkRuleName)) { cmNinjaRule rule(std::move(linkRuleName)); cmRulePlaceholderExpander::RuleVariables vars; vars.CMTargetName = this->GetGeneratorTarget()->GetName().c_str(); vars.CMTargetType = cmState::GetTargetTypeName(targetType); vars.Language = this->TargetLinkLanguage.c_str(); if (this->TargetLinkLanguage == "Swift") { vars.SwiftLibraryName = "$SWIFT_LIBRARY_NAME"; vars.SwiftModule = "$SWIFT_MODULE"; vars.SwiftModuleName = "$SWIFT_MODULE_NAME"; vars.SwiftOutputFileMap = "$SWIFT_OUTPUT_FILE_MAP"; vars.SwiftSources = "$SWIFT_SOURCES"; vars.Defines = "$DEFINES"; vars.Flags = "$FLAGS"; vars.Includes = "$INCLUDES"; } std::string responseFlag; std::string cmakeVarLang = "CMAKE_"; cmakeVarLang += this->TargetLinkLanguage; // build response file name std::string cmakeLinkVar = cmakeVarLang + "_RESPONSE_FILE_LINK_FLAG"; const char* flag = GetMakefile()->GetDefinition(cmakeLinkVar); if (flag) { responseFlag = flag; } else if (this->TargetLinkLanguage != "CUDA") { responseFlag = "@"; } if (!useResponseFile || responseFlag.empty()) { vars.Objects = "$in"; vars.LinkLibraries = "$LINK_PATH $LINK_LIBRARIES"; } else { rule.RspFile = "$RSP_FILE"; responseFlag += rule.RspFile; // build response file content if (this->GetGlobalGenerator()->IsGCCOnWindows()) { rule.RspContent = "$in"; } else { rule.RspContent = "$in_newline"; } rule.RspContent += " $LINK_PATH $LINK_LIBRARIES"; if (this->TargetLinkLanguage == "Swift") { vars.SwiftSources = responseFlag.c_str(); } else { vars.Objects = responseFlag.c_str(); } vars.LinkLibraries = ""; } vars.ObjectDir = "$OBJECT_DIR"; vars.Target = "$TARGET_FILE"; vars.SONameFlag = "$SONAME_FLAG"; vars.TargetSOName = "$SONAME"; vars.TargetInstallNameDir = "$INSTALLNAME_DIR"; vars.TargetPDB = "$TARGET_PDB"; // Setup the target version. std::string targetVersionMajor; std::string targetVersionMinor; { std::ostringstream majorStream; std::ostringstream minorStream; int major; int minor; this->GetGeneratorTarget()->GetTargetVersion(major, minor); majorStream << major; minorStream << minor; targetVersionMajor = majorStream.str(); targetVersionMinor = minorStream.str(); } vars.TargetVersionMajor = targetVersionMajor.c_str(); vars.TargetVersionMinor = targetVersionMinor.c_str(); vars.Flags = "$FLAGS"; vars.LinkFlags = "$LINK_FLAGS"; vars.Manifests = "$MANIFESTS"; std::string langFlags; if (targetType != cmStateEnums::EXECUTABLE) { langFlags += "$LANGUAGE_COMPILE_FLAGS $ARCH_FLAGS"; vars.LanguageCompileFlags = langFlags.c_str(); } std::string launcher; const char* val = this->GetLocalGenerator()->GetRuleLauncher( this->GetGeneratorTarget(), "RULE_LAUNCH_LINK"); if (val && *val) { launcher = val; launcher += " "; } std::unique_ptr rulePlaceholderExpander( this->GetLocalGenerator()->CreateRulePlaceholderExpander()); // Rule for linking library/executable. std::vector linkCmds = this->ComputeLinkCmd(); for (std::string& linkCmd : linkCmds) { linkCmd = cmStrCat(launcher, linkCmd); rulePlaceholderExpander->ExpandRuleVariables(this->GetLocalGenerator(), linkCmd, vars); } // If there is no ranlib the command will be ":". Skip it. cmEraseIf(linkCmds, cmNinjaRemoveNoOpCommands()); linkCmds.insert(linkCmds.begin(), "$PRE_LINK"); linkCmds.emplace_back("$POST_BUILD"); rule.Command = this->GetLocalGenerator()->BuildCommandLine(linkCmds); // Write the linker rule with response file if needed. rule.Comment = "Rule for linking "; rule.Comment += this->TargetLinkLanguage; rule.Comment += " "; rule.Comment += this->GetVisibleTypeName(); rule.Comment += "."; rule.Description = "Linking "; rule.Description += this->TargetLinkLanguage; rule.Description += " "; rule.Description += this->GetVisibleTypeName(); rule.Description += " $TARGET_FILE"; rule.Restat = "$RESTAT"; this->GetGlobalGenerator()->AddRule(rule); } if (this->TargetNames.Output != this->TargetNames.Real && !this->GetGeneratorTarget()->IsFrameworkOnApple()) { std::string cmakeCommand = this->GetLocalGenerator()->ConvertToOutputFormat( cmSystemTools::GetCMakeCommand(), cmOutputConverter::SHELL); if (targetType == cmStateEnums::EXECUTABLE) { cmNinjaRule rule("CMAKE_SYMLINK_EXECUTABLE"); { std::vector cmd; cmd.push_back(cmakeCommand + " -E cmake_symlink_executable $in $out"); cmd.emplace_back("$POST_BUILD"); rule.Command = this->GetLocalGenerator()->BuildCommandLine(cmd); } rule.Description = "Creating executable symlink $out"; rule.Comment = "Rule for creating executable symlink."; this->GetGlobalGenerator()->AddRule(rule); } else { cmNinjaRule rule("CMAKE_SYMLINK_LIBRARY"); { std::vector cmd; cmd.push_back(cmakeCommand + " -E cmake_symlink_library $in $SONAME $out"); cmd.emplace_back("$POST_BUILD"); rule.Command = this->GetLocalGenerator()->BuildCommandLine(cmd); } rule.Description = "Creating library symlink $out"; rule.Comment = "Rule for creating library symlink."; this->GetGlobalGenerator()->AddRule(rule); } } } std::vector cmNinjaNormalTargetGenerator::ComputeDeviceLinkCmd() { std::vector linkCmds; // this target requires separable cuda compilation // now build the correct command depending on if the target is // an executable or a dynamic library. std::string linkCmd; switch (this->GetGeneratorTarget()->GetType()) { case cmStateEnums::STATIC_LIBRARY: case cmStateEnums::SHARED_LIBRARY: case cmStateEnums::MODULE_LIBRARY: { const std::string cudaLinkCmd( this->GetMakefile()->GetDefinition("CMAKE_CUDA_DEVICE_LINK_LIBRARY")); cmExpandList(cudaLinkCmd, linkCmds); } break; case cmStateEnums::EXECUTABLE: { const std::string cudaLinkCmd(this->GetMakefile()->GetDefinition( "CMAKE_CUDA_DEVICE_LINK_EXECUTABLE")); cmExpandList(cudaLinkCmd, linkCmds); } break; default: break; } return linkCmds; } std::vector cmNinjaNormalTargetGenerator::ComputeLinkCmd() { std::vector linkCmds; cmMakefile* mf = this->GetMakefile(); { // If we have a rule variable prefer it. In the case of static libraries // this occurs when things like IPO is enabled, and we need to use the // CMAKE__CREATE_STATIC_LIBRARY_IPO define instead. std::string linkCmdVar = this->GetGeneratorTarget()->GetCreateRuleVariable( this->TargetLinkLanguage, this->GetConfigName()); const char* linkCmd = mf->GetDefinition(linkCmdVar); if (linkCmd) { std::string linkCmdStr = linkCmd; if (this->GetGeneratorTarget()->HasImplibGNUtoMS(this->ConfigName)) { std::string ruleVar = "CMAKE_"; ruleVar += this->GeneratorTarget->GetLinkerLanguage(this->ConfigName); ruleVar += "_GNUtoMS_RULE"; if (const char* rule = this->Makefile->GetDefinition(ruleVar)) { linkCmdStr += rule; } } cmExpandList(linkCmdStr, linkCmds); if (this->GetGeneratorTarget()->GetPropertyAsBool("LINK_WHAT_YOU_USE")) { std::string cmakeCommand = this->GetLocalGenerator()->ConvertToOutputFormat( cmSystemTools::GetCMakeCommand(), cmLocalGenerator::SHELL); cmakeCommand += " -E __run_co_compile --lwyu="; cmGeneratorTarget& gt = *this->GetGeneratorTarget(); const std::string cfgName = this->GetConfigName(); std::string targetOutputReal = this->ConvertToNinjaPath( gt.GetFullPath(cfgName, cmStateEnums::RuntimeBinaryArtifact, /*realname=*/true)); cmakeCommand += targetOutputReal; linkCmds.push_back(std::move(cmakeCommand)); } return linkCmds; } } switch (this->GetGeneratorTarget()->GetType()) { case cmStateEnums::STATIC_LIBRARY: { // We have archive link commands set. First, delete the existing archive. { std::string cmakeCommand = this->GetLocalGenerator()->ConvertToOutputFormat( cmSystemTools::GetCMakeCommand(), cmOutputConverter::SHELL); linkCmds.push_back(cmakeCommand + " -E remove $TARGET_FILE"); } // TODO: Use ARCHIVE_APPEND for archives over a certain size. { std::string linkCmdVar = "CMAKE_"; linkCmdVar += this->TargetLinkLanguage; linkCmdVar += "_ARCHIVE_CREATE"; linkCmdVar = this->GeneratorTarget->GetFeatureSpecificLinkRuleVariable( linkCmdVar, this->TargetLinkLanguage, this->GetConfigName()); std::string const& linkCmd = mf->GetRequiredDefinition(linkCmdVar); cmExpandList(linkCmd, linkCmds); } { std::string linkCmdVar = "CMAKE_"; linkCmdVar += this->TargetLinkLanguage; linkCmdVar += "_ARCHIVE_FINISH"; linkCmdVar = this->GeneratorTarget->GetFeatureSpecificLinkRuleVariable( linkCmdVar, this->TargetLinkLanguage, this->GetConfigName()); std::string const& linkCmd = mf->GetRequiredDefinition(linkCmdVar); cmExpandList(linkCmd, linkCmds); } #ifdef __APPLE__ // On macOS ranlib truncates the fractional part of the static archive // file modification time. If the archive and at least one contained // object file were created within the same second this will make look // the archive older than the object file. On subsequent ninja runs this // leads to re-achiving and updating dependent targets. // As a work-around we touch the archive after ranlib (see #19222). { std::string cmakeCommand = this->GetLocalGenerator()->ConvertToOutputFormat( cmSystemTools::GetCMakeCommand(), cmOutputConverter::SHELL); linkCmds.push_back(cmakeCommand + " -E touch $TARGET_FILE"); } #endif return linkCmds; } case cmStateEnums::SHARED_LIBRARY: case cmStateEnums::MODULE_LIBRARY: case cmStateEnums::EXECUTABLE: break; default: assert(false && "Unexpected target type"); } return std::vector(); } void cmNinjaNormalTargetGenerator::WriteDeviceLinkStatement() { cmGlobalNinjaGenerator* globalGen = this->GetGlobalGenerator(); if (!globalGen->GetLanguageEnabled("CUDA")) { return; } cmGeneratorTarget* genTarget = this->GetGeneratorTarget(); bool requiresDeviceLinking = requireDeviceLinking( *this->GeneratorTarget, *this->GetLocalGenerator(), this->ConfigName); if (!requiresDeviceLinking) { return; } // Now we can do device linking // First and very important step is to make sure while inside this // step our link language is set to CUDA std::string cudaLinkLanguage = "CUDA"; std::string const& objExt = this->Makefile->GetSafeDefinition("CMAKE_CUDA_OUTPUT_EXTENSION"); std::string const cfgName = this->GetConfigName(); std::string const targetOutputReal = ConvertToNinjaPath( genTarget->ObjectDirectory + "cmake_device_link" + objExt); std::string const targetOutputImplib = ConvertToNinjaPath( genTarget->GetFullPath(cfgName, cmStateEnums::ImportLibraryArtifact)); this->DeviceLinkObject = targetOutputReal; // Write comments. cmGlobalNinjaGenerator::WriteDivider(this->GetBuildFileStream()); const cmStateEnums::TargetType targetType = genTarget->GetType(); this->GetBuildFileStream() << "# Device Link build statements for " << cmState::GetTargetTypeName(targetType) << " target " << this->GetTargetName() << "\n\n"; // Compute the comment. cmNinjaBuild build(this->LanguageLinkerDeviceRule()); build.Comment = "Link the "; build.Comment += this->GetVisibleTypeName(); build.Comment += " "; build.Comment += targetOutputReal; cmNinjaVars& vars = build.Variables; // Compute outputs. build.Outputs.push_back(targetOutputReal); // Compute specific libraries to link with. build.ExplicitDeps = this->GetObjects(); build.ImplicitDeps = this->ComputeLinkDeps(this->TargetLinkLanguage); std::string frameworkPath; std::string linkPath; std::string createRule = genTarget->GetCreateRuleVariable( this->TargetLinkLanguage, this->GetConfigName()); const bool useWatcomQuote = this->GetMakefile()->IsOn(createRule + "_USE_WATCOM_QUOTE"); cmLocalNinjaGenerator& localGen = *this->GetLocalGenerator(); vars["TARGET_FILE"] = localGen.ConvertToOutputFormat(targetOutputReal, cmOutputConverter::SHELL); std::unique_ptr linkLineComputer( new cmNinjaLinkLineDeviceComputer( this->GetLocalGenerator(), this->GetLocalGenerator()->GetStateSnapshot().GetDirectory(), globalGen)); linkLineComputer->SetUseWatcomQuote(useWatcomQuote); localGen.GetTargetFlags( linkLineComputer.get(), this->GetConfigName(), vars["LINK_LIBRARIES"], vars["FLAGS"], vars["LINK_FLAGS"], frameworkPath, linkPath, genTarget); this->addPoolNinjaVariable("JOB_POOL_LINK", genTarget, vars); vars["LINK_FLAGS"] = cmGlobalNinjaGenerator::EncodeLiteral(vars["LINK_FLAGS"]); vars["MANIFESTS"] = this->GetManifests(); vars["LINK_PATH"] = frameworkPath + linkPath; // Compute architecture specific link flags. Yes, these go into a different // variable for executables, probably due to a mistake made when duplicating // code between the Makefile executable and library generators. if (targetType == cmStateEnums::EXECUTABLE) { std::string t = vars["FLAGS"]; localGen.AddArchitectureFlags(t, genTarget, cudaLinkLanguage, cfgName); vars["FLAGS"] = t; } else { std::string t = vars["ARCH_FLAGS"]; localGen.AddArchitectureFlags(t, genTarget, cudaLinkLanguage, cfgName); vars["ARCH_FLAGS"] = t; t.clear(); localGen.AddLanguageFlagsForLinking(t, genTarget, cudaLinkLanguage, cfgName); vars["LANGUAGE_COMPILE_FLAGS"] = t; } if (genTarget->HasSOName(cfgName)) { vars["SONAME_FLAG"] = this->GetMakefile()->GetSONameFlag(this->TargetLinkLanguage); vars["SONAME"] = this->TargetNames.SharedObject; if (targetType == cmStateEnums::SHARED_LIBRARY) { std::string install_dir = this->GetGeneratorTarget()->GetInstallNameDirForBuildTree(cfgName); if (!install_dir.empty()) { vars["INSTALLNAME_DIR"] = localGen.ConvertToOutputFormat( install_dir, cmOutputConverter::SHELL); } } } if (!this->TargetNames.ImportLibrary.empty()) { const std::string impLibPath = localGen.ConvertToOutputFormat( targetOutputImplib, cmOutputConverter::SHELL); vars["TARGET_IMPLIB"] = impLibPath; EnsureParentDirectoryExists(impLibPath); } const std::string objPath = GetGeneratorTarget()->GetSupportDirectory(); vars["OBJECT_DIR"] = this->GetLocalGenerator()->ConvertToOutputFormat( this->ConvertToNinjaPath(objPath), cmOutputConverter::SHELL); EnsureDirectoryExists(objPath); this->SetMsvcTargetPdbVariable(vars); if (globalGen->IsGCCOnWindows()) { // ar.exe can't handle backslashes in rsp files (implicitly used by gcc) std::string& linkLibraries = vars["LINK_LIBRARIES"]; std::replace(linkLibraries.begin(), linkLibraries.end(), '\\', '/'); std::string& link_path = vars["LINK_PATH"]; std::replace(link_path.begin(), link_path.end(), '\\', '/'); } // Device linking currently doesn't support response files so // do not check if the user has explicitly forced a response file. int const commandLineLengthLimit = static_cast(cmSystemTools::CalculateCommandLineLengthLimit()) - globalGen->GetRuleCmdLength(this->LanguageLinkerDeviceRule()); build.RspFile = this->ConvertToNinjaPath(std::string("CMakeFiles/") + genTarget->GetName() + ".rsp"); // Gather order-only dependencies. this->GetLocalGenerator()->AppendTargetDepends(this->GetGeneratorTarget(), build.OrderOnlyDeps); // Write the build statement for this target. bool usedResponseFile = false; globalGen->WriteBuild(this->GetBuildFileStream(), build, commandLineLengthLimit, &usedResponseFile); this->WriteDeviceLinkRule(usedResponseFile); } void cmNinjaNormalTargetGenerator::WriteLinkStatement() { cmMakefile* mf = this->GetMakefile(); cmGlobalNinjaGenerator* globalGen = this->GetGlobalGenerator(); cmGeneratorTarget* gt = this->GetGeneratorTarget(); const std::string cfgName = this->GetConfigName(); std::string targetOutput = ConvertToNinjaPath(gt->GetFullPath(cfgName)); std::string targetOutputReal = ConvertToNinjaPath( gt->GetFullPath(cfgName, cmStateEnums::RuntimeBinaryArtifact, /*realname=*/true)); std::string targetOutputImplib = ConvertToNinjaPath( gt->GetFullPath(cfgName, cmStateEnums::ImportLibraryArtifact)); if (gt->IsAppBundleOnApple()) { // Create the app bundle std::string outpath = gt->GetDirectory(cfgName); this->OSXBundleGenerator->CreateAppBundle(this->TargetNames.Output, outpath); // Calculate the output path targetOutput = outpath; targetOutput += "/"; targetOutput += this->TargetNames.Output; targetOutput = this->ConvertToNinjaPath(targetOutput); targetOutputReal = outpath; targetOutputReal += "/"; targetOutputReal += this->TargetNames.Real; targetOutputReal = this->ConvertToNinjaPath(targetOutputReal); } else if (gt->IsFrameworkOnApple()) { // Create the library framework. this->OSXBundleGenerator->CreateFramework(this->TargetNames.Output, gt->GetDirectory(cfgName)); } else if (gt->IsCFBundleOnApple()) { // Create the core foundation bundle. this->OSXBundleGenerator->CreateCFBundle(this->TargetNames.Output, gt->GetDirectory(cfgName)); } // Write comments. cmGlobalNinjaGenerator::WriteDivider(this->GetBuildFileStream()); const cmStateEnums::TargetType targetType = gt->GetType(); this->GetBuildFileStream() << "# Link build statements for " << cmState::GetTargetTypeName(targetType) << " target " << this->GetTargetName() << "\n\n"; cmNinjaBuild linkBuild(this->LanguageLinkerRule()); cmNinjaVars& vars = linkBuild.Variables; // Compute the comment. linkBuild.Comment = "Link the "; linkBuild.Comment += this->GetVisibleTypeName(); linkBuild.Comment += " "; linkBuild.Comment += targetOutputReal; // Compute outputs. linkBuild.Outputs.push_back(targetOutputReal); if (this->TargetLinkLanguage == "Swift") { vars["SWIFT_LIBRARY_NAME"] = [this]() -> std::string { cmGeneratorTarget::Names targetNames = this->GetGeneratorTarget()->GetLibraryNames(this->GetConfigName()); return targetNames.Base; }(); vars["SWIFT_MODULE_NAME"] = [gt]() -> std::string { if (const char* name = gt->GetProperty("Swift_MODULE_NAME")) { return name; } return gt->GetName(); }(); vars["SWIFT_MODULE"] = [this](const std::string& module) -> std::string { std::string directory = this->GetLocalGenerator()->GetCurrentBinaryDirectory(); if (const char* prop = this->GetGeneratorTarget()->GetProperty( "Swift_MODULE_DIRECTORY")) { directory = prop; } std::string name = module + ".swiftmodule"; if (const char* prop = this->GetGeneratorTarget()->GetProperty("Swift_MODULE")) { name = prop; } return this->GetLocalGenerator()->ConvertToOutputFormat( this->ConvertToNinjaPath(directory + "/" + name), cmOutputConverter::SHELL); }(vars["SWIFT_MODULE_NAME"]); vars["SWIFT_OUTPUT_FILE_MAP"] = this->GetLocalGenerator()->ConvertToOutputFormat( this->ConvertToNinjaPath(gt->GetSupportDirectory() + "/output-file-map.json"), cmOutputConverter::SHELL); vars["SWIFT_SOURCES"] = [this]() -> std::string { std::vector sources; std::stringstream oss; this->GetGeneratorTarget()->GetObjectSources(sources, this->GetConfigName()); cmLocalGenerator const* LocalGen = this->GetLocalGenerator(); for (const auto& source : sources) { oss << " " << LocalGen->ConvertToOutputFormat( this->ConvertToNinjaPath(this->GetSourceFilePath(source)), cmOutputConverter::SHELL); } return oss.str(); }(); // Since we do not perform object builds, compute the // defines/flags/includes here so that they can be passed along // appropriately. vars["DEFINES"] = this->GetDefines("Swift"); vars["FLAGS"] = this->GetFlags("Swift"); vars["INCLUDES"] = this->GetIncludes("Swift"); } // Compute specific libraries to link with. if (this->TargetLinkLanguage == "Swift") { std::vector sources; gt->GetObjectSources(sources, this->GetConfigName()); for (const auto& source : sources) { linkBuild.Outputs.push_back( this->ConvertToNinjaPath(this->GetObjectFilePath(source))); linkBuild.ExplicitDeps.push_back( this->ConvertToNinjaPath(this->GetSourceFilePath(source))); } linkBuild.Outputs.push_back(vars["SWIFT_MODULE"]); } else { linkBuild.ExplicitDeps = this->GetObjects(); } linkBuild.ImplicitDeps = this->ComputeLinkDeps(this->TargetLinkLanguage); if (!this->DeviceLinkObject.empty()) { linkBuild.ExplicitDeps.push_back(this->DeviceLinkObject); } std::string frameworkPath; std::string linkPath; std::string createRule = gt->GetCreateRuleVariable(this->TargetLinkLanguage, this->GetConfigName()); bool useWatcomQuote = mf->IsOn(createRule + "_USE_WATCOM_QUOTE"); cmLocalNinjaGenerator& localGen = *this->GetLocalGenerator(); vars["TARGET_FILE"] = localGen.ConvertToOutputFormat(targetOutputReal, cmOutputConverter::SHELL); std::unique_ptr linkLineComputer( globalGen->CreateLinkLineComputer( this->GetLocalGenerator(), this->GetLocalGenerator()->GetStateSnapshot().GetDirectory())); linkLineComputer->SetUseWatcomQuote(useWatcomQuote); localGen.GetTargetFlags(linkLineComputer.get(), this->GetConfigName(), vars["LINK_LIBRARIES"], vars["FLAGS"], vars["LINK_FLAGS"], frameworkPath, linkPath, gt); // Add OS X version flags, if any. if (this->GeneratorTarget->GetType() == cmStateEnums::SHARED_LIBRARY || this->GeneratorTarget->GetType() == cmStateEnums::MODULE_LIBRARY) { this->AppendOSXVerFlag(vars["LINK_FLAGS"], this->TargetLinkLanguage, "COMPATIBILITY", true); this->AppendOSXVerFlag(vars["LINK_FLAGS"], this->TargetLinkLanguage, "CURRENT", false); } this->addPoolNinjaVariable("JOB_POOL_LINK", gt, vars); this->AddModuleDefinitionFlag(linkLineComputer.get(), vars["LINK_FLAGS"]); vars["LINK_FLAGS"] = cmGlobalNinjaGenerator::EncodeLiteral(vars["LINK_FLAGS"]); vars["MANIFESTS"] = this->GetManifests(); vars["LINK_PATH"] = frameworkPath + linkPath; std::string lwyuFlags; if (gt->GetPropertyAsBool("LINK_WHAT_YOU_USE")) { lwyuFlags = " -Wl,--no-as-needed"; } // Compute architecture specific link flags. Yes, these go into a different // variable for executables, probably due to a mistake made when duplicating // code between the Makefile executable and library generators. if (targetType == cmStateEnums::EXECUTABLE) { std::string t = vars["FLAGS"]; localGen.AddArchitectureFlags(t, gt, TargetLinkLanguage, cfgName); t += lwyuFlags; vars["FLAGS"] = t; } else { std::string t = vars["ARCH_FLAGS"]; localGen.AddArchitectureFlags(t, gt, TargetLinkLanguage, cfgName); vars["ARCH_FLAGS"] = t; t.clear(); t += lwyuFlags; localGen.AddLanguageFlagsForLinking(t, gt, TargetLinkLanguage, cfgName); vars["LANGUAGE_COMPILE_FLAGS"] = t; } if (gt->HasSOName(cfgName)) { vars["SONAME_FLAG"] = mf->GetSONameFlag(this->TargetLinkLanguage); vars["SONAME"] = this->TargetNames.SharedObject; if (targetType == cmStateEnums::SHARED_LIBRARY) { std::string install_dir = gt->GetInstallNameDirForBuildTree(cfgName); if (!install_dir.empty()) { vars["INSTALLNAME_DIR"] = localGen.ConvertToOutputFormat( install_dir, cmOutputConverter::SHELL); } } } cmNinjaDeps byproducts; if (!this->TargetNames.ImportLibrary.empty()) { const std::string impLibPath = localGen.ConvertToOutputFormat( targetOutputImplib, cmOutputConverter::SHELL); vars["TARGET_IMPLIB"] = impLibPath; EnsureParentDirectoryExists(impLibPath); if (gt->HasImportLibrary(cfgName)) { byproducts.push_back(targetOutputImplib); } } if (!this->SetMsvcTargetPdbVariable(vars)) { // It is common to place debug symbols at a specific place, // so we need a plain target name in the rule available. std::string prefix; std::string base; std::string suffix; gt->GetFullNameComponents(prefix, base, suffix); std::string dbg_suffix = ".dbg"; // TODO: Where to document? if (mf->GetDefinition("CMAKE_DEBUG_SYMBOL_SUFFIX")) { dbg_suffix = mf->GetDefinition("CMAKE_DEBUG_SYMBOL_SUFFIX"); } vars["TARGET_PDB"] = base + suffix + dbg_suffix; } const std::string objPath = gt->GetSupportDirectory(); vars["OBJECT_DIR"] = this->GetLocalGenerator()->ConvertToOutputFormat( this->ConvertToNinjaPath(objPath), cmOutputConverter::SHELL); EnsureDirectoryExists(objPath); if (globalGen->IsGCCOnWindows()) { // ar.exe can't handle backslashes in rsp files (implicitly used by gcc) std::string& linkLibraries = vars["LINK_LIBRARIES"]; std::replace(linkLibraries.begin(), linkLibraries.end(), '\\', '/'); std::string& link_path = vars["LINK_PATH"]; std::replace(link_path.begin(), link_path.end(), '\\', '/'); } const std::vector* cmdLists[3] = { >->GetPreBuildCommands(), >->GetPreLinkCommands(), >->GetPostBuildCommands() }; std::vector preLinkCmdLines, postBuildCmdLines; std::vector* cmdLineLists[3] = { &preLinkCmdLines, &preLinkCmdLines, &postBuildCmdLines }; for (unsigned i = 0; i != 3; ++i) { for (cmCustomCommand const& cc : *cmdLists[i]) { cmCustomCommandGenerator ccg(cc, cfgName, this->GetLocalGenerator()); localGen.AppendCustomCommandLines(ccg, *cmdLineLists[i]); std::vector const& ccByproducts = ccg.GetByproducts(); std::transform(ccByproducts.begin(), ccByproducts.end(), std::back_inserter(byproducts), MapToNinjaPath()); } } // maybe create .def file from list of objects cmGeneratorTarget::ModuleDefinitionInfo const* mdi = gt->GetModuleDefinitionInfo(this->GetConfigName()); if (mdi && mdi->DefFileGenerated) { std::string cmakeCommand = this->GetLocalGenerator()->ConvertToOutputFormat( cmSystemTools::GetCMakeCommand(), cmOutputConverter::SHELL); std::string cmd = cmakeCommand; cmd += " -E __create_def "; cmd += this->GetLocalGenerator()->ConvertToOutputFormat( mdi->DefFile, cmOutputConverter::SHELL); cmd += " "; std::string obj_list_file = mdi->DefFile + ".objs"; cmd += this->GetLocalGenerator()->ConvertToOutputFormat( obj_list_file, cmOutputConverter::SHELL); preLinkCmdLines.push_back(std::move(cmd)); // create a list of obj files for the -E __create_def to read cmGeneratedFileStream fout(obj_list_file); if (mdi->WindowsExportAllSymbols) { cmNinjaDeps objs = this->GetObjects(); for (std::string const& obj : objs) { if (cmHasLiteralSuffix(obj, ".obj")) { fout << obj << "\n"; } } } for (cmSourceFile const* src : mdi->Sources) { fout << src->GetFullPath() << "\n"; } } // If we have any PRE_LINK commands, we need to go back to CMAKE_BINARY_DIR // for the link commands. if (!preLinkCmdLines.empty()) { const std::string homeOutDir = localGen.ConvertToOutputFormat( localGen.GetBinaryDirectory(), cmOutputConverter::SHELL); preLinkCmdLines.push_back("cd " + homeOutDir); } vars["PRE_LINK"] = localGen.BuildCommandLine(preLinkCmdLines, "pre-link", this->GeneratorTarget); std::string postBuildCmdLine = localGen.BuildCommandLine( postBuildCmdLines, "post-build", this->GeneratorTarget); cmNinjaVars symlinkVars; bool const symlinkNeeded = (targetOutput != targetOutputReal && !gt->IsFrameworkOnApple()); if (!symlinkNeeded) { vars["POST_BUILD"] = postBuildCmdLine; } else { vars["POST_BUILD"] = cmGlobalNinjaGenerator::SHELL_NOOP; symlinkVars["POST_BUILD"] = postBuildCmdLine; } std::string cmakeVarLang = "CMAKE_"; cmakeVarLang += this->TargetLinkLanguage; // build response file name std::string cmakeLinkVar = cmakeVarLang + "_RESPONSE_FILE_LINK_FLAG"; const char* flag = GetMakefile()->GetDefinition(cmakeLinkVar); bool const lang_supports_response = !(this->TargetLinkLanguage == "RC" || (this->TargetLinkLanguage == "CUDA" && !flag)); int commandLineLengthLimit = -1; if (!lang_supports_response || !this->ForceResponseFile()) { commandLineLengthLimit = static_cast(cmSystemTools::CalculateCommandLineLengthLimit()) - globalGen->GetRuleCmdLength(linkBuild.Rule); } linkBuild.RspFile = this->ConvertToNinjaPath(std::string("CMakeFiles/") + gt->GetName() + ".rsp"); // Gather order-only dependencies. this->GetLocalGenerator()->AppendTargetDepends(gt, linkBuild.OrderOnlyDeps); // Ninja should restat after linking if and only if there are byproducts. vars["RESTAT"] = byproducts.empty() ? "" : "1"; for (std::string const& o : byproducts) { globalGen->SeenCustomCommandOutput(o); linkBuild.Outputs.push_back(o); } // Write the build statement for this target. bool usedResponseFile = false; globalGen->WriteBuild(this->GetBuildFileStream(), linkBuild, commandLineLengthLimit, &usedResponseFile); this->WriteLinkRule(usedResponseFile); if (symlinkNeeded) { if (targetType == cmStateEnums::EXECUTABLE) { cmNinjaBuild build("CMAKE_SYMLINK_EXECUTABLE"); build.Comment = "Create executable symlink " + targetOutput; build.Outputs.push_back(targetOutput); build.ExplicitDeps.push_back(targetOutputReal); build.Variables = std::move(symlinkVars); globalGen->WriteBuild(this->GetBuildFileStream(), build); } else { cmNinjaBuild build("CMAKE_SYMLINK_LIBRARY"); build.Comment = "Create library symlink " + targetOutput; std::string const soName = this->ConvertToNinjaPath( this->GetTargetFilePath(this->TargetNames.SharedObject)); // If one link has to be created. if (targetOutputReal == soName || targetOutput == soName) { symlinkVars["SONAME"] = this->GetLocalGenerator()->ConvertToOutputFormat( soName, cmOutputConverter::SHELL); } else { symlinkVars["SONAME"].clear(); build.Outputs.push_back(soName); } build.Outputs.push_back(targetOutput); build.ExplicitDeps.push_back(targetOutputReal); build.Variables = std::move(symlinkVars); globalGen->WriteBuild(this->GetBuildFileStream(), build); } } // Add aliases for the file name and the target name. globalGen->AddTargetAlias(this->TargetNames.Output, gt); globalGen->AddTargetAlias(this->GetTargetName(), gt); } void cmNinjaNormalTargetGenerator::WriteObjectLibStatement() { // Write a phony output that depends on all object files. { cmNinjaBuild build("phony"); build.Comment = "Object library " + this->GetTargetName(); this->GetLocalGenerator()->AppendTargetOutputs(this->GetGeneratorTarget(), build.Outputs); build.ExplicitDeps = this->GetObjects(); this->GetGlobalGenerator()->WriteBuild(this->GetBuildFileStream(), build); } // Add aliases for the target name. this->GetGlobalGenerator()->AddTargetAlias(this->GetTargetName(), this->GetGeneratorTarget()); }