/* Distributed under the OSI-approved BSD 3-Clause License. See accompanying file Copyright.txt or https://cmake.org/licensing for details. */ #include "cmGlobalXCodeGenerator.h" #include #include #include #include #include #include #include #include #include #include #include #include "cmsys/RegularExpression.hxx" #include "cmComputeLinkInformation.h" #include "cmCustomCommand.h" #include "cmCustomCommandGenerator.h" #include "cmCustomCommandLines.h" #include "cmDocumentationEntry.h" #include "cmGeneratedFileStream.h" #include "cmGeneratorExpression.h" #include "cmGeneratorTarget.h" #include "cmGlobalGeneratorFactory.h" #include "cmLocalGenerator.h" #include "cmLocalXCodeGenerator.h" #include "cmMakefile.h" #include "cmMessageType.h" #include "cmOutputConverter.h" #include "cmSourceFile.h" #include "cmSourceGroup.h" #include "cmState.h" #include "cmStateTypes.h" #include "cmStringAlgorithms.h" #include "cmSystemTools.h" #include "cmTarget.h" #include "cmXCode21Object.h" #include "cmXCodeObject.h" #include "cmXCodeScheme.h" #include "cmake.h" struct cmLinkImplementation; #if !defined(CMAKE_BOOTSTRAP) && defined(__APPLE__) # define HAVE_APPLICATION_SERVICES # include #endif #if !defined(CMAKE_BOOTSTRAP) # include "cmXMLParser.h" // parse the xml file storing the installed version of Xcode on // the machine class cmXcodeVersionParser : public cmXMLParser { public: cmXcodeVersionParser() : Version("1.5") { } void StartElement(const std::string&, const char**) override { this->Data = ""; } void EndElement(const std::string& name) override { if (name == "key") { this->Key = this->Data; } else if (name == "string") { if (this->Key == "CFBundleShortVersionString") { this->Version = this->Data; } } } void CharacterDataHandler(const char* data, int length) override { this->Data.append(data, length); } std::string Version; std::string Key; std::string Data; }; #endif // Builds either an object list or a space-separated string from the // given inputs. class cmGlobalXCodeGenerator::BuildObjectListOrString { cmGlobalXCodeGenerator* Generator; cmXCodeObject* Group; bool Empty; std::string String; public: BuildObjectListOrString(cmGlobalXCodeGenerator* gen, bool buildObjectList) : Generator(gen) , Group(nullptr) , Empty(true) { if (buildObjectList) { this->Group = this->Generator->CreateObject(cmXCodeObject::OBJECT_LIST); } } bool IsEmpty() const { return this->Empty; } void Add(const std::string& newString) { this->Empty = false; if (this->Group) { this->Group->AddObject(this->Generator->CreateString(newString)); } else { this->String += newString; this->String += ' '; } } const std::string& GetString() const { return this->String; } cmXCodeObject* CreateList() { if (this->Group) { return this->Group; } return this->Generator->CreateString(this->String); } }; class cmGlobalXCodeGenerator::Factory : public cmGlobalGeneratorFactory { public: std::unique_ptr CreateGlobalGenerator( const std::string& name, bool allowArch, cmake* cm) const override; void GetDocumentation(cmDocumentationEntry& entry) const override { cmGlobalXCodeGenerator::GetDocumentation(entry); } std::vector GetGeneratorNames() const override { std::vector names; names.push_back(cmGlobalXCodeGenerator::GetActualName()); return names; } std::vector GetGeneratorNamesWithPlatform() const override { return std::vector(); } bool SupportsToolset() const override { return true; } bool SupportsPlatform() const override { return false; } std::vector GetKnownPlatforms() const override { return std::vector(); } std::string GetDefaultPlatformName() const override { return std::string(); } }; cmGlobalXCodeGenerator::cmGlobalXCodeGenerator( cmake* cm, std::string const& version_string, unsigned int version_number) : cmGlobalGenerator(cm) { this->VersionString = version_string; this->XcodeVersion = version_number; if (this->XcodeVersion >= 120) { this->XcodeBuildSystem = BuildSystem::Twelve; } else { this->XcodeBuildSystem = BuildSystem::One; } this->RootObject = nullptr; this->MainGroupChildren = nullptr; this->FrameworkGroup = nullptr; this->CurrentMakefile = nullptr; this->CurrentLocalGenerator = nullptr; this->XcodeBuildCommandInitialized = false; this->ObjectDirArchDefault = "$(CURRENT_ARCH)"; this->ObjectDirArch = this->ObjectDirArchDefault; cm->GetState()->SetIsGeneratorMultiConfig(true); } std::unique_ptr cmGlobalXCodeGenerator::NewFactory() { return std::unique_ptr(new Factory); } std::unique_ptr cmGlobalXCodeGenerator::Factory::CreateGlobalGenerator(const std::string& name, bool /*allowArch*/, cmake* cm) const { if (name != GetActualName()) { return std::unique_ptr(); } #if !defined(CMAKE_BOOTSTRAP) cmXcodeVersionParser parser; std::string versionFile; { std::string out; bool commandResult = cmSystemTools::RunSingleCommand( "xcode-select --print-path", &out, nullptr, nullptr, nullptr, cmSystemTools::OUTPUT_NONE); if (commandResult) { std::string::size_type pos = out.find(".app/"); if (pos != std::string::npos) { versionFile = out.substr(0, pos + 5) + "Contents/version.plist"; } } } if (!versionFile.empty() && cmSystemTools::FileExists(versionFile)) { parser.ParseFile(versionFile.c_str()); } else if (cmSystemTools::FileExists( "/Applications/Xcode.app/Contents/version.plist")) { parser.ParseFile("/Applications/Xcode.app/Contents/version.plist"); } else { parser.ParseFile( "/Developer/Applications/Xcode.app/Contents/version.plist"); } std::string const& version_string = parser.Version; // Compute an integer form of the version number. unsigned int v[2] = { 0, 0 }; sscanf(version_string.c_str(), "%u.%u", &v[0], &v[1]); unsigned int version_number = 10 * v[0] + v[1]; if (version_number < 50) { cm->IssueMessage(MessageType::FATAL_ERROR, "Xcode " + version_string + " not supported."); return std::unique_ptr(); } return std::unique_ptr( cm::make_unique(cm, version_string, version_number)); #else std::cerr << "CMake should be built with cmake to use Xcode, " "default to Xcode 1.5\n"; return std::unique_ptr( cm::make_unique(cm)); #endif } bool cmGlobalXCodeGenerator::FindMakeProgram(cmMakefile* mf) { // The Xcode generator knows how to lookup its build tool // directly instead of needing a helper module to do it, so we // do not actually need to put CMAKE_MAKE_PROGRAM into the cache. if (cmIsOff(mf->GetDefinition("CMAKE_MAKE_PROGRAM"))) { mf->AddDefinition("CMAKE_MAKE_PROGRAM", this->GetXcodeBuildCommand()); } return true; } std::string const& cmGlobalXCodeGenerator::GetXcodeBuildCommand() { if (!this->XcodeBuildCommandInitialized) { this->XcodeBuildCommandInitialized = true; this->XcodeBuildCommand = this->FindXcodeBuildCommand(); } return this->XcodeBuildCommand; } std::string cmGlobalXCodeGenerator::FindXcodeBuildCommand() { std::string makeProgram = cmSystemTools::FindProgram("xcodebuild"); if (makeProgram.empty()) { makeProgram = "xcodebuild"; } return makeProgram; } bool cmGlobalXCodeGenerator::SetSystemName(std::string const& s, cmMakefile* mf) { this->SystemName = s; return this->cmGlobalGenerator::SetSystemName(s, mf); } namespace { cm::string_view cmXcodeBuildSystemString(cmGlobalXCodeGenerator::BuildSystem b) { switch (b) { case cmGlobalXCodeGenerator::BuildSystem::One: return "1"_s; case cmGlobalXCodeGenerator::BuildSystem::Twelve: return "12"_s; } return {}; } } bool cmGlobalXCodeGenerator::SetGeneratorToolset(std::string const& ts, bool build, cmMakefile* mf) { if (!this->ParseGeneratorToolset(ts, mf)) { return false; } if (build) { return true; } if (!this->GeneratorToolset.empty()) { mf->AddDefinition("CMAKE_XCODE_PLATFORM_TOOLSET", this->GeneratorToolset); } mf->AddDefinition("CMAKE_XCODE_BUILD_SYSTEM", cmXcodeBuildSystemString(this->XcodeBuildSystem)); return true; } bool cmGlobalXCodeGenerator::ParseGeneratorToolset(std::string const& ts, cmMakefile* mf) { std::vector const fields = cmTokenize(ts, ","); auto fi = fields.cbegin(); if (fi == fields.cend()) { return true; } // The first field may be the Xcode GCC_VERSION. if (fi->find('=') == fi->npos) { this->GeneratorToolset = *fi; ++fi; } std::unordered_set handled; // The rest of the fields must be key=value pairs. for (; fi != fields.cend(); ++fi) { std::string::size_type pos = fi->find('='); if (pos == fi->npos) { /* clang-format off */ std::string const& e = cmStrCat( "Generator\n" " ", this->GetName(), "\n" "given toolset specification\n" " ", ts, "\n" "that contains a field after the first ',' with no '='." ); /* clang-format on */ mf->IssueMessage(MessageType::FATAL_ERROR, e); return false; } std::string const key = fi->substr(0, pos); std::string const value = fi->substr(pos + 1); if (!handled.insert(key).second) { /* clang-format off */ std::string const& e = cmStrCat( "Generator\n" " ", this->GetName(), "\n" "given toolset specification\n" " ", ts, "\n" "that contains duplicate field key '", key, "'." ); /* clang-format on */ mf->IssueMessage(MessageType::FATAL_ERROR, e); return false; } if (!this->ProcessGeneratorToolsetField(key, value, mf)) { return false; } } return true; } bool cmGlobalXCodeGenerator::ProcessGeneratorToolsetField( std::string const& key, std::string const& value, cmMakefile* mf) { if (key == "buildsystem") { if (value == "1"_s) { this->XcodeBuildSystem = BuildSystem::One; } else if (value == "12"_s) { this->XcodeBuildSystem = BuildSystem::Twelve; } else { /* clang-format off */ std::string const& e = cmStrCat( "Generator\n" " ", this->GetName(), "\n" "toolset specification field\n" " buildsystem=", value, "\n" "value is unkonwn. It must be '1' or '12'." ); /* clang-format on */ mf->IssueMessage(MessageType::FATAL_ERROR, e); return false; } if (this->XcodeBuildSystem == BuildSystem::Twelve && this->XcodeVersion < 120) { /* clang-format off */ std::string const& e = cmStrCat( "Generator\n" " ", this->GetName(), "\n" "toolset specification field\n" " buildsystem=", value, "\n" "is not allowed with Xcode ", this->VersionString, '.' ); /* clang-format on */ mf->IssueMessage(MessageType::FATAL_ERROR, e); return false; } return true; } /* clang-format off */ std::string const& e = cmStrCat( "Generator\n" " ", this->GetName(), "\n" "given toolset specification that contains invalid field '", key, "'." ); /* clang-format on */ mf->IssueMessage(MessageType::FATAL_ERROR, e); return false; } void cmGlobalXCodeGenerator::EnableLanguage( std::vector const& lang, cmMakefile* mf, bool optional) { mf->AddDefinition("XCODE", "1"); mf->AddDefinition("XCODE_VERSION", this->VersionString); if (!mf->GetDefinition("CMAKE_CONFIGURATION_TYPES")) { mf->AddCacheDefinition( "CMAKE_CONFIGURATION_TYPES", "Debug;Release;MinSizeRel;RelWithDebInfo", "Semicolon separated list of supported configuration types, " "only supports Debug, Release, MinSizeRel, and RelWithDebInfo, " "anything else will be ignored.", cmStateEnums::STRING); } mf->AddDefinition("CMAKE_GENERATOR_NO_COMPILER_ENV", "1"); this->cmGlobalGenerator::EnableLanguage(lang, mf, optional); this->ComputeArchitectures(mf); } bool cmGlobalXCodeGenerator::Open(const std::string& bindir, const std::string& projectName, bool dryRun) { bool ret = false; #ifdef HAVE_APPLICATION_SERVICES std::string url = bindir + "/" + projectName + ".xcodeproj"; if (dryRun) { return cmSystemTools::FileExists(url, false); } CFStringRef cfStr = CFStringCreateWithCString( kCFAllocatorDefault, url.c_str(), kCFStringEncodingUTF8); if (cfStr) { CFURLRef cfUrl = CFURLCreateWithFileSystemPath(kCFAllocatorDefault, cfStr, kCFURLPOSIXPathStyle, true); if (cfUrl) { OSStatus err = LSOpenCFURLRef(cfUrl, nullptr); ret = err == noErr; CFRelease(cfUrl); } CFRelease(cfStr); } #endif return ret; } std::vector cmGlobalXCodeGenerator::GenerateBuildCommand( const std::string& makeProgram, const std::string& projectName, const std::string& /*projectDir*/, std::vector const& targetNames, const std::string& config, bool /*fast*/, int jobs, bool /*verbose*/, std::vector const& makeOptions) { GeneratedMakeCommand makeCommand; // now build the test makeCommand.Add( this->SelectMakeProgram(makeProgram, this->GetXcodeBuildCommand())); if (!projectName.empty()) { makeCommand.Add("-project"); std::string projectArg = cmStrCat(projectName, ".xcodeproj"); makeCommand.Add(projectArg); } if (cm::contains(targetNames, "clean")) { makeCommand.Add("clean"); makeCommand.Add("-target", "ALL_BUILD"); } else { makeCommand.Add("build"); if (targetNames.empty() || ((targetNames.size() == 1) && targetNames.front().empty())) { makeCommand.Add("-target", "ALL_BUILD"); } else { for (const auto& tname : targetNames) { if (!tname.empty()) { makeCommand.Add("-target", tname); } } } } if (this->XcodeBuildSystem >= BuildSystem::Twelve) { makeCommand.Add("-parallelizeTargets"); } makeCommand.Add("-configuration", (config.empty() ? "Debug" : config)); if (jobs != cmake::NO_BUILD_PARALLEL_LEVEL) { makeCommand.Add("-jobs"); if (jobs != cmake::DEFAULT_BUILD_PARALLEL_LEVEL) { makeCommand.Add(std::to_string(jobs)); } } if (this->XcodeVersion >= 70) { makeCommand.Add("-hideShellScriptEnvironment"); } makeCommand.Add(makeOptions.begin(), makeOptions.end()); return { std::move(makeCommand) }; } //! Create a local generator appropriate to this Global Generator std::unique_ptr cmGlobalXCodeGenerator::CreateLocalGenerator( cmMakefile* mf) { std::unique_ptr lg( cm::make_unique(this, mf)); if (this->XcodeBuildSystem >= BuildSystem::Twelve) { // For this build system variant we generate custom commands as // shell scripts directly rather than inside Makefiles. // FIXME: Rename or refactor this option for clarity. lg->SetLinkScriptShell(true); } return lg; } void cmGlobalXCodeGenerator::AddExtraIDETargets() { // make sure extra targets are added before calling // the parent generate which will call trace depends for (auto keyVal : this->ProjectMap) { cmLocalGenerator* root = keyVal.second[0]; this->SetGenerationRoot(root); // add ALL_BUILD, INSTALL, etc this->AddExtraTargets(root, keyVal.second); } } void cmGlobalXCodeGenerator::Generate() { this->cmGlobalGenerator::Generate(); if (cmSystemTools::GetErrorOccuredFlag()) { return; } for (auto keyVal : this->ProjectMap) { cmLocalGenerator* root = keyVal.second[0]; bool generateTopLevelProjectOnly = root->GetMakefile()->IsOn("CMAKE_XCODE_GENERATE_TOP_LEVEL_PROJECT_ONLY"); if (generateTopLevelProjectOnly) { cmStateSnapshot snp = root->GetStateSnapshot(); if (snp.GetBuildsystemDirectoryParent().IsValid()) { continue; } } // cache the enabled languages for source file type queries this->GetEnabledLanguages(this->EnabledLangs); this->SetGenerationRoot(root); // now create the project this->OutputXCodeProject(root, keyVal.second); } } void cmGlobalXCodeGenerator::SetGenerationRoot(cmLocalGenerator* root) { this->CurrentProject = root->GetProjectName(); this->SetCurrentLocalGenerator(root); cmSystemTools::SplitPath( this->CurrentLocalGenerator->GetCurrentSourceDirectory(), this->ProjectSourceDirectoryComponents); cmSystemTools::SplitPath( this->CurrentLocalGenerator->GetCurrentBinaryDirectory(), this->ProjectOutputDirectoryComponents); this->CurrentXCodeHackMakefile = cmStrCat(root->GetCurrentBinaryDirectory(), "/CMakeScripts"); cmSystemTools::MakeDirectory(this->CurrentXCodeHackMakefile); this->CurrentXCodeHackMakefile += "/XCODE_DEPEND_HELPER.make"; } std::string cmGlobalXCodeGenerator::PostBuildMakeTarget( std::string const& tName, std::string const& configName) { std::string target = tName; std::replace(target.begin(), target.end(), ' ', '_'); std::string out = cmStrCat("PostBuild.", target, '.', configName); return out; } #define CMAKE_CHECK_BUILD_SYSTEM_TARGET "ZERO_CHECK" #define OBJECT_LIBRARY_ARTIFACT_DIR std::string() void cmGlobalXCodeGenerator::AddExtraTargets( cmLocalGenerator* root, std::vector& gens) { const char* no_working_directory = nullptr; std::vector no_byproducts; std::vector no_depends; // Add ALL_BUILD cmTarget* allbuild = root->AddUtilityCommand( "ALL_BUILD", true, no_working_directory, no_byproducts, no_depends, cmMakeSingleCommandLine({ "echo", "Build all projects" })); root->AddGeneratorTarget(cm::make_unique(allbuild, root)); // Add XCODE depend helper std::string legacyDependHelperDir = root->GetCurrentBinaryDirectory(); cmCustomCommandLines legacyDependHelperCommandLines; if (this->XcodeBuildSystem == BuildSystem::One) { legacyDependHelperCommandLines = cmMakeSingleCommandLine( { "make", "-C", legacyDependHelperDir, "-f", this->CurrentXCodeHackMakefile, "OBJDIR=$(OBJDIR)", /* placeholder, see below */ "" }); } // Add ZERO_CHECK bool regenerate = !this->GlobalSettingIsOn("CMAKE_SUPPRESS_REGENERATION"); bool generateTopLevelProjectOnly = root->GetMakefile()->IsOn("CMAKE_XCODE_GENERATE_TOP_LEVEL_PROJECT_ONLY"); bool isTopLevel = !root->GetStateSnapshot().GetBuildsystemDirectoryParent().IsValid(); bool isGenerateProject = isTopLevel || !generateTopLevelProjectOnly; if (regenerate && isGenerateProject) { this->CreateReRunCMakeFile(root, gens); std::string file = this->ConvertToRelativeForMake(this->CurrentReRunCMakeMakefile); cmSystemTools::ReplaceString(file, "\\ ", " "); cmTarget* check = root->AddUtilityCommand(CMAKE_CHECK_BUILD_SYSTEM_TARGET, true, no_working_directory, no_byproducts, no_depends, cmMakeSingleCommandLine({ "make", "-f", file })); root->AddGeneratorTarget(cm::make_unique(check, root)); } // now make the allbuild depend on all the non-utility targets // in the project for (auto& gen : gens) { for (const auto& target : gen->GetGeneratorTargets()) { if (target->GetType() == cmStateEnums::GLOBAL_TARGET) { continue; } if (regenerate && (target->GetName() != CMAKE_CHECK_BUILD_SYSTEM_TARGET)) { target->Target->AddUtility(CMAKE_CHECK_BUILD_SYSTEM_TARGET, false); } // make all exe, shared libs and modules // run the depend check makefile as a post build rule // this will make sure that when the next target is built // things are up-to-date if (this->XcodeBuildSystem == BuildSystem::One && isGenerateProject && target->GetType() == cmStateEnums::OBJECT_LIBRARY) { legacyDependHelperCommandLines.front().back() = // fill placeholder this->PostBuildMakeTarget(target->GetName(), "$(CONFIGURATION)"); gen->AddCustomCommandToTarget( target->GetName(), no_byproducts, no_depends, legacyDependHelperCommandLines, cmCustomCommandType::POST_BUILD, "Depend check for xcode", legacyDependHelperDir.c_str(), true, false, "", "", false, cmObjectLibraryCommands::Accept); } if (!this->IsExcluded(gens[0], target.get())) { allbuild->AddUtility(target->GetName(), false); } } } } void cmGlobalXCodeGenerator::CreateReRunCMakeFile( cmLocalGenerator* root, std::vector const& gens) { std::vector lfiles; for (auto gen : gens) { cm::append(lfiles, gen->GetMakefile()->GetListFiles()); } // sort the array std::sort(lfiles.begin(), lfiles.end()); lfiles.erase(std::unique(lfiles.begin(), lfiles.end()), lfiles.end()); cmake* cm = this->GetCMakeInstance(); if (cm->DoWriteGlobVerifyTarget()) { lfiles.emplace_back(cm->GetGlobVerifyStamp()); } this->CurrentReRunCMakeMakefile = cmStrCat(root->GetCurrentBinaryDirectory(), "/CMakeScripts"); cmSystemTools::MakeDirectory(this->CurrentReRunCMakeMakefile); this->CurrentReRunCMakeMakefile += "/ReRunCMake.make"; cmGeneratedFileStream makefileStream(this->CurrentReRunCMakeMakefile); makefileStream.SetCopyIfDifferent(true); makefileStream << "# Generated by CMake, DO NOT EDIT\n\n"; makefileStream << "TARGETS:= \n"; makefileStream << "empty:= \n"; makefileStream << "space:= $(empty) $(empty)\n"; makefileStream << "spaceplus:= $(empty)\\ $(empty)\n\n"; for (const auto& lfile : lfiles) { makefileStream << "TARGETS += $(subst $(space),$(spaceplus),$(wildcard " << this->ConvertToRelativeForMake(lfile) << "))\n"; } makefileStream << "\n"; std::string checkCache = cmStrCat(root->GetBinaryDirectory(), "/CMakeFiles/cmake.check_cache"); if (cm->DoWriteGlobVerifyTarget()) { makefileStream << ".NOTPARALLEL:\n\n"; makefileStream << ".PHONY: all VERIFY_GLOBS\n\n"; makefileStream << "all: VERIFY_GLOBS " << this->ConvertToRelativeForMake(checkCache) << "\n\n"; makefileStream << "VERIFY_GLOBS:\n"; makefileStream << "\t" << this->ConvertToRelativeForMake( cmSystemTools::GetCMakeCommand()) << " -P " << this->ConvertToRelativeForMake(cm->GetGlobVerifyScript()) << "\n\n"; } makefileStream << this->ConvertToRelativeForMake(checkCache) << ": $(TARGETS)\n"; makefileStream << "\t" << this->ConvertToRelativeForMake( cmSystemTools::GetCMakeCommand()) << " -H" << this->ConvertToRelativeForMake(root->GetSourceDirectory()) << " -B" << this->ConvertToRelativeForMake(root->GetBinaryDirectory()) << "\n"; } static bool objectIdLessThan(const std::unique_ptr& l, const std::unique_ptr& r) { return l->GetId() < r->GetId(); } void cmGlobalXCodeGenerator::SortXCodeObjects() { std::sort(this->XCodeObjects.begin(), this->XCodeObjects.end(), objectIdLessThan); } void cmGlobalXCodeGenerator::ClearXCodeObjects() { this->TargetDoneSet.clear(); this->XCodeObjects.clear(); this->XCodeObjectIDs.clear(); this->XCodeObjectMap.clear(); this->GroupMap.clear(); this->GroupNameMap.clear(); this->TargetGroup.clear(); this->FileRefs.clear(); this->ExternalLibRefs.clear(); this->FileRefToBuildFileMap.clear(); this->CommandsVisited.clear(); } void cmGlobalXCodeGenerator::addObject(std::unique_ptr obj) { if (obj->GetType() == cmXCodeObject::OBJECT) { const std::string& id = obj->GetId(); // If this is a duplicate id, it's an error: // if (this->XCodeObjectIDs.count(id)) { cmSystemTools::Error( "Xcode generator: duplicate object ids not allowed"); } this->XCodeObjectIDs.insert(id); } this->XCodeObjects.push_back(std::move(obj)); } cmXCodeObject* cmGlobalXCodeGenerator::CreateObject( cmXCodeObject::PBXType ptype) { auto obj = cm::make_unique(ptype, cmXCodeObject::OBJECT); auto ptr = obj.get(); this->addObject(std::move(obj)); return ptr; } cmXCodeObject* cmGlobalXCodeGenerator::CreateObject(cmXCodeObject::Type type) { auto obj = cm::make_unique(cmXCodeObject::None, type); auto ptr = obj.get(); this->addObject(std::move(obj)); return ptr; } cmXCodeObject* cmGlobalXCodeGenerator::CreateString(const std::string& s) { cmXCodeObject* obj = this->CreateObject(cmXCodeObject::STRING); obj->SetString(s); return obj; } cmXCodeObject* cmGlobalXCodeGenerator::CreateObjectReference( cmXCodeObject* ref) { cmXCodeObject* obj = this->CreateObject(cmXCodeObject::OBJECT_REF); obj->SetObject(ref); return obj; } cmXCodeObject* cmGlobalXCodeGenerator::CreateFlatClone(cmXCodeObject* orig) { cmXCodeObject* obj = this->CreateObject(orig->GetType()); obj->CopyAttributes(orig); return obj; } std::string GetGroupMapKeyFromPath(cmGeneratorTarget* target, const std::string& fullpath) { std::string key(target->GetName()); key += "-"; key += fullpath; return key; } cmXCodeObject* cmGlobalXCodeGenerator::CreateXCodeBuildFileFromPath( const std::string& fullpath, cmGeneratorTarget* target, const std::string& lang, cmSourceFile* sf) { // Using a map and the full path guarantees that we will always get the same // fileRef object for any given full path. Same goes for the buildFile // object. cmXCodeObject* fileRef = this->CreateXCodeFileReferenceFromPath(fullpath, target, lang, sf); if (fileRef) { auto it = this->FileRefToBuildFileMap.find(fileRef); if (it == this->FileRefToBuildFileMap.end()) { cmXCodeObject* buildFile = this->CreateObject(cmXCodeObject::PBXBuildFile); buildFile->SetComment(fileRef->GetComment()); buildFile->AddAttribute("fileRef", this->CreateObjectReference(fileRef)); this->FileRefToBuildFileMap[fileRef] = buildFile; return buildFile; } return it->second; } return nullptr; } class XCodeGeneratorExpressionInterpreter : public cmGeneratorExpressionInterpreter { public: XCodeGeneratorExpressionInterpreter(cmSourceFile* sourceFile, cmLocalGenerator* localGenerator, cmGeneratorTarget* headTarget, const std::string& lang) : cmGeneratorExpressionInterpreter( localGenerator, "NO-PER-CONFIG-SUPPORT-IN-XCODE", headTarget, lang) , SourceFile(sourceFile) { } XCodeGeneratorExpressionInterpreter( XCodeGeneratorExpressionInterpreter const&) = delete; XCodeGeneratorExpressionInterpreter& operator=( XCodeGeneratorExpressionInterpreter const&) = delete; const std::string& Evaluate(const char* expression, const std::string& property) { return this->Evaluate(std::string(expression ? expression : ""), property); } const std::string& Evaluate(const std::string& expression, const std::string& property) { const std::string& processed = this->cmGeneratorExpressionInterpreter::Evaluate(expression, property); if (this->CompiledGeneratorExpression->GetHadContextSensitiveCondition()) { std::ostringstream e; /* clang-format off */ e << "Xcode does not support per-config per-source " << property << ":\n" " " << expression << "\n" "specified for source:\n" " " << this->SourceFile->ResolveFullPath() << "\n"; /* clang-format on */ this->LocalGenerator->IssueMessage(MessageType::FATAL_ERROR, e.str()); } return processed; } private: cmSourceFile* SourceFile = nullptr; }; cmXCodeObject* cmGlobalXCodeGenerator::CreateXCodeSourceFile( cmLocalGenerator* lg, cmSourceFile* sf, cmGeneratorTarget* gtgt) { std::string lang = this->CurrentLocalGenerator->GetSourceFileLanguage(*sf); XCodeGeneratorExpressionInterpreter genexInterpreter(sf, lg, gtgt, lang); // Add flags from target and source file properties. std::string flags; std::string const& srcfmt = sf->GetSafeProperty("Fortran_FORMAT"); switch (cmOutputConverter::GetFortranFormat(srcfmt)) { case cmOutputConverter::FortranFormatFixed: flags = "-fixed " + flags; break; case cmOutputConverter::FortranFormatFree: flags = "-free " + flags; break; default: break; } const std::string COMPILE_FLAGS("COMPILE_FLAGS"); if (cmProp cflags = sf->GetProperty(COMPILE_FLAGS)) { lg->AppendFlags(flags, genexInterpreter.Evaluate(*cflags, COMPILE_FLAGS)); } const std::string COMPILE_OPTIONS("COMPILE_OPTIONS"); if (cmProp coptions = sf->GetProperty(COMPILE_OPTIONS)) { lg->AppendCompileOptions( flags, genexInterpreter.Evaluate(*coptions, COMPILE_OPTIONS)); } // Add per-source definitions. BuildObjectListOrString flagsBuild(this, false); const std::string COMPILE_DEFINITIONS("COMPILE_DEFINITIONS"); if (cmProp compile_defs = sf->GetProperty(COMPILE_DEFINITIONS)) { this->AppendDefines( flagsBuild, genexInterpreter.Evaluate(*compile_defs, COMPILE_DEFINITIONS).c_str(), true); } if (sf->GetPropertyAsBool("SKIP_PRECOMPILE_HEADERS")) { this->AppendDefines(flagsBuild, "CMAKE_SKIP_PRECOMPILE_HEADERS", true); } if (!flagsBuild.IsEmpty()) { if (!flags.empty()) { flags += ' '; } flags += flagsBuild.GetString(); } // Add per-source include directories. std::vector includes; const std::string INCLUDE_DIRECTORIES("INCLUDE_DIRECTORIES"); if (cmProp cincludes = sf->GetProperty(INCLUDE_DIRECTORIES)) { lg->AppendIncludeDirectories( includes, genexInterpreter.Evaluate(*cincludes, INCLUDE_DIRECTORIES), *sf); } lg->AppendFlags(flags, lg->GetIncludeFlags(includes, gtgt, lang, true)); cmXCodeObject* buildFile = this->CreateXCodeBuildFileFromPath(sf->ResolveFullPath(), gtgt, lang, sf); cmXCodeObject* settings = this->CreateObject(cmXCodeObject::ATTRIBUTE_GROUP); settings->AddAttributeIfNotEmpty("COMPILER_FLAGS", this->CreateString(flags)); cmGeneratorTarget::SourceFileFlags tsFlags = gtgt->GetTargetSourceFileFlags(sf); cmXCodeObject* attrs = this->CreateObject(cmXCodeObject::OBJECT_LIST); // Is this a "private" or "public" framework header file? // Set the ATTRIBUTES attribute appropriately... // if (gtgt->IsFrameworkOnApple()) { if (tsFlags.Type == cmGeneratorTarget::SourceFileTypePrivateHeader) { attrs->AddObject(this->CreateString("Private")); } else if (tsFlags.Type == cmGeneratorTarget::SourceFileTypePublicHeader) { attrs->AddObject(this->CreateString("Public")); } } // Add user-specified file attributes. cmProp extraFileAttributes = sf->GetProperty("XCODE_FILE_ATTRIBUTES"); if (extraFileAttributes) { // Expand the list of attributes. std::vector attributes = cmExpandedList(*extraFileAttributes); // Store the attributes. for (const auto& attribute : attributes) { attrs->AddObject(this->CreateString(attribute)); } } settings->AddAttributeIfNotEmpty("ATTRIBUTES", attrs); if (buildFile) { buildFile->AddAttributeIfNotEmpty("settings", settings); } return buildFile; } void cmGlobalXCodeGenerator::AddXCodeProjBuildRule( cmGeneratorTarget* target, std::vector& sources) const { std::string listfile = cmStrCat(target->GetLocalGenerator()->GetCurrentSourceDirectory(), "/CMakeLists.txt"); cmSourceFile* srcCMakeLists = target->Makefile->GetOrCreateSource( listfile, false, cmSourceFileLocationKind::Known); if (!cm::contains(sources, srcCMakeLists)) { sources.push_back(srcCMakeLists); } } namespace { bool IsLinkPhaseLibraryExtension(const std::string& fileExt) { // Empty file extension is a special case for paths to framework's // internal binary which could be MyFw.framework/Versions/*/MyFw return (fileExt == ".framework" || fileExt == ".a" || fileExt == ".o" || fileExt == ".dylib" || fileExt == ".tbd" || fileExt.empty()); } bool IsLibraryType(const std::string& fileType) { return (fileType == "wrapper.framework" || fileType == "archive.ar" || fileType == "compiled.mach-o.objfile" || fileType == "compiled.mach-o.dylib" || fileType == "compiled.mach-o.executable" || fileType == "sourcecode.text-based-dylib-definition"); } std::string GetDirectoryValueFromFileExtension(const std::string& dirExt) { std::string ext = cmSystemTools::LowerCase(dirExt); if (ext == "framework") { return "wrapper.framework"; } if (ext == "xcassets") { return "folder.assetcatalog"; } return "folder"; } std::string GetSourcecodeValueFromFileExtension( const std::string& _ext, const std::string& lang, bool& keepLastKnownFileType, const std::vector& enabled_langs) { std::string ext = cmSystemTools::LowerCase(_ext); std::string sourcecode = "sourcecode"; if (ext == "o") { keepLastKnownFileType = true; sourcecode = "compiled.mach-o.objfile"; } else if (ext == "xctest") { sourcecode = "wrapper.cfbundle"; } else if (ext == "xib") { keepLastKnownFileType = true; sourcecode = "file.xib"; } else if (ext == "storyboard") { keepLastKnownFileType = true; sourcecode = "file.storyboard"; } else if (ext == "mm" && !cm::contains(enabled_langs, "OBJCXX")) { sourcecode += ".cpp.objcpp"; } else if (ext == "m" && !cm::contains(enabled_langs, "OBJC")) { sourcecode += ".c.objc"; } else if (ext == "swift") { sourcecode += ".swift"; } else if (ext == "plist") { sourcecode += ".text.plist"; } else if (ext == "h") { sourcecode += ".c.h"; } else if (ext == "hxx" || ext == "hpp" || ext == "txx" || ext == "pch" || ext == "hh") { sourcecode += ".cpp.h"; } else if (ext == "png" || ext == "gif" || ext == "jpg") { keepLastKnownFileType = true; sourcecode = "image"; } else if (ext == "txt") { sourcecode += ".text"; } else if (lang == "CXX") { sourcecode += ".cpp.cpp"; } else if (lang == "C") { sourcecode += ".c.c"; } else if (lang == "OBJCXX") { sourcecode += ".cpp.objcpp"; } else if (lang == "OBJC") { sourcecode += ".c.objc"; } else if (lang == "Fortran") { sourcecode += ".fortran.f90"; } else if (lang == "ASM") { sourcecode += ".asm"; } else if (ext == "metal") { sourcecode += ".metal"; } else if (ext == "mig") { sourcecode += ".mig"; } else if (ext == "tbd") { sourcecode += ".text-based-dylib-definition"; } else if (ext == "a") { keepLastKnownFileType = true; sourcecode = "archive.ar"; } else if (ext == "dylib") { keepLastKnownFileType = true; sourcecode = "compiled.mach-o.dylib"; } else if (ext == "framework") { keepLastKnownFileType = true; sourcecode = "wrapper.framework"; } else if (ext == "xcassets") { keepLastKnownFileType = true; sourcecode = "folder.assetcatalog"; } // else // { // // Already specialized above or we leave sourcecode == "sourcecode" // // which is probably the most correct choice. Extensionless headers, // // for example... Or file types unknown to Xcode that do not map to a // // valid explicitFileType value. // } return sourcecode; } // If the file has no extension it's either a raw executable or might // be a direct reference to a binary within a framework (bad practice!). // This is where we change the path to point to the framework directory. // .tbd files also can be located in SDK frameworks (they are // placeholders for actual libraries shipped with the OS) std::string GetLibraryOrFrameworkPath(const std::string& path) { auto ext = cmSystemTools::GetFilenameLastExtension(path); if (ext.empty() || ext == ".tbd") { auto name = cmSystemTools::GetFilenameWithoutExtension(path); // Check for iOS framework structure: // FwName.framework/FwName (and also on macOS where FwName lib is a // symlink) auto parentDir = cmSystemTools::GetParentDirectory(path); auto parentName = cmSystemTools::GetFilenameWithoutExtension(parentDir); ext = cmSystemTools::GetFilenameLastExtension(parentDir); if (ext == ".framework" && name == parentName) { return parentDir; } // Check for macOS framework structure: // FwName.framework/Versions/*/FwName std::vector components; cmSystemTools::SplitPath(path, components); if (components.size() > 3 && components[components.size() - 3] == "Versions") { ext = cmSystemTools::GetFilenameLastExtension( components[components.size() - 4]); parentName = cmSystemTools::GetFilenameWithoutExtension( components[components.size() - 4]); if (ext == ".framework" && name == parentName) { components.erase(components.begin() + components.size() - 3, components.end()); return cmSystemTools::JoinPath(components); } } } return path; } } // anonymous cmXCodeObject* cmGlobalXCodeGenerator::CreateXCodeFileReferenceFromPath( const std::string& fullpath, cmGeneratorTarget* target, const std::string& lang, cmSourceFile* sf) { bool useLastKnownFileType = false; std::string fileType; if (sf) { if (cmProp e = sf->GetProperty("XCODE_EXPLICIT_FILE_TYPE")) { fileType = *e; } else if (cmProp l = sf->GetProperty("XCODE_LAST_KNOWN_FILE_TYPE")) { useLastKnownFileType = true; fileType = *l; } } // Make a copy so that we can override it later std::string path = fullpath; // Compute the extension without leading '.'. std::string ext = cmSystemTools::GetFilenameLastExtension(path); if (!ext.empty()) { ext = ext.substr(1); } if (fileType.empty()) { path = GetLibraryOrFrameworkPath(path); ext = cmSystemTools::GetFilenameLastExtension(path); if (!ext.empty()) { ext = ext.substr(1); } // If fullpath references a directory, then we need to specify // lastKnownFileType as folder in order for Xcode to be able to // open the contents of the folder. // (Xcode 4.6 does not like explicitFileType=folder). if (cmSystemTools::FileIsDirectory(path)) { fileType = GetDirectoryValueFromFileExtension(ext); useLastKnownFileType = true; } else { if (ext.empty() && !sf) { // Special case for executable or library without extension // that is not a source file. We can't tell which without reading // its Mach-O header, but the file might not exist yet, so we // have to pick one here. useLastKnownFileType = true; fileType = "compiled.mach-o.executable"; } else { fileType = GetSourcecodeValueFromFileExtension( ext, lang, useLastKnownFileType, this->EnabledLangs); } } } std::string key = GetGroupMapKeyFromPath(target, path); cmXCodeObject* fileRef = this->FileRefs[key]; if (!fileRef) { fileRef = this->CreateObject(cmXCodeObject::PBXFileReference); fileRef->SetComment(path); this->FileRefs[key] = fileRef; } fileRef->AddAttribute("fileEncoding", this->CreateString("4")); fileRef->AddAttribute(useLastKnownFileType ? "lastKnownFileType" : "explicitFileType", this->CreateString(fileType)); // Store the file path relative to the top of the source tree. if (!IsLibraryType(fileType)) { path = this->RelativeToSource(path); } std::string name = cmSystemTools::GetFilenameName(path); const char* sourceTree = cmSystemTools::FileIsFullPath(path) ? "" : "SOURCE_ROOT"; fileRef->AddAttribute("name", this->CreateString(name)); fileRef->AddAttribute("path", this->CreateString(path)); fileRef->AddAttribute("sourceTree", this->CreateString(sourceTree)); cmXCodeObject* group = this->GroupMap[key]; if (!group && IsLibraryType(fileType)) { group = this->FrameworkGroup; this->GroupMap[key] = group; } if (!group) { cmSystemTools::Error("Could not find a PBX group for " + key); return nullptr; } cmXCodeObject* children = group->GetAttribute("children"); if (!children->HasObject(fileRef)) { children->AddObject(fileRef); } return fileRef; } cmXCodeObject* cmGlobalXCodeGenerator::CreateXCodeFileReference( cmSourceFile* sf, cmGeneratorTarget* target) { std::string lang = this->CurrentLocalGenerator->GetSourceFileLanguage(*sf); return this->CreateXCodeFileReferenceFromPath(sf->ResolveFullPath(), target, lang, sf); } bool cmGlobalXCodeGenerator::SpecialTargetEmitted(std::string const& tname) { if (tname == "ALL_BUILD" || tname == "install" || tname == "package" || tname == "RUN_TESTS" || tname == CMAKE_CHECK_BUILD_SYSTEM_TARGET) { if (this->TargetDoneSet.find(tname) != this->TargetDoneSet.end()) { return true; } this->TargetDoneSet.insert(tname); return false; } return false; } void cmGlobalXCodeGenerator::SetCurrentLocalGenerator(cmLocalGenerator* gen) { this->CurrentLocalGenerator = gen; this->CurrentMakefile = gen->GetMakefile(); // Select the current set of configuration types. this->CurrentConfigurationTypes = this->CurrentMakefile->GetGeneratorConfigs(cmMakefile::IncludeEmptyConfig); } struct cmSourceFilePathCompare { bool operator()(cmSourceFile* l, cmSourceFile* r) { return l->ResolveFullPath() < r->ResolveFullPath(); } }; struct cmCompareTargets { bool operator()(cmXCodeObject* l, cmXCodeObject* r) const { std::string const& a = l->GetTarget()->GetName(); std::string const& b = r->GetTarget()->GetName(); if (a == "ALL_BUILD") { return true; } if (b == "ALL_BUILD") { return false; } return a < b; } }; bool cmGlobalXCodeGenerator::CreateXCodeTargets( cmLocalGenerator* gen, std::vector& targets) { this->SetCurrentLocalGenerator(gen); std::vector gts = this->GetLocalGeneratorTargetsInOrder(gen); for (auto gtgt : gts) { if (!this->CreateXCodeTarget(gtgt, targets)) { return false; } } std::sort(targets.begin(), targets.end(), cmCompareTargets()); return true; } bool cmGlobalXCodeGenerator::CreateXCodeTarget( cmGeneratorTarget* gtgt, std::vector& targets) { std::string targetName = gtgt->GetName(); // make sure ALL_BUILD, INSTALL, etc are only done once if (this->SpecialTargetEmitted(targetName)) { return true; } if (!gtgt->IsInBuildSystem()) { return true; } auto& gtgt_visited = this->CommandsVisited[gtgt]; auto& deps = this->GetTargetDirectDepends(gtgt); for (auto& d : deps) { // Take the union of visited source files of custom commands so far. // ComputeTargetOrder ensures our dependencies already visited their // custom commands and updated CommandsVisited. auto& dep_visited = this->CommandsVisited[d]; gtgt_visited.insert(dep_visited.begin(), dep_visited.end()); } if (gtgt->GetType() == cmStateEnums::UTILITY || gtgt->GetType() == cmStateEnums::INTERFACE_LIBRARY || gtgt->GetType() == cmStateEnums::GLOBAL_TARGET) { cmXCodeObject* t = this->CreateUtilityTarget(gtgt); if (!t) { return false; } targets.push_back(t); return true; } // organize the sources std::vector commonSourceFiles; if (!gtgt->GetConfigCommonSourceFiles(commonSourceFiles)) { return false; } // Add CMakeLists.txt file for user convenience. this->AddXCodeProjBuildRule(gtgt, commonSourceFiles); // Add the Info.plist we are about to generate for an App Bundle. if (gtgt->GetPropertyAsBool("MACOSX_BUNDLE")) { std::string plist = this->ComputeInfoPListLocation(gtgt); cmSourceFile* sf = gtgt->Makefile->GetOrCreateSource( plist, true, cmSourceFileLocationKind::Known); commonSourceFiles.push_back(sf); } std::sort(commonSourceFiles.begin(), commonSourceFiles.end(), cmSourceFilePathCompare()); gtgt->ComputeObjectMapping(); std::vector externalObjFiles; std::vector headerFiles; std::vector resourceFiles; std::vector sourceFiles; for (auto sourceFile : commonSourceFiles) { cmXCodeObject* xsf = this->CreateXCodeSourceFile( this->CurrentLocalGenerator, sourceFile, gtgt); cmXCodeObject* fr = xsf->GetAttribute("fileRef"); cmXCodeObject* filetype = fr->GetObject()->GetAttribute("explicitFileType"); if (!filetype) { filetype = fr->GetObject()->GetAttribute("lastKnownFileType"); } cmGeneratorTarget::SourceFileFlags tsFlags = gtgt->GetTargetSourceFileFlags(sourceFile); if (filetype && filetype->GetString() == "compiled.mach-o.objfile") { if (sourceFile->GetObjectLibrary().empty()) { externalObjFiles.push_back(xsf); } } else if (this->IsHeaderFile(sourceFile) || (tsFlags.Type == cmGeneratorTarget::SourceFileTypePrivateHeader) || (tsFlags.Type == cmGeneratorTarget::SourceFileTypePublicHeader)) { headerFiles.push_back(xsf); } else if (tsFlags.Type == cmGeneratorTarget::SourceFileTypeResource) { resourceFiles.push_back(xsf); } else if (!sourceFile->GetPropertyAsBool("HEADER_FILE_ONLY") && !gtgt->IsSourceFilePartOfUnityBatch( sourceFile->ResolveFullPath())) { // Include this file in the build if it has a known language // and has not been listed as an ignored extension for this // generator. if (!this->CurrentLocalGenerator->GetSourceFileLanguage(*sourceFile) .empty() && !this->IgnoreFile(sourceFile->GetExtension().c_str())) { sourceFiles.push_back(xsf); } } } // some build phases only apply to bundles and/or frameworks bool isFrameworkTarget = gtgt->IsFrameworkOnApple(); bool isBundleTarget = gtgt->GetPropertyAsBool("MACOSX_BUNDLE"); bool isCFBundleTarget = gtgt->IsCFBundleOnApple(); cmXCodeObject* buildFiles = nullptr; // create source build phase cmXCodeObject* sourceBuildPhase = nullptr; if (!sourceFiles.empty()) { sourceBuildPhase = this->CreateObject(cmXCodeObject::PBXSourcesBuildPhase); sourceBuildPhase->SetComment("Sources"); sourceBuildPhase->AddAttribute("buildActionMask", this->CreateString("2147483647")); buildFiles = this->CreateObject(cmXCodeObject::OBJECT_LIST); for (auto& sourceFile : sourceFiles) { buildFiles->AddObject(sourceFile); } sourceBuildPhase->AddAttribute("files", buildFiles); sourceBuildPhase->AddAttribute("runOnlyForDeploymentPostprocessing", this->CreateString("0")); } // create header build phase - only for framework targets cmXCodeObject* headerBuildPhase = nullptr; if (!headerFiles.empty() && isFrameworkTarget) { headerBuildPhase = this->CreateObject(cmXCodeObject::PBXHeadersBuildPhase); headerBuildPhase->SetComment("Headers"); headerBuildPhase->AddAttribute("buildActionMask", this->CreateString("2147483647")); buildFiles = this->CreateObject(cmXCodeObject::OBJECT_LIST); for (auto& headerFile : headerFiles) { buildFiles->AddObject(headerFile); } headerBuildPhase->AddAttribute("files", buildFiles); headerBuildPhase->AddAttribute("runOnlyForDeploymentPostprocessing", this->CreateString("0")); } // create resource build phase - only for framework or bundle targets cmXCodeObject* resourceBuildPhase = nullptr; if (!resourceFiles.empty() && (isFrameworkTarget || isBundleTarget || isCFBundleTarget)) { resourceBuildPhase = this->CreateObject(cmXCodeObject::PBXResourcesBuildPhase); resourceBuildPhase->SetComment("Resources"); resourceBuildPhase->AddAttribute("buildActionMask", this->CreateString("2147483647")); buildFiles = this->CreateObject(cmXCodeObject::OBJECT_LIST); for (auto& resourceFile : resourceFiles) { buildFiles->AddObject(resourceFile); } resourceBuildPhase->AddAttribute("files", buildFiles); resourceBuildPhase->AddAttribute("runOnlyForDeploymentPostprocessing", this->CreateString("0")); } // create vector of "non-resource content file" build phases - only for // framework or bundle targets std::vector contentBuildPhases; if (isFrameworkTarget || isBundleTarget || isCFBundleTarget) { using mapOfVectorOfSourceFiles = std::map>; mapOfVectorOfSourceFiles bundleFiles; for (auto sourceFile : commonSourceFiles) { cmGeneratorTarget::SourceFileFlags tsFlags = gtgt->GetTargetSourceFileFlags(sourceFile); if (tsFlags.Type == cmGeneratorTarget::SourceFileTypeMacContent) { bundleFiles[tsFlags.MacFolder].push_back(sourceFile); } } for (auto const& keySources : bundleFiles) { cmXCodeObject* copyFilesBuildPhase = this->CreateObject(cmXCodeObject::PBXCopyFilesBuildPhase); copyFilesBuildPhase->SetComment("Copy files"); copyFilesBuildPhase->AddAttribute("buildActionMask", this->CreateString("2147483647")); copyFilesBuildPhase->AddAttribute("dstSubfolderSpec", this->CreateString("6")); std::ostringstream ostr; if (gtgt->IsFrameworkOnApple()) { // dstPath in frameworks is relative to Versions/ ostr << keySources.first; } else if (keySources.first != "MacOS") { if (gtgt->Target->GetMakefile()->PlatformIsAppleEmbedded()) { ostr << keySources.first; } else { // dstPath in bundles is relative to Contents/MacOS ostr << "../" << keySources.first; } } copyFilesBuildPhase->AddAttribute("dstPath", this->CreateString(ostr.str())); copyFilesBuildPhase->AddAttribute("runOnlyForDeploymentPostprocessing", this->CreateString("0")); buildFiles = this->CreateObject(cmXCodeObject::OBJECT_LIST); copyFilesBuildPhase->AddAttribute("files", buildFiles); for (auto sourceFile : keySources.second) { cmXCodeObject* xsf = this->CreateXCodeSourceFile( this->CurrentLocalGenerator, sourceFile, gtgt); buildFiles->AddObject(xsf); } contentBuildPhases.push_back(copyFilesBuildPhase); } } // create vector of "resource content file" build phases - only for // framework or bundle targets if (isFrameworkTarget || isBundleTarget || isCFBundleTarget) { using mapOfVectorOfSourceFiles = std::map>; mapOfVectorOfSourceFiles bundleFiles; for (auto sourceFile : commonSourceFiles) { cmGeneratorTarget::SourceFileFlags tsFlags = gtgt->GetTargetSourceFileFlags(sourceFile); if (tsFlags.Type == cmGeneratorTarget::SourceFileTypeDeepResource) { bundleFiles[tsFlags.MacFolder].push_back(sourceFile); } } for (auto const& keySources : bundleFiles) { cmXCodeObject* copyFilesBuildPhase = this->CreateObject(cmXCodeObject::PBXCopyFilesBuildPhase); copyFilesBuildPhase->SetComment("Copy files"); copyFilesBuildPhase->AddAttribute("buildActionMask", this->CreateString("2147483647")); copyFilesBuildPhase->AddAttribute("dstSubfolderSpec", this->CreateString("7")); copyFilesBuildPhase->AddAttribute("dstPath", this->CreateString(keySources.first)); copyFilesBuildPhase->AddAttribute("runOnlyForDeploymentPostprocessing", this->CreateString("0")); buildFiles = this->CreateObject(cmXCodeObject::OBJECT_LIST); copyFilesBuildPhase->AddAttribute("files", buildFiles); for (auto sourceFile : keySources.second) { cmXCodeObject* xsf = this->CreateXCodeSourceFile( this->CurrentLocalGenerator, sourceFile, gtgt); buildFiles->AddObject(xsf); } contentBuildPhases.push_back(copyFilesBuildPhase); } } // Always create Link Binary With Libraries build phase cmXCodeObject* frameworkBuildPhase = nullptr; frameworkBuildPhase = this->CreateObject(cmXCodeObject::PBXFrameworksBuildPhase); frameworkBuildPhase->SetComment("Frameworks"); frameworkBuildPhase->AddAttribute("buildActionMask", this->CreateString("2147483647")); buildFiles = this->CreateObject(cmXCodeObject::OBJECT_LIST); frameworkBuildPhase->AddAttribute("files", buildFiles); // Add all collected .o files to this build phase for (auto& externalObjFile : externalObjFiles) { buildFiles->AddObject(externalObjFile); } frameworkBuildPhase->AddAttribute("runOnlyForDeploymentPostprocessing", this->CreateString("0")); // create list of build phases and create the Xcode target cmXCodeObject* buildPhases = this->CreateObject(cmXCodeObject::OBJECT_LIST); this->CreateCustomCommands(buildPhases, sourceBuildPhase, headerBuildPhase, resourceBuildPhase, contentBuildPhases, frameworkBuildPhase, gtgt); targets.push_back(this->CreateXCodeTarget(gtgt, buildPhases)); return true; } void cmGlobalXCodeGenerator::ForceLinkerLanguages() { for (const auto& localGenerator : this->LocalGenerators) { // All targets depend on the build-system check target. for (const auto& tgt : localGenerator->GetGeneratorTargets()) { // This makes sure all targets link using the proper language. this->ForceLinkerLanguage(tgt.get()); } } } void cmGlobalXCodeGenerator::ForceLinkerLanguage(cmGeneratorTarget* gtgt) { // This matters only for targets that link. if (gtgt->GetType() != cmStateEnums::EXECUTABLE && gtgt->GetType() != cmStateEnums::SHARED_LIBRARY && gtgt->GetType() != cmStateEnums::MODULE_LIBRARY) { return; } std::string llang = gtgt->GetLinkerLanguage("NOCONFIG"); if (llang.empty()) { return; } // If the language is compiled as a source trust Xcode to link with it. for (auto const& Language : gtgt->GetLinkImplementation("NOCONFIG")->Languages) { if (Language == llang) { return; } } // Add an empty source file to the target that compiles with the // linker language. This should convince Xcode to choose the proper // language. cmMakefile* mf = gtgt->Target->GetMakefile(); std::string fname = cmStrCat( gtgt->GetLocalGenerator()->GetCurrentBinaryDirectory(), "/CMakeFiles/", gtgt->GetName(), "-CMakeForceLinker.", cmSystemTools::LowerCase(llang)); { cmGeneratedFileStream fout(fname); fout << "\n"; } if (cmSourceFile* sf = mf->GetOrCreateSource(fname)) { sf->SetProperty("LANGUAGE", llang.c_str()); gtgt->AddSource(fname); } } bool cmGlobalXCodeGenerator::IsHeaderFile(cmSourceFile* sf) { return cm::contains(this->CMakeInstance->GetHeaderExtensions(), sf->GetExtension()); } cmXCodeObject* cmGlobalXCodeGenerator::CreateLegacyRunScriptBuildPhase( const char* name, const char* name2, cmGeneratorTarget* target, const std::vector& commands) { if (commands.empty() && strcmp(name, "CMake ReRun") != 0) { return nullptr; } cmXCodeObject* buildPhase = this->CreateObject(cmXCodeObject::PBXShellScriptBuildPhase); buildPhase->AddAttribute("buildActionMask", this->CreateString("2147483647")); cmXCodeObject* buildFiles = this->CreateObject(cmXCodeObject::OBJECT_LIST); buildPhase->AddAttribute("files", buildFiles); buildPhase->AddAttribute("name", this->CreateString(name)); buildPhase->AddAttribute("runOnlyForDeploymentPostprocessing", this->CreateString("0")); buildPhase->AddAttribute("shellPath", this->CreateString("/bin/sh")); this->AddCommandsToBuildPhase(buildPhase, target, commands, name2); return buildPhase; } void cmGlobalXCodeGenerator::CreateCustomCommands( cmXCodeObject* buildPhases, cmXCodeObject* sourceBuildPhase, cmXCodeObject* headerBuildPhase, cmXCodeObject* resourceBuildPhase, std::vector const& contentBuildPhases, cmXCodeObject* frameworkBuildPhase, cmGeneratorTarget* gtgt) { std::vector const& prebuild = gtgt->GetPreBuildCommands(); std::vector const& prelink = gtgt->GetPreLinkCommands(); std::vector postbuild = gtgt->GetPostBuildCommands(); if (gtgt->GetType() == cmStateEnums::SHARED_LIBRARY && !gtgt->IsFrameworkOnApple()) { std::string str_file = cmStrCat("$GetName(), '>'); std::string str_so_file = cmStrCat("$GetName(), '>'); std::string str_link_file = cmStrCat("$GetName(), '>'); bool stdPipesUTF8 = true; cmCustomCommandLines cmd = cmMakeSingleCommandLine( { cmSystemTools::GetCMakeCommand(), "-E", "cmake_symlink_library", str_file, str_so_file, str_link_file }); cmCustomCommand command( std::vector(), std::vector(), std::vector(), cmd, this->CurrentMakefile->GetBacktrace(), "Creating symlinks", "", stdPipesUTF8); postbuild.push_back(std::move(command)); } cmXCodeObject* legacyCustomCommandsBuildPhase = nullptr; cmXCodeObject* preBuildPhase = nullptr; cmXCodeObject* preLinkPhase = nullptr; cmXCodeObject* postBuildPhase = nullptr; if (this->XcodeBuildSystem >= BuildSystem::Twelve) { // create prebuild phase preBuildPhase = this->CreateRunScriptBuildPhase("CMake PreBuild Rules", prebuild); // create prelink phase preLinkPhase = this->CreateRunScriptBuildPhase("CMake PreLink Rules", prelink); // create postbuild phase postBuildPhase = this->CreateRunScriptBuildPhase("CMake PostBuild Rules", postbuild); } else { std::vector classes; if (!gtgt->GetConfigCommonSourceFiles(classes)) { return; } // add all the sources std::vector commands; auto& visited = this->CommandsVisited[gtgt]; for (auto sourceFile : classes) { if (sourceFile->GetCustomCommand() && visited.insert(sourceFile).second) { commands.push_back(*sourceFile->GetCustomCommand()); if (this->XcodeBuildSystem >= BuildSystem::Twelve) { this->CustomCommandRoots[sourceFile].insert(gtgt); } } } // create custom commands phase legacyCustomCommandsBuildPhase = this->CreateLegacyRunScriptBuildPhase( "CMake Rules", "cmakeRulesBuildPhase", gtgt, commands); // create prebuild phase preBuildPhase = this->CreateLegacyRunScriptBuildPhase( "CMake PreBuild Rules", "preBuildCommands", gtgt, prebuild); // create prelink phase preLinkPhase = this->CreateLegacyRunScriptBuildPhase( "CMake PreLink Rules", "preLinkCommands", gtgt, prelink); // create postbuild phase postBuildPhase = this->CreateLegacyRunScriptBuildPhase( "CMake PostBuild Rules", "postBuildPhase", gtgt, postbuild); } // The order here is the order they will be built in. // The order "headers, resources, sources" mimics a native project generated // from an xcode template... // if (preBuildPhase) { buildPhases->AddObject(preBuildPhase); } if (legacyCustomCommandsBuildPhase) { buildPhases->AddObject(legacyCustomCommandsBuildPhase); } if (this->XcodeBuildSystem >= BuildSystem::Twelve) { this->CreateRunScriptBuildPhases(buildPhases, gtgt); } if (headerBuildPhase) { buildPhases->AddObject(headerBuildPhase); } if (resourceBuildPhase) { buildPhases->AddObject(resourceBuildPhase); } for (auto obj : contentBuildPhases) { buildPhases->AddObject(obj); } if (sourceBuildPhase) { buildPhases->AddObject(sourceBuildPhase); } if (preLinkPhase) { buildPhases->AddObject(preLinkPhase); } if (frameworkBuildPhase) { buildPhases->AddObject(frameworkBuildPhase); } if (postBuildPhase) { buildPhases->AddObject(postBuildPhase); } } void cmGlobalXCodeGenerator::CreateRunScriptBuildPhases( cmXCodeObject* buildPhases, cmGeneratorTarget const* gt) { std::vector sources; if (!gt->GetConfigCommonSourceFiles(sources)) { return; } auto& visited = this->CommandsVisited[gt]; for (auto sf : sources) { this->CreateRunScriptBuildPhases(buildPhases, sf, gt, visited); } } void cmGlobalXCodeGenerator::CreateRunScriptBuildPhases( cmXCodeObject* buildPhases, cmSourceFile const* sf, cmGeneratorTarget const* gt, std::set& visited) { cmCustomCommand const* cc = sf->GetCustomCommand(); if (cc && visited.insert(sf).second) { this->CustomCommandRoots[sf].insert(gt); if (std::vector const* depends = gt->GetSourceDepends(sf)) { for (cmSourceFile const* di : *depends) { this->CreateRunScriptBuildPhases(buildPhases, di, gt, visited); } } cmXCodeObject* buildPhase = this->CreateRunScriptBuildPhase(sf, gt, *cc); buildPhases->AddObject(buildPhase); } } cmXCodeObject* cmGlobalXCodeGenerator::CreateRunScriptBuildPhase( cmSourceFile const* sf, cmGeneratorTarget const* gt, cmCustomCommand const& cc) { std::set allConfigInputs; std::set allConfigOutputs; std::string shellScript = "set -e\n"; for (std::string const& configName : this->CurrentConfigurationTypes) { cmCustomCommandGenerator ccg(cc, configName, this->CurrentLocalGenerator); std::vector realDepends; realDepends.reserve(ccg.GetDepends().size()); for (auto const& d : ccg.GetDepends()) { std::string dep; if (this->CurrentLocalGenerator->GetRealDependency(d, configName, dep)) { realDepends.emplace_back(std::move(dep)); } } allConfigInputs.insert(realDepends.begin(), realDepends.end()); allConfigOutputs.insert(ccg.GetByproducts().begin(), ccg.GetByproducts().end()); allConfigOutputs.insert(ccg.GetOutputs().begin(), ccg.GetOutputs().end()); shellScript = cmStrCat(shellScript, R"(if test "$CONFIGURATION" = ")", configName, "\"; then :\n", this->ConstructScript(ccg), "fi\n"); } cmXCodeObject* buildPhase = this->CreateObject(cmXCodeObject::PBXShellScriptBuildPhase); buildPhase->AddAttribute("buildActionMask", this->CreateString("2147483647")); cmXCodeObject* buildFiles = this->CreateObject(cmXCodeObject::OBJECT_LIST); buildPhase->AddAttribute("files", buildFiles); { std::string name; if (!allConfigOutputs.empty()) { name = cmStrCat("Generate ", this->RelativeToBinary(*allConfigOutputs.begin())); } else { name = sf->GetLocation().GetName(); } buildPhase->AddAttribute("name", this->CreateString(name)); } buildPhase->AddAttribute("runOnlyForDeploymentPostprocessing", this->CreateString("0")); buildPhase->AddAttribute("shellPath", this->CreateString("/bin/sh")); buildPhase->AddAttribute("shellScript", this->CreateString(shellScript)); buildPhase->AddAttribute("showEnvVarsInLog", this->CreateString("0")); bool symbolic = false; { cmXCodeObject* inputPaths = this->CreateObject(cmXCodeObject::OBJECT_LIST); for (std::string const& i : allConfigInputs) { inputPaths->AddUniqueObject(this->CreateString(i)); if (!symbolic) { if (cmSourceFile* isf = gt->GetLocalGenerator()->GetMakefile()->GetSource( i, cmSourceFileLocationKind::Known)) { symbolic = isf->GetPropertyAsBool("SYMBOLIC"); } } } buildPhase->AddAttribute("inputPaths", inputPaths); } { cmXCodeObject* outputPaths = this->CreateObject(cmXCodeObject::OBJECT_LIST); for (std::string const& o : allConfigOutputs) { outputPaths->AddUniqueObject(this->CreateString(o)); if (!symbolic) { if (cmSourceFile* osf = gt->GetLocalGenerator()->GetMakefile()->GetSource( o, cmSourceFileLocationKind::Known)) { symbolic = osf->GetPropertyAsBool("SYMBOLIC"); } } } buildPhase->AddAttribute("outputPaths", outputPaths); } if (symbolic) { buildPhase->AddAttribute("alwaysOutOfDate", this->CreateString("1")); } return buildPhase; } cmXCodeObject* cmGlobalXCodeGenerator::CreateRunScriptBuildPhase( std::string const& name, std::vector const& commands) { if (commands.empty()) { return nullptr; } std::set allConfigOutputs; std::string shellScript = "set -e\n"; for (std::string const& configName : this->CurrentConfigurationTypes) { shellScript = cmStrCat(shellScript, R"(if test "$CONFIGURATION" = ")", configName, "\"; then :\n"); for (cmCustomCommand const& cc : commands) { cmCustomCommandGenerator ccg(cc, configName, this->CurrentLocalGenerator); shellScript = cmStrCat(shellScript, this->ConstructScript(ccg)); allConfigOutputs.insert(ccg.GetByproducts().begin(), ccg.GetByproducts().end()); } shellScript = cmStrCat(shellScript, "fi\n"); } cmXCodeObject* buildPhase = this->CreateObject(cmXCodeObject::PBXShellScriptBuildPhase); buildPhase->AddAttribute("buildActionMask", this->CreateString("2147483647")); cmXCodeObject* buildFiles = this->CreateObject(cmXCodeObject::OBJECT_LIST); buildPhase->AddAttribute("files", buildFiles); buildPhase->AddAttribute("name", this->CreateString(name)); buildPhase->AddAttribute("runOnlyForDeploymentPostprocessing", this->CreateString("0")); buildPhase->AddAttribute("shellPath", this->CreateString("/bin/sh")); buildPhase->AddAttribute("shellScript", this->CreateString(shellScript)); buildPhase->AddAttribute("showEnvVarsInLog", this->CreateString("0")); { cmXCodeObject* outputPaths = this->CreateObject(cmXCodeObject::OBJECT_LIST); for (std::string const& o : allConfigOutputs) { outputPaths->AddUniqueObject(this->CreateString(o)); } buildPhase->AddAttribute("outputPaths", outputPaths); } buildPhase->AddAttribute("alwaysOutOfDate", this->CreateString("1")); return buildPhase; } namespace { void ReplaceScriptVars(std::string& cmd) { cmSystemTools::ReplaceString(cmd, "$(CONFIGURATION)", "$CONFIGURATION"); cmSystemTools::ReplaceString(cmd, "$(EFFECTIVE_PLATFORM_NAME)", "$EFFECTIVE_PLATFORM_NAME"); } } std::string cmGlobalXCodeGenerator::ConstructScript( cmCustomCommandGenerator const& ccg) { std::string script; cmLocalGenerator* lg = this->CurrentLocalGenerator; std::string wd = ccg.GetWorkingDirectory(); if (wd.empty()) { wd = lg->GetCurrentBinaryDirectory(); } wd = lg->ConvertToOutputFormat(wd, cmOutputConverter::SHELL); ReplaceScriptVars(wd); script = cmStrCat(script, " cd ", wd, "\n"); for (unsigned int c = 0; c < ccg.GetNumberOfCommands(); ++c) { std::string cmd = ccg.GetCommand(c); if (cmd.empty()) { continue; } cmSystemTools::ReplaceString(cmd, "/./", "/"); cmd = lg->ConvertToOutputFormat(cmd, cmOutputConverter::SHELL); ccg.AppendArguments(c, cmd); ReplaceScriptVars(cmd); script = cmStrCat(script, " ", cmd, '\n'); } return script; } // This function removes each occurrence of the flag and returns the last one // (i.e., the dominant flag in GCC) std::string cmGlobalXCodeGenerator::ExtractFlag(const char* flag, std::string& flags) { std::string retFlag; std::string::size_type lastOccurancePos = flags.rfind(flag); bool saved = false; while (lastOccurancePos != std::string::npos) { // increment pos, we use lastOccurancePos to reduce search space on next // inc std::string::size_type pos = lastOccurancePos; if (pos == 0 || flags[pos - 1] == ' ') { while (pos < flags.size() && flags[pos] != ' ') { if (!saved) { retFlag += flags[pos]; } flags[pos] = ' '; pos++; } saved = true; } // decrement lastOccurancePos while making sure we don't loop around // and become a very large positive number since size_type is unsigned lastOccurancePos = lastOccurancePos == 0 ? 0 : lastOccurancePos - 1; lastOccurancePos = flags.rfind(flag, lastOccurancePos); } return retFlag; } // This function removes each matching occurrence of the expression and // returns the last one (i.e., the dominant flag in GCC) std::string cmGlobalXCodeGenerator::ExtractFlagRegex(const char* exp, int matchIndex, std::string& flags) { std::string retFlag; cmsys::RegularExpression regex(exp); assert(regex.is_valid()); if (!regex.is_valid()) { return retFlag; } std::string::size_type offset = 0; while (regex.find(&flags[offset])) { const std::string::size_type startPos = offset + regex.start(matchIndex); const std::string::size_type endPos = offset + regex.end(matchIndex); const std::string::size_type size = endPos - startPos; offset = startPos + 1; retFlag.assign(flags, startPos, size); flags.replace(startPos, size, size, ' '); } return retFlag; } //---------------------------------------------------------------------------- // This function strips off Xcode attributes that do not target the current // configuration void cmGlobalXCodeGenerator::FilterConfigurationAttribute( std::string const& configName, std::string& attribute) { // Handle [variant=] condition explicitly here. std::string::size_type beginVariant = attribute.find("[variant="); if (beginVariant == std::string::npos) { // There is no variant in this attribute. return; } std::string::size_type endVariant = attribute.find(']', beginVariant + 9); if (endVariant == std::string::npos) { // There is no terminating bracket. return; } // Compare the variant to the configuration. std::string variant = attribute.substr(beginVariant + 9, endVariant - beginVariant - 9); if (variant == configName) { // The variant matches the configuration so use this // attribute but drop the [variant=] condition. attribute.erase(beginVariant, endVariant - beginVariant + 1); } else { // The variant does not match the configuration so // do not use this attribute. attribute.clear(); } } void cmGlobalXCodeGenerator::AddCommandsToBuildPhase( cmXCodeObject* buildphase, cmGeneratorTarget* target, std::vector const& commands, const char* name) { std::string dir = cmStrCat( this->CurrentLocalGenerator->GetCurrentBinaryDirectory(), "/CMakeScripts"); cmSystemTools::MakeDirectory(dir); std::string makefile = cmStrCat(dir, '/', target->GetName(), '_', name, ".make"); for (const auto& currentConfig : this->CurrentConfigurationTypes) { this->CreateCustomRulesMakefile(makefile.c_str(), target, commands, currentConfig); } std::string cdir = this->CurrentLocalGenerator->GetCurrentBinaryDirectory(); cdir = this->ConvertToRelativeForMake(cdir); std::string makecmd = cmStrCat("make -C ", cdir, " -f ", this->ConvertToRelativeForMake((makefile + "$CONFIGURATION")), " OBJDIR=$(basename \"$OBJECT_FILE_DIR_normal\") all"); buildphase->AddAttribute("shellScript", this->CreateString(makecmd)); buildphase->AddAttribute("showEnvVarsInLog", this->CreateString("0")); } void cmGlobalXCodeGenerator::CreateCustomRulesMakefile( const char* makefileBasename, cmGeneratorTarget* target, std::vector const& commands, const std::string& configName) { std::string makefileName = cmStrCat(makefileBasename, configName); cmGeneratedFileStream makefileStream(makefileName); if (!makefileStream) { return; } makefileStream.SetCopyIfDifferent(true); makefileStream << "# Generated by CMake, DO NOT EDIT\n"; makefileStream << "# Custom rules for " << target->GetName() << "\n"; // disable the implicit rules makefileStream << ".SUFFIXES: " << "\n"; // have all depend on all outputs makefileStream << "all: "; std::map tname; int count = 0; for (auto const& command : commands) { cmCustomCommandGenerator ccg(command, configName, this->CurrentLocalGenerator); if (ccg.GetNumberOfCommands() > 0) { const std::vector& outputs = ccg.GetOutputs(); if (!outputs.empty()) { for (auto const& output : outputs) { makefileStream << "\\\n\t" << this->ConvertToRelativeForMake(output); } } else { std::ostringstream str; str << "_buildpart_" << count++; tname[&ccg.GetCC()] = target->GetName() + str.str(); makefileStream << "\\\n\t" << tname[&ccg.GetCC()]; } } } makefileStream << "\n\n"; for (auto const& command : commands) { cmCustomCommandGenerator ccg(command, configName, this->CurrentLocalGenerator); std::vector realDepends; realDepends.reserve(ccg.GetDepends().size()); for (auto const& d : ccg.GetDepends()) { std::string dep; if (this->CurrentLocalGenerator->GetRealDependency(d, configName, dep)) { realDepends.emplace_back(std::move(dep)); } } if (ccg.GetNumberOfCommands() > 0) { makefileStream << "\n"; const std::vector& outputs = ccg.GetOutputs(); if (!outputs.empty()) { // There is at least one output, start the rule for it const char* sep = ""; for (auto const& output : outputs) { makefileStream << sep << this->ConvertToRelativeForMake(output); sep = " "; } makefileStream << ": "; } else { // There are no outputs. Use the generated force rule name. makefileStream << tname[&ccg.GetCC()] << ": "; } for (auto const& dep : realDepends) { makefileStream << "\\\n" << this->ConvertToRelativeForMake(dep); } makefileStream << "\n"; if (const char* comment = ccg.GetComment()) { std::string echo_cmd = cmStrCat("echo ", (this->CurrentLocalGenerator->EscapeForShell( comment, ccg.GetCC().GetEscapeAllowMakeVars()))); makefileStream << "\t" << echo_cmd << "\n"; } // Add each command line to the set of commands. for (unsigned int c = 0; c < ccg.GetNumberOfCommands(); ++c) { // Build the command line in a single string. std::string cmd2 = ccg.GetCommand(c); cmSystemTools::ReplaceString(cmd2, "/./", "/"); cmd2 = this->ConvertToRelativeForMake(cmd2); std::string cmd; std::string wd = ccg.GetWorkingDirectory(); if (!wd.empty()) { cmd += "cd "; cmd += this->ConvertToRelativeForMake(wd); cmd += " && "; } cmd += cmd2; ccg.AppendArguments(c, cmd); makefileStream << "\t" << cmd << "\n"; } // Symbolic inputs are not expected to exist, so add dummy rules. for (auto const& dep : realDepends) { if (cmSourceFile* dsf = target->GetLocalGenerator()->GetMakefile()->GetSource( dep, cmSourceFileLocationKind::Known)) { if (dsf->GetPropertyAsBool("SYMBOLIC")) { makefileStream << this->ConvertToRelativeForMake(dep) << ":\n"; } } } } } } void cmGlobalXCodeGenerator::AddPositionIndependentLinkAttribute( cmGeneratorTarget* target, cmXCodeObject* buildSettings, const std::string& configName) { // For now, only EXECUTABLE is concerned if (target->GetType() != cmStateEnums::EXECUTABLE) { return; } const char* PICValue = target->GetLinkPIEProperty(configName); if (PICValue == nullptr) { // POSITION_INDEPENDENT_CODE is not set return; } buildSettings->AddAttribute( "LD_NO_PIE", this->CreateString(cmIsOn(PICValue) ? "NO" : "YES")); } void cmGlobalXCodeGenerator::CreateBuildSettings(cmGeneratorTarget* gtgt, cmXCodeObject* buildSettings, const std::string& configName) { if (!gtgt->IsInBuildSystem()) { return; } std::string defFlags; bool shared = ((gtgt->GetType() == cmStateEnums::SHARED_LIBRARY) || (gtgt->GetType() == cmStateEnums::MODULE_LIBRARY)); bool binary = ((gtgt->GetType() == cmStateEnums::OBJECT_LIBRARY) || (gtgt->GetType() == cmStateEnums::STATIC_LIBRARY) || (gtgt->GetType() == cmStateEnums::EXECUTABLE) || shared); // Compute the compilation flags for each language. std::set languages; gtgt->GetLanguages(languages, configName); std::map cflags; for (auto const& lang : languages) { std::string& flags = cflags[lang]; // Add language-specific flags. this->CurrentLocalGenerator->AddLanguageFlags(flags, gtgt, lang, configName); if (gtgt->IsIPOEnabled(lang, configName)) { this->CurrentLocalGenerator->AppendFeatureOptions(flags, lang, "IPO"); } // Add shared-library flags if needed. this->CurrentLocalGenerator->AddCMP0018Flags(flags, gtgt, lang, configName); this->CurrentLocalGenerator->AddVisibilityPresetFlags(flags, gtgt, lang); this->CurrentLocalGenerator->AddCompileOptions(flags, gtgt, lang, configName); } std::string llang = gtgt->GetLinkerLanguage(configName); if (binary && llang.empty()) { cmSystemTools::Error( "CMake can not determine linker language for target: " + gtgt->GetName()); return; } std::string const& langForPreprocessor = llang; if (gtgt->IsIPOEnabled(llang, configName)) { const char* ltoValue = this->CurrentMakefile->IsOn("_CMAKE_LTO_THIN") ? "YES_THIN" : "YES"; buildSettings->AddAttribute("LLVM_LTO", this->CreateString(ltoValue)); } // Handle PIE linker configuration this->AddPositionIndependentLinkAttribute(gtgt, buildSettings, configName); // Add define flags this->CurrentLocalGenerator->AppendFlags( defFlags, this->CurrentMakefile->GetDefineFlags()); // Add preprocessor definitions for this target and configuration. BuildObjectListOrString ppDefs(this, true); this->AppendDefines( ppDefs, "CMAKE_INTDIR=\"$(CONFIGURATION)$(EFFECTIVE_PLATFORM_NAME)\""); if (const std::string* exportMacro = gtgt->GetExportMacro()) { // Add the export symbol definition for shared library objects. this->AppendDefines(ppDefs, exportMacro->c_str()); } std::vector targetDefines; if (!langForPreprocessor.empty()) { gtgt->GetCompileDefinitions(targetDefines, configName, langForPreprocessor); } this->AppendDefines(ppDefs, targetDefines); buildSettings->AddAttribute("GCC_PREPROCESSOR_DEFINITIONS", ppDefs.CreateList()); std::string extraLinkOptionsVar; std::string extraLinkOptions; if (gtgt->GetType() == cmStateEnums::EXECUTABLE) { extraLinkOptionsVar = "CMAKE_EXE_LINKER_FLAGS"; } else if (gtgt->GetType() == cmStateEnums::SHARED_LIBRARY) { extraLinkOptionsVar = "CMAKE_SHARED_LINKER_FLAGS"; } else if (gtgt->GetType() == cmStateEnums::MODULE_LIBRARY) { extraLinkOptionsVar = "CMAKE_MODULE_LINKER_FLAGS"; } if (!extraLinkOptionsVar.empty()) { this->CurrentLocalGenerator->AddConfigVariableFlags( extraLinkOptions, extraLinkOptionsVar, configName); } if (gtgt->GetType() == cmStateEnums::OBJECT_LIBRARY || gtgt->GetType() == cmStateEnums::STATIC_LIBRARY) { this->CurrentLocalGenerator->GetStaticLibraryFlags( extraLinkOptions, configName, llang, gtgt); } else { cmProp targetLinkFlags = gtgt->GetProperty("LINK_FLAGS"); if (targetLinkFlags) { this->CurrentLocalGenerator->AppendFlags(extraLinkOptions, *targetLinkFlags); } if (!configName.empty()) { std::string linkFlagsVar = cmStrCat("LINK_FLAGS_", cmSystemTools::UpperCase(configName)); if (cmProp linkFlags = gtgt->GetProperty(linkFlagsVar)) { this->CurrentLocalGenerator->AppendFlags(extraLinkOptions, *linkFlags); } } std::vector opts; gtgt->GetLinkOptions(opts, configName, llang); // LINK_OPTIONS are escaped. this->CurrentLocalGenerator->AppendCompileOptions(extraLinkOptions, opts); } // Set target-specific architectures. std::vector archs; gtgt->GetAppleArchs(configName, archs); if (!archs.empty()) { // Enable ARCHS attribute. buildSettings->AddAttribute("ONLY_ACTIVE_ARCH", this->CreateString("NO")); // Store ARCHS value. if (archs.size() == 1) { buildSettings->AddAttribute("ARCHS", this->CreateString(archs[0])); } else { cmXCodeObject* archObjects = this->CreateObject(cmXCodeObject::OBJECT_LIST); for (auto& arch : archs) { archObjects->AddObject(this->CreateString(arch)); } buildSettings->AddAttribute("ARCHS", archObjects); } } // Get the product name components. std::string pnprefix; std::string pnbase; std::string pnsuffix; gtgt->GetFullNameComponents(pnprefix, pnbase, pnsuffix, configName); cmProp version = gtgt->GetProperty("VERSION"); cmProp soversion = gtgt->GetProperty("SOVERSION"); if (!gtgt->HasSOName(configName) || gtgt->IsFrameworkOnApple()) { version = nullptr; soversion = nullptr; } if (version && !soversion) { soversion = version; } if (!version && soversion) { version = soversion; } std::string realName = pnbase; std::string soName = pnbase; if (version && soversion) { realName += "."; realName += *version; soName += "."; soName += *soversion; } // Set attributes to specify the proper name for the target. std::string pndir = this->CurrentLocalGenerator->GetCurrentBinaryDirectory(); if (gtgt->GetType() == cmStateEnums::STATIC_LIBRARY || gtgt->GetType() == cmStateEnums::SHARED_LIBRARY || gtgt->GetType() == cmStateEnums::MODULE_LIBRARY || gtgt->GetType() == cmStateEnums::EXECUTABLE) { if (!gtgt->UsesDefaultOutputDir(configName, cmStateEnums::RuntimeBinaryArtifact)) { std::string pncdir = gtgt->GetDirectory(configName); buildSettings->AddAttribute("CONFIGURATION_BUILD_DIR", this->CreateString(pncdir)); } if (gtgt->IsFrameworkOnApple() || gtgt->IsCFBundleOnApple()) { pnprefix = ""; } buildSettings->AddAttribute("EXECUTABLE_PREFIX", this->CreateString(pnprefix)); buildSettings->AddAttribute("EXECUTABLE_SUFFIX", this->CreateString(pnsuffix)); } else if (gtgt->GetType() == cmStateEnums::OBJECT_LIBRARY) { pnprefix = "lib"; pnbase = gtgt->GetName(); pnsuffix = ".a"; std::string pncdir = this->GetObjectsDirectory( this->CurrentProject, configName, gtgt, OBJECT_LIBRARY_ARTIFACT_DIR); buildSettings->AddAttribute("CONFIGURATION_BUILD_DIR", this->CreateString(pncdir)); } // Store the product name for all target types. buildSettings->AddAttribute("PRODUCT_NAME", this->CreateString(realName)); buildSettings->AddAttribute("SYMROOT", this->CreateString(pndir)); // Handle settings for each target type. switch (gtgt->GetType()) { case cmStateEnums::STATIC_LIBRARY: if (gtgt->GetPropertyAsBool("FRAMEWORK")) { std::string fw_version = gtgt->GetFrameworkVersion(); buildSettings->AddAttribute("FRAMEWORK_VERSION", this->CreateString(fw_version)); cmProp ext = gtgt->GetProperty("BUNDLE_EXTENSION"); if (ext) { buildSettings->AddAttribute("WRAPPER_EXTENSION", this->CreateString(*ext)); } std::string plist = this->ComputeInfoPListLocation(gtgt); // Xcode will create the final version of Info.plist at build time, // so let it replace the framework name. This avoids creating // a per-configuration Info.plist file. this->CurrentLocalGenerator->GenerateFrameworkInfoPList( gtgt, "$(EXECUTABLE_NAME)", plist); buildSettings->AddAttribute("INFOPLIST_FILE", this->CreateString(plist)); buildSettings->AddAttribute("MACH_O_TYPE", this->CreateString("staticlib")); } else { buildSettings->AddAttribute("LIBRARY_STYLE", this->CreateString("STATIC")); } break; case cmStateEnums::OBJECT_LIBRARY: { buildSettings->AddAttribute("LIBRARY_STYLE", this->CreateString("STATIC")); break; } case cmStateEnums::MODULE_LIBRARY: { buildSettings->AddAttribute("LIBRARY_STYLE", this->CreateString("BUNDLE")); if (gtgt->IsCFBundleOnApple()) { // It turns out that a BUNDLE is basically the same // in many ways as an application bundle, as far as // link flags go std::string createFlags = this->LookupFlags( "CMAKE_SHARED_MODULE_CREATE_", llang, "_FLAGS", "-bundle"); if (!createFlags.empty()) { extraLinkOptions += " "; extraLinkOptions += createFlags; } cmProp ext = gtgt->GetProperty("BUNDLE_EXTENSION"); if (ext) { buildSettings->AddAttribute("WRAPPER_EXTENSION", this->CreateString(*ext)); } std::string plist = this->ComputeInfoPListLocation(gtgt); // Xcode will create the final version of Info.plist at build time, // so let it replace the cfbundle name. This avoids creating // a per-configuration Info.plist file. The cfbundle plist // is very similar to the application bundle plist this->CurrentLocalGenerator->GenerateAppleInfoPList( gtgt, "$(EXECUTABLE_NAME)", plist); buildSettings->AddAttribute("INFOPLIST_FILE", this->CreateString(plist)); } else { buildSettings->AddAttribute("MACH_O_TYPE", this->CreateString("mh_bundle")); buildSettings->AddAttribute("GCC_DYNAMIC_NO_PIC", this->CreateString("NO")); // Add the flags to create an executable. std::string createFlags = this->LookupFlags("CMAKE_", llang, "_LINK_FLAGS", ""); if (!createFlags.empty()) { extraLinkOptions += " "; extraLinkOptions += createFlags; } } break; } case cmStateEnums::SHARED_LIBRARY: { if (gtgt->GetPropertyAsBool("FRAMEWORK")) { std::string fw_version = gtgt->GetFrameworkVersion(); buildSettings->AddAttribute("FRAMEWORK_VERSION", this->CreateString(fw_version)); cmProp ext = gtgt->GetProperty("BUNDLE_EXTENSION"); if (ext) { buildSettings->AddAttribute("WRAPPER_EXTENSION", this->CreateString(*ext)); } std::string plist = this->ComputeInfoPListLocation(gtgt); // Xcode will create the final version of Info.plist at build time, // so let it replace the framework name. This avoids creating // a per-configuration Info.plist file. this->CurrentLocalGenerator->GenerateFrameworkInfoPList( gtgt, "$(EXECUTABLE_NAME)", plist); buildSettings->AddAttribute("INFOPLIST_FILE", this->CreateString(plist)); } else { // Add the flags to create a shared library. std::string createFlags = this->LookupFlags( "CMAKE_SHARED_LIBRARY_CREATE_", llang, "_FLAGS", "-dynamiclib"); if (!createFlags.empty()) { extraLinkOptions += " "; extraLinkOptions += createFlags; } } buildSettings->AddAttribute("LIBRARY_STYLE", this->CreateString("DYNAMIC")); break; } case cmStateEnums::EXECUTABLE: { // Add the flags to create an executable. std::string createFlags = this->LookupFlags("CMAKE_", llang, "_LINK_FLAGS", ""); if (!createFlags.empty()) { extraLinkOptions += " "; extraLinkOptions += createFlags; } // Handle bundles and normal executables separately. if (gtgt->GetPropertyAsBool("MACOSX_BUNDLE")) { cmProp ext = gtgt->GetProperty("BUNDLE_EXTENSION"); if (ext) { buildSettings->AddAttribute("WRAPPER_EXTENSION", this->CreateString(*ext)); } std::string plist = this->ComputeInfoPListLocation(gtgt); // Xcode will create the final version of Info.plist at build time, // so let it replace the executable name. This avoids creating // a per-configuration Info.plist file. this->CurrentLocalGenerator->GenerateAppleInfoPList( gtgt, "$(EXECUTABLE_NAME)", plist); buildSettings->AddAttribute("INFOPLIST_FILE", this->CreateString(plist)); } } break; default: break; } BuildObjectListOrString dirs(this, true); BuildObjectListOrString fdirs(this, true); BuildObjectListOrString sysdirs(this, true); BuildObjectListOrString sysfdirs(this, true); const bool emitSystemIncludes = this->XcodeVersion >= 83; std::vector includes; if (!langForPreprocessor.empty()) { this->CurrentLocalGenerator->GetIncludeDirectories( includes, gtgt, langForPreprocessor, configName); } std::set emitted; emitted.insert("/System/Library/Frameworks"); for (auto& include : includes) { if (this->NameResolvesToFramework(include)) { std::string frameworkDir = cmStrCat(include, "/../"); frameworkDir = cmSystemTools::CollapseFullPath(frameworkDir); if (emitted.insert(frameworkDir).second) { std::string incpath = this->XCodeEscapePath(frameworkDir); if (emitSystemIncludes && gtgt->IsSystemIncludeDirectory(frameworkDir, configName, langForPreprocessor)) { sysfdirs.Add(incpath); } else { fdirs.Add(incpath); } } } else { std::string incpath = this->XCodeEscapePath(include); if (emitSystemIncludes && gtgt->IsSystemIncludeDirectory(include, configName, langForPreprocessor)) { sysdirs.Add(incpath); } else { dirs.Add(incpath); } } } // Add framework search paths needed for linking. if (cmComputeLinkInformation* cli = gtgt->GetLinkInformation(configName)) { for (auto const& fwDir : cli->GetFrameworkPaths()) { if (emitted.insert(fwDir).second) { std::string incpath = this->XCodeEscapePath(fwDir); if (emitSystemIncludes && gtgt->IsSystemIncludeDirectory(fwDir, configName, langForPreprocessor)) { sysfdirs.Add(incpath); } else { fdirs.Add(incpath); } } } } if (!fdirs.IsEmpty()) { buildSettings->AddAttribute("FRAMEWORK_SEARCH_PATHS", fdirs.CreateList()); } if (!dirs.IsEmpty()) { buildSettings->AddAttribute("HEADER_SEARCH_PATHS", dirs.CreateList()); } if (!sysfdirs.IsEmpty()) { buildSettings->AddAttribute("SYSTEM_FRAMEWORK_SEARCH_PATHS", sysfdirs.CreateList()); } if (!sysdirs.IsEmpty()) { buildSettings->AddAttribute("SYSTEM_HEADER_SEARCH_PATHS", sysdirs.CreateList()); } if (this->XcodeVersion >= 60 && !emitSystemIncludes) { // Add those per-language flags in addition to HEADER_SEARCH_PATHS to gain // system include directory awareness. We need to also keep on setting // HEADER_SEARCH_PATHS to work around a missing compile options flag for // GNU assembly files (#16449) for (auto const& language : languages) { std::string includeFlags = this->CurrentLocalGenerator->GetIncludeFlags( includes, gtgt, language, true, false, configName); if (!includeFlags.empty()) { cflags[language] += " " + includeFlags; } } } bool same_gflags = true; std::map gflags; std::string const* last_gflag = nullptr; std::string optLevel = "0"; // Minimal map of flags to build settings. for (auto const& language : languages) { std::string& flags = cflags[language]; std::string& gflag = gflags[language]; std::string oflag = this->ExtractFlagRegex("(^| )(-Ofast|-Os|-O[0-9]*)( |$)", 2, flags); if (oflag.size() == 2) { optLevel = "1"; } else if (oflag.size() > 2) { optLevel = oflag.substr(2); } gflag = this->ExtractFlag("-g", flags); // put back gdwarf-2 if used since there is no way // to represent it in the gui, but we still want debug yes if (gflag == "-gdwarf-2") { flags += " "; flags += gflag; } if (last_gflag && *last_gflag != gflag) { same_gflags = false; } last_gflag = &gflag; } const char* debugStr = "YES"; if (!same_gflags) { // We can't set the Xcode flag differently depending on the language, // so put them back in this case. for (auto const& language : languages) { cflags[language] += " "; cflags[language] += gflags[language]; } debugStr = "NO"; } else if (last_gflag && (last_gflag->empty() || *last_gflag == "-g0")) { debugStr = "NO"; } // extract C++ stdlib for (auto const& language : languages) { if (language != "CXX" && language != "OBJCXX") { continue; } std::string& flags = cflags[language]; auto stdlib = this->ExtractFlagRegex("(^| )(-stdlib=[^ ]+)( |$)", 2, flags); if (stdlib.size() > 8) { const auto cxxLibrary = stdlib.substr(8); if (language == "CXX" || !buildSettings->GetAttribute("CLANG_CXX_LIBRARY")) { buildSettings->AddAttribute("CLANG_CXX_LIBRARY", this->CreateString(cxxLibrary)); } } } buildSettings->AddAttribute("COMBINE_HIDPI_IMAGES", this->CreateString("YES")); buildSettings->AddAttribute("GCC_GENERATE_DEBUGGING_SYMBOLS", this->CreateString(debugStr)); buildSettings->AddAttribute("GCC_OPTIMIZATION_LEVEL", this->CreateString(optLevel)); buildSettings->AddAttribute("GCC_SYMBOLS_PRIVATE_EXTERN", this->CreateString("NO")); buildSettings->AddAttribute("GCC_INLINES_ARE_PRIVATE_EXTERN", this->CreateString("NO")); for (auto const& language : languages) { std::string flags = cflags[language] + " " + defFlags; if (language == "CXX" || language == "OBJCXX") { if (language == "CXX" || !buildSettings->GetAttribute("OTHER_CPLUSPLUSFLAGS")) { buildSettings->AddAttribute("OTHER_CPLUSPLUSFLAGS", this->CreateString(flags)); } } else if (language == "Fortran") { buildSettings->AddAttribute("IFORT_OTHER_FLAGS", this->CreateString(flags)); } else if (language == "C" || language == "OBJC") { if (language == "C" || !buildSettings->GetAttribute("OTHER_CFLAGS")) { buildSettings->AddAttribute("OTHER_CFLAGS", this->CreateString(flags)); } } else if (language == "Swift") { buildSettings->AddAttribute("OTHER_SWIFT_FLAGS", this->CreateString(flags)); } } // Add Fortran source format attribute if property is set. const char* format = nullptr; std::string const& tgtfmt = gtgt->GetSafeProperty("Fortran_FORMAT"); switch (cmOutputConverter::GetFortranFormat(tgtfmt)) { case cmOutputConverter::FortranFormatFixed: format = "fixed"; break; case cmOutputConverter::FortranFormatFree: format = "free"; break; default: break; } if (format) { buildSettings->AddAttribute("IFORT_LANG_SRCFMT", this->CreateString(format)); } // Create the INSTALL_PATH attribute. std::string install_name_dir; if (gtgt->GetType() == cmStateEnums::SHARED_LIBRARY) { // Get the install_name directory for the build tree. install_name_dir = gtgt->GetInstallNameDirForBuildTree(configName); // Xcode doesn't create the correct install_name in some cases. // That is, if the INSTALL_PATH is empty, or if we have versioning // of dylib libraries, we want to specify the install_name. // This is done by adding a link flag to create an install_name // with just the library soname. std::string install_name; if (!install_name_dir.empty()) { // Convert to a path for the native build tool. cmSystemTools::ConvertToUnixSlashes(install_name_dir); install_name += install_name_dir; install_name += "/"; } install_name += gtgt->GetSOName(configName); if ((realName != soName) || install_name_dir.empty()) { install_name_dir = ""; extraLinkOptions += " -install_name "; extraLinkOptions += XCodeEscapePath(install_name); } } buildSettings->AddAttribute("INSTALL_PATH", this->CreateString(install_name_dir)); // Create the LD_RUNPATH_SEARCH_PATHS cmComputeLinkInformation* pcli = gtgt->GetLinkInformation(configName); if (pcli) { std::string search_paths; std::vector runtimeDirs; pcli->GetRPath(runtimeDirs, false); // runpath dirs needs to be unique to prevent corruption std::set unique_dirs; for (auto runpath : runtimeDirs) { runpath = this->ExpandCFGIntDir(runpath, configName); if (unique_dirs.find(runpath) == unique_dirs.end()) { unique_dirs.insert(runpath); if (!search_paths.empty()) { search_paths += " "; } search_paths += this->XCodeEscapePath(runpath); } } if (!search_paths.empty()) { buildSettings->AddAttribute("LD_RUNPATH_SEARCH_PATHS", this->CreateString(search_paths)); } } buildSettings->AddAttribute(this->GetTargetLinkFlagsVar(gtgt), this->CreateString(extraLinkOptions)); buildSettings->AddAttribute("OTHER_REZFLAGS", this->CreateString("")); buildSettings->AddAttribute("SECTORDER_FLAGS", this->CreateString("")); buildSettings->AddAttribute("USE_HEADERMAP", this->CreateString("NO")); cmXCodeObject* group = this->CreateObject(cmXCodeObject::OBJECT_LIST); group->AddObject(this->CreateString("$(inherited)")); buildSettings->AddAttribute("WARNING_CFLAGS", group); // Runtime version information. if (gtgt->GetType() == cmStateEnums::SHARED_LIBRARY) { int major; int minor; int patch; // MACHO_CURRENT_VERSION or VERSION -> current_version gtgt->GetTargetVersionFallback("MACHO_CURRENT_VERSION", "VERSION", major, minor, patch); std::ostringstream v; // Xcode always wants at least 1.0.0 or nothing if (!(major == 0 && minor == 0 && patch == 0)) { v << major << "." << minor << "." << patch; } buildSettings->AddAttribute("DYLIB_CURRENT_VERSION", this->CreateString(v.str())); // MACHO_COMPATIBILITY_VERSION or SOVERSION -> compatibility_version gtgt->GetTargetVersionFallback("MACHO_COMPATIBILITY_VERSION", "SOVERSION", major, minor, patch); std::ostringstream vso; // Xcode always wants at least 1.0.0 or nothing if (!(major == 0 && minor == 0 && patch == 0)) { vso << major << "." << minor << "." << patch; } buildSettings->AddAttribute("DYLIB_COMPATIBILITY_VERSION", this->CreateString(vso.str())); } // Precompile Headers std::string pchHeader = gtgt->GetPchHeader(configName, llang); if (!pchHeader.empty()) { buildSettings->AddAttribute("GCC_PREFIX_HEADER", this->CreateString(pchHeader)); buildSettings->AddAttribute("GCC_PRECOMPILE_PREFIX_HEADER", this->CreateString("YES")); } // put this last so it can override existing settings // Convert "XCODE_ATTRIBUTE_*" properties directly. { for (auto const& prop : gtgt->GetPropertyKeys()) { if (cmHasLiteralPrefix(prop, "XCODE_ATTRIBUTE_")) { std::string attribute = prop.substr(16); this->FilterConfigurationAttribute(configName, attribute); if (!attribute.empty()) { std::string const& pr = gtgt->GetSafeProperty(prop); std::string processed = cmGeneratorExpression::Evaluate( pr, this->CurrentLocalGenerator, configName); buildSettings->AddAttribute(attribute, this->CreateString(processed)); } } } } } cmXCodeObject* cmGlobalXCodeGenerator::CreateUtilityTarget( cmGeneratorTarget* gtgt) { cmXCodeObject* shellBuildPhase = this->CreateObject(cmXCodeObject::PBXShellScriptBuildPhase); shellBuildPhase->AddAttribute("buildActionMask", this->CreateString("2147483647")); cmXCodeObject* buildFiles = this->CreateObject(cmXCodeObject::OBJECT_LIST); shellBuildPhase->AddAttribute("files", buildFiles); cmXCodeObject* inputPaths = this->CreateObject(cmXCodeObject::OBJECT_LIST); shellBuildPhase->AddAttribute("inputPaths", inputPaths); cmXCodeObject* outputPaths = this->CreateObject(cmXCodeObject::OBJECT_LIST); shellBuildPhase->AddAttribute("outputPaths", outputPaths); shellBuildPhase->AddAttribute("runOnlyForDeploymentPostprocessing", this->CreateString("0")); shellBuildPhase->AddAttribute("shellPath", this->CreateString("/bin/sh")); shellBuildPhase->AddAttribute( "shellScript", this->CreateString("# shell script goes here\nexit 0")); shellBuildPhase->AddAttribute("showEnvVarsInLog", this->CreateString("0")); cmXCodeObject* target = this->CreateObject(cmXCodeObject::PBXAggregateTarget); target->SetComment(gtgt->GetName()); cmXCodeObject* buildPhases = this->CreateObject(cmXCodeObject::OBJECT_LIST); std::vector emptyContentVector; this->CreateCustomCommands(buildPhases, nullptr, nullptr, nullptr, emptyContentVector, nullptr, gtgt); target->AddAttribute("buildPhases", buildPhases); this->AddConfigurations(target, gtgt); cmXCodeObject* dependencies = this->CreateObject(cmXCodeObject::OBJECT_LIST); target->AddAttribute("dependencies", dependencies); target->AddAttribute("name", this->CreateString(gtgt->GetName())); target->AddAttribute("productName", this->CreateString(gtgt->GetName())); target->SetTarget(gtgt); this->XCodeObjectMap[gtgt] = target; // Add source files without build rules for editing convenience. if (gtgt->GetType() != cmStateEnums::GLOBAL_TARGET && gtgt->GetName() != CMAKE_CHECK_BUILD_SYSTEM_TARGET) { std::vector sources; if (!gtgt->GetConfigCommonSourceFiles(sources)) { return nullptr; } // Add CMakeLists.txt file for user convenience. this->AddXCodeProjBuildRule(gtgt, sources); for (auto sourceFile : sources) { if (!sourceFile->GetIsGenerated()) { this->CreateXCodeFileReference(sourceFile, gtgt); } } } target->SetId(this->GetOrCreateId(gtgt->GetName(), target->GetId())); return target; } std::string cmGlobalXCodeGenerator::AddConfigurations(cmXCodeObject* target, cmGeneratorTarget* gtgt) { std::vector const configVector = cmExpandedList( this->CurrentMakefile->GetRequiredDefinition("CMAKE_CONFIGURATION_TYPES")); cmXCodeObject* configlist = this->CreateObject(cmXCodeObject::XCConfigurationList); cmXCodeObject* buildConfigurations = this->CreateObject(cmXCodeObject::OBJECT_LIST); configlist->AddAttribute("buildConfigurations", buildConfigurations); std::string comment = cmStrCat("Build configuration list for ", cmXCodeObject::PBXTypeNames[target->GetIsA()], " \"", gtgt->GetName(), '"'); configlist->SetComment(comment); target->AddAttribute("buildConfigurationList", this->CreateObjectReference(configlist)); for (auto const& i : configVector) { cmXCodeObject* config = this->CreateObject(cmXCodeObject::XCBuildConfiguration); buildConfigurations->AddObject(config); cmXCodeObject* buildSettings = this->CreateObject(cmXCodeObject::ATTRIBUTE_GROUP); this->CreateBuildSettings(gtgt, buildSettings, i); config->AddAttribute("name", this->CreateString(i)); config->SetComment(i); config->AddAttribute("buildSettings", buildSettings); } if (!configVector.empty()) { configlist->AddAttribute("defaultConfigurationName", this->CreateString(configVector[0])); configlist->AddAttribute("defaultConfigurationIsVisible", this->CreateString("0")); return configVector[0]; } return ""; } const char* cmGlobalXCodeGenerator::GetTargetLinkFlagsVar( cmGeneratorTarget const* target) const { if (this->XcodeVersion >= 60 && (target->GetType() == cmStateEnums::STATIC_LIBRARY || target->GetType() == cmStateEnums::OBJECT_LIBRARY)) { return "OTHER_LIBTOOLFLAGS"; } return "OTHER_LDFLAGS"; } const char* cmGlobalXCodeGenerator::GetTargetFileType( cmGeneratorTarget* target) { if (cmProp e = target->GetProperty("XCODE_EXPLICIT_FILE_TYPE")) { return e->c_str(); } switch (target->GetType()) { case cmStateEnums::OBJECT_LIBRARY: return "archive.ar"; case cmStateEnums::STATIC_LIBRARY: return (target->GetPropertyAsBool("FRAMEWORK") ? "wrapper.framework" : "archive.ar"); case cmStateEnums::MODULE_LIBRARY: if (target->IsXCTestOnApple()) { return "wrapper.cfbundle"; } if (target->IsCFBundleOnApple()) { return "wrapper.plug-in"; } return "compiled.mach-o.executable"; case cmStateEnums::SHARED_LIBRARY: return (target->GetPropertyAsBool("FRAMEWORK") ? "wrapper.framework" : "compiled.mach-o.dylib"); case cmStateEnums::EXECUTABLE: return "compiled.mach-o.executable"; default: break; } return nullptr; } const char* cmGlobalXCodeGenerator::GetTargetProductType( cmGeneratorTarget* target) { if (cmProp e = target->GetProperty("XCODE_PRODUCT_TYPE")) { return e->c_str(); } switch (target->GetType()) { case cmStateEnums::OBJECT_LIBRARY: return "com.apple.product-type.library.static"; case cmStateEnums::STATIC_LIBRARY: return (target->GetPropertyAsBool("FRAMEWORK") ? "com.apple.product-type.framework" : "com.apple.product-type.library.static"); case cmStateEnums::MODULE_LIBRARY: if (target->IsXCTestOnApple()) { return "com.apple.product-type.bundle.unit-test"; } else if (target->IsCFBundleOnApple()) { return "com.apple.product-type.bundle"; } else { return "com.apple.product-type.tool"; } case cmStateEnums::SHARED_LIBRARY: return (target->GetPropertyAsBool("FRAMEWORK") ? "com.apple.product-type.framework" : "com.apple.product-type.library.dynamic"); case cmStateEnums::EXECUTABLE: return (target->GetPropertyAsBool("MACOSX_BUNDLE") ? "com.apple.product-type.application" : "com.apple.product-type.tool"); default: break; } return nullptr; } cmXCodeObject* cmGlobalXCodeGenerator::CreateXCodeTarget( cmGeneratorTarget* gtgt, cmXCodeObject* buildPhases) { if (!gtgt->IsInBuildSystem()) { return nullptr; } cmXCodeObject* target = this->CreateObject(cmXCodeObject::PBXNativeTarget); target->AddAttribute("buildPhases", buildPhases); cmXCodeObject* buildRules = this->CreateObject(cmXCodeObject::OBJECT_LIST); target->AddAttribute("buildRules", buildRules); std::string defConfig; defConfig = this->AddConfigurations(target, gtgt); cmXCodeObject* dependencies = this->CreateObject(cmXCodeObject::OBJECT_LIST); target->AddAttribute("dependencies", dependencies); target->AddAttribute("name", this->CreateString(gtgt->GetName())); target->AddAttribute("productName", this->CreateString(gtgt->GetName())); cmXCodeObject* fileRef = this->CreateObject(cmXCodeObject::PBXFileReference); if (const char* fileType = this->GetTargetFileType(gtgt)) { fileRef->AddAttribute("explicitFileType", this->CreateString(fileType)); } std::string fullName; if (gtgt->GetType() == cmStateEnums::OBJECT_LIBRARY) { fullName = cmStrCat("lib", gtgt->GetName(), ".a"); } else { fullName = gtgt->GetFullName(defConfig); } fileRef->AddAttribute("path", this->CreateString(fullName)); fileRef->AddAttribute("sourceTree", this->CreateString("BUILT_PRODUCTS_DIR")); fileRef->SetComment(gtgt->GetName()); target->AddAttribute("productReference", this->CreateObjectReference(fileRef)); if (const char* productType = this->GetTargetProductType(gtgt)) { target->AddAttribute("productType", this->CreateString(productType)); } target->SetTarget(gtgt); this->XCodeObjectMap[gtgt] = target; target->SetId(this->GetOrCreateId(gtgt->GetName(), target->GetId())); return target; } cmXCodeObject* cmGlobalXCodeGenerator::FindXCodeTarget( cmGeneratorTarget const* t) { if (!t) { return nullptr; } auto const i = this->XCodeObjectMap.find(t); if (i == this->XCodeObjectMap.end()) { return nullptr; } return i->second; } std::string cmGlobalXCodeGenerator::GetOrCreateId(const std::string& name, const std::string& id) { std::string guidStoreName = cmStrCat(name, "_GUID_CMAKE"); cmProp storedGUID = this->CMakeInstance->GetCacheDefinition(guidStoreName); if (storedGUID) { return *storedGUID; } this->CMakeInstance->AddCacheEntry(guidStoreName, id.c_str(), "Stored Xcode object GUID", cmStateEnums::INTERNAL); return id; } void cmGlobalXCodeGenerator::AddDependTarget(cmXCodeObject* target, cmXCodeObject* dependTarget) { // This is called once for every edge in the target dependency graph. cmXCodeObject* container = this->CreateObject(cmXCodeObject::PBXContainerItemProxy); container->SetComment("PBXContainerItemProxy"); container->AddAttribute("containerPortal", this->CreateObjectReference(this->RootObject)); container->AddAttribute("proxyType", this->CreateString("1")); container->AddAttribute("remoteGlobalIDString", this->CreateObjectReference(dependTarget)); container->AddAttribute( "remoteInfo", this->CreateString(dependTarget->GetTarget()->GetName())); cmXCodeObject* targetdep = this->CreateObject(cmXCodeObject::PBXTargetDependency); targetdep->SetComment("PBXTargetDependency"); targetdep->AddAttribute("target", this->CreateObjectReference(dependTarget)); targetdep->AddAttribute("targetProxy", this->CreateObjectReference(container)); cmXCodeObject* depends = target->GetAttribute("dependencies"); if (!depends) { cmSystemTools::Error( "target does not have dependencies attribute error.."); } else { depends->AddUniqueObject(targetdep); } } void cmGlobalXCodeGenerator::AppendOrAddBuildSetting(cmXCodeObject* settings, const char* attribute, cmXCodeObject* value) { if (settings) { cmXCodeObject* attr = settings->GetAttribute(attribute); if (!attr) { settings->AddAttribute(attribute, value); } else { if (value->GetType() != cmXCodeObject::OBJECT_LIST && value->GetType() != cmXCodeObject::STRING) { cmSystemTools::Error("Unsupported value type for appending: " + std::string(attribute)); return; } if (attr->GetType() == cmXCodeObject::OBJECT_LIST) { if (value->GetType() == cmXCodeObject::OBJECT_LIST) { for (auto* obj : value->GetObjectList()) { attr->AddObject(obj); } } else { attr->AddObject(value); } } else if (attr->GetType() == cmXCodeObject::STRING) { if (value->GetType() == cmXCodeObject::OBJECT_LIST) { // Add old value as a list item to new object list // and replace the attribute with the new list value->PrependObject(attr); settings->AddAttribute(attribute, value); } else { std::string newValue = cmStrCat(attr->GetString(), ' ', value->GetString()); attr->SetString(newValue); } } else { cmSystemTools::Error("Unsupported attribute type for appending: " + std::string(attribute)); } } } } void cmGlobalXCodeGenerator::AppendBuildSettingAttribute( cmXCodeObject* target, const char* attribute, cmXCodeObject* value, const std::string& configName) { // There are multiple configurations. Add the setting to the // buildSettings of the configuration name given. cmXCodeObject* configurationList = target->GetAttribute("buildConfigurationList")->GetObject(); cmXCodeObject* buildConfigs = configurationList->GetAttribute("buildConfigurations"); for (auto obj : buildConfigs->GetObjectList()) { if (configName.empty() || obj->GetAttribute("name")->GetString() == configName) { cmXCodeObject* settings = obj->GetAttribute("buildSettings"); this->AppendOrAddBuildSetting(settings, attribute, value); } } } void cmGlobalXCodeGenerator::AddDependAndLinkInformation(cmXCodeObject* target) { cmGeneratorTarget* gt = target->GetTarget(); if (!gt) { cmSystemTools::Error("Error no target on xobject\n"); return; } if (!gt->IsInBuildSystem()) { return; } // Add dependencies on other CMake targets. for (const auto& dep : this->GetTargetDirectDepends(gt)) { if (cmXCodeObject* dptarget = this->FindXCodeTarget(dep)) { this->AddDependTarget(target, dptarget); } } // Separate libraries into ones that can be linked using "Link Binary With // Libraries" build phase and the ones that can't. Only targets that build // Apple bundles (.app, .framework, .bundle), executables and dylibs can use // this feature and only targets that represent actual libraries (object, // static, dynamic or bundle, excluding executables) will be used. These are // limitations imposed by CMake use-cases - otherwise a lot of things break. // The rest will be linked using linker flags (OTHER_LDFLAGS setting in Xcode // project). std::map> configItemMap; auto addToLinkerArguments = [&configItemMap](const std::string& configName, cmComputeLinkInformation::Item const* libItemPtr) { auto& linkVector = configItemMap[configName]; if (std::find_if(linkVector.begin(), linkVector.end(), [libItemPtr](cmComputeLinkInformation::Item const* p) { return p == libItemPtr; }) == linkVector.end()) { linkVector.push_back(libItemPtr); } }; std::vector linkPhaseTargetVector; std::map> targetConfigMap; using ConfigItemPair = std::pair; std::map> targetItemMap; std::map> targetProductNameMap; bool useLinkPhase = false; bool forceLinkPhase = false; cmProp prop = target->GetTarget()->GetProperty("XCODE_LINK_BUILD_PHASE_MODE"); if (prop) { if (*prop == "BUILT_ONLY") { useLinkPhase = true; } else if (*prop == "KNOWN_LOCATION") { useLinkPhase = true; forceLinkPhase = true; } else if (*prop != "NONE") { cmSystemTools::Error("Invalid value for XCODE_LINK_BUILD_PHASE_MODE: " + *prop); return; } } for (auto const& configName : this->CurrentConfigurationTypes) { cmComputeLinkInformation* cli = gt->GetLinkInformation(configName); if (!cli) { continue; } for (auto const& libItem : cli->GetItems()) { // We want to put only static libraries, dynamic libraries, frameworks // and bundles that are built from targets that are not imported in "Link // Binary With Libraries" build phase. Except if the target property // XCODE_LINK_BUILD_PHASE_MODE is KNOWN_LOCATION then all imported and // non-target libraries will be added as well. if (useLinkPhase && (gt->GetType() == cmStateEnums::EXECUTABLE || gt->GetType() == cmStateEnums::SHARED_LIBRARY || gt->GetType() == cmStateEnums::MODULE_LIBRARY) && ((libItem.Target && (!libItem.Target->IsImported() || forceLinkPhase) && (libItem.Target->GetType() == cmStateEnums::STATIC_LIBRARY || libItem.Target->GetType() == cmStateEnums::SHARED_LIBRARY || libItem.Target->GetType() == cmStateEnums::MODULE_LIBRARY || libItem.Target->GetType() == cmStateEnums::UNKNOWN_LIBRARY)) || (!libItem.Target && libItem.IsPath && forceLinkPhase))) { std::string libName; bool canUseLinkPhase = true; if (libItem.Target) { if (libItem.Target->GetType() == cmStateEnums::UNKNOWN_LIBRARY) { canUseLinkPhase = canUseLinkPhase && forceLinkPhase; } else { // If a library target uses custom build output directory Xcode // won't pick it up so we have to resort back to linker flags, but // that's OK as long as the custom output dir is absolute path. for (auto const& libConfigName : this->CurrentConfigurationTypes) { canUseLinkPhase = canUseLinkPhase && libItem.Target->UsesDefaultOutputDir( libConfigName, cmStateEnums::RuntimeBinaryArtifact); } } libName = libItem.Target->GetName(); } else { libName = cmSystemTools::GetFilenameName(libItem.Value.Value); // We don't want all the possible files here, just standard libraries const auto libExt = cmSystemTools::GetFilenameExtension(libName); if (!IsLinkPhaseLibraryExtension(libExt)) { canUseLinkPhase = false; } } if (canUseLinkPhase) { // Add unique configuration name to target-config map for later // checks auto& configVector = targetConfigMap[libName]; if (std::find(configVector.begin(), configVector.end(), configName) == configVector.end()) { configVector.push_back(configName); } // Add a pair of config and item to target-item map auto& itemVector = targetItemMap[libName]; itemVector.emplace_back(ConfigItemPair(configName, &libItem)); // Add product file-name to a lib-product map auto productName = cmSystemTools::GetFilenameName(libItem.Value.Value); auto& productVector = targetProductNameMap[libName]; if (std::find(productVector.begin(), productVector.end(), productName) == productVector.end()) { productVector.push_back(productName); } continue; } } // Add this library item to a regular linker flag list addToLinkerArguments(configName, &libItem); } } // Go through target library map and separate libraries that are linked // in all configurations and produce only single product, from the rest. // Only these will be linked through "Link Binary With Libraries" build // phase. for (auto const& targetLibConfigs : targetConfigMap) { // Add this library to "Link Binary With Libraries" build phase if it's // linked in all configurations and it has only one product name auto& itemVector = targetItemMap[targetLibConfigs.first]; auto& productVector = targetProductNameMap[targetLibConfigs.first]; if (targetLibConfigs.second == this->CurrentConfigurationTypes && productVector.size() == 1) { // Add this library to "Link Binary With Libraries" list linkPhaseTargetVector.push_back(itemVector[0].second); } else { for (auto const& libItem : targetItemMap[targetLibConfigs.first]) { // Add this library item to a regular linker flag list addToLinkerArguments(libItem.first, libItem.second); } } } // Add libraries to "Link Binary With Libraries" build phase and collect // their search paths. Xcode does not support per-configuration linking // in this build phase so we don't have to do this for each configuration // separately. std::vector linkSearchPaths; std::vector frameworkSearchPaths; for (auto const& libItem : linkPhaseTargetVector) { // Add target output directory as a library search path std::string linkDir; if (libItem->Target) { linkDir = libItem->Target->GetLocationForBuild(); } else { linkDir = libItem->Value.Value; } linkDir = GetLibraryOrFrameworkPath(linkDir); bool isFramework = cmSystemTools::IsPathToFramework(linkDir); linkDir = cmSystemTools::GetParentDirectory(linkDir); if (isFramework) { if (std::find(frameworkSearchPaths.begin(), frameworkSearchPaths.end(), linkDir) == frameworkSearchPaths.end()) { frameworkSearchPaths.push_back(linkDir); } } else { if (std::find(linkSearchPaths.begin(), linkSearchPaths.end(), linkDir) == linkSearchPaths.end()) { linkSearchPaths.push_back(linkDir); } } // Add target dependency if (libItem->Target && !libItem->Target->IsImported()) { for (auto const& configName : this->CurrentConfigurationTypes) { target->AddDependTarget(configName, libItem->Target->GetName()); } } // Get the library target auto* libTarget = FindXCodeTarget(libItem->Target); cmXCodeObject* buildFile; if (!libTarget) { if (libItem->IsPath) { // Get or create a direct file ref in the root project auto cleanPath = libItem->Value.Value; if (cmSystemTools::FileIsFullPath(cleanPath)) { // Some arguments are reported as paths, but they are actually not, // so we can't collapse them, and neither can we collapse relative // paths cleanPath = cmSystemTools::CollapseFullPath(cleanPath); } auto it = this->ExternalLibRefs.find(cleanPath); if (it == this->ExternalLibRefs.end()) { buildFile = CreateXCodeBuildFileFromPath(cleanPath, gt, "", nullptr); if (!buildFile) { // Add this library item back to a regular linker flag list for (const auto& conf : configItemMap) { addToLinkerArguments(conf.first, libItem); } continue; } this->ExternalLibRefs.emplace(cleanPath, buildFile); } else { buildFile = it->second; } } else { // Add this library item back to a regular linker flag list for (const auto& conf : configItemMap) { addToLinkerArguments(conf.first, libItem); } continue; } } else { // Add the target output file as a build reference for other targets // to link against auto* fileRefObject = libTarget->GetAttribute("productReference"); if (!fileRefObject) { // Add this library item back to a regular linker flag list for (const auto& conf : configItemMap) { addToLinkerArguments(conf.first, libItem); } continue; } auto it = FileRefToBuildFileMap.find(fileRefObject); if (it == FileRefToBuildFileMap.end()) { buildFile = this->CreateObject(cmXCodeObject::PBXBuildFile); buildFile->AddAttribute("fileRef", fileRefObject); FileRefToBuildFileMap[fileRefObject] = buildFile; } else { buildFile = it->second; } } // Add this reference to current target auto* buildPhases = target->GetAttribute("buildPhases"); if (!buildPhases) { cmSystemTools::Error("Missing buildPhase of target"); continue; } auto* frameworkBuildPhase = buildPhases->GetObject(cmXCodeObject::PBXFrameworksBuildPhase); if (!frameworkBuildPhase) { cmSystemTools::Error("Missing PBXFrameworksBuildPhase of buildPhase"); continue; } auto* buildFiles = frameworkBuildPhase->GetAttribute("files"); if (!buildFiles) { cmSystemTools::Error("Missing files of PBXFrameworksBuildPhase"); continue; } if (buildFile && !buildFiles->HasObject(buildFile)) { buildFiles->AddObject(buildFile); } } // Loop over configuration types and set per-configuration info. for (auto const& configName : this->CurrentConfigurationTypes) { { // Add object library contents as link flags. BuildObjectListOrString libSearchPaths(this, true); std::vector objs; gt->GetExternalObjects(objs, configName); for (auto sourceFile : objs) { if (sourceFile->GetObjectLibrary().empty()) { continue; } libSearchPaths.Add(this->XCodeEscapePath(sourceFile->GetFullPath())); } this->AppendBuildSettingAttribute( target, this->GetTargetLinkFlagsVar(gt), libSearchPaths.CreateList(), configName); } // Skip link information for object libraries. if (gt->GetType() == cmStateEnums::OBJECT_LIBRARY || gt->GetType() == cmStateEnums::STATIC_LIBRARY) { continue; } // Compute the link library and directory information. cmComputeLinkInformation* cli = gt->GetLinkInformation(configName); if (!cli) { continue; } // Add dependencies directly on library files. for (auto const& libDep : cli->GetDepends()) { target->AddDependLibrary(configName, libDep); } // add the library search paths { BuildObjectListOrString libSearchPaths(this, true); std::string linkDirs; for (auto const& libDir : cli->GetDirectories()) { if (!libDir.empty() && libDir != "/usr/lib") { libSearchPaths.Add(this->XCodeEscapePath( libDir + "/$(CONFIGURATION)$(EFFECTIVE_PLATFORM_NAME)")); libSearchPaths.Add(this->XCodeEscapePath(libDir)); } } // Add previously collected paths where to look for libraries // that were added to "Link Binary With Libraries" for (auto& libDir : linkSearchPaths) { libSearchPaths.Add(this->XCodeEscapePath(libDir)); } // Add paths defined in project-wide build settings libSearchPaths.Add("$(inherited)"); this->AppendBuildSettingAttribute(target, "LIBRARY_SEARCH_PATHS", libSearchPaths.CreateList(), configName); } // add framework search paths { BuildObjectListOrString fwSearchPaths(this, true); // Add previously collected paths where to look for frameworks // that were added to "Link Binary With Libraries" for (auto& fwDir : frameworkSearchPaths) { fwSearchPaths.Add(this->XCodeEscapePath(fwDir)); } // Add paths defined in project-wide build settings fwSearchPaths.Add("$(inherited)"); this->AppendBuildSettingAttribute(target, "FRAMEWORK_SEARCH_PATHS", fwSearchPaths.CreateList(), configName); } // now add the left-over link libraries { BuildObjectListOrString libPaths(this, true); for (auto const& libItem : configItemMap[configName]) { auto const& libName = *libItem; if (libName.IsPath) { auto cleanPath = libName.Value.Value; if (cmSystemTools::FileIsFullPath(cleanPath)) { cleanPath = cmSystemTools::CollapseFullPath(cleanPath); } const auto libPath = GetLibraryOrFrameworkPath(cleanPath); if (cmSystemTools::StringEndsWith(libPath.c_str(), ".framework")) { const auto fwName = cmSystemTools::GetFilenameWithoutExtension(libPath); const auto fwDir = cmSystemTools::GetParentDirectory(libPath); libPaths.Add("-F " + this->XCodeEscapePath(fwDir)); libPaths.Add("-framework " + fwName); } else { libPaths.Add(this->XCodeEscapePath(cleanPath)); } if ((!libName.Target || libName.Target->IsImported()) && IsLinkPhaseLibraryExtension(libPath)) { // Create file reference for embedding auto it = this->ExternalLibRefs.find(cleanPath); if (it == this->ExternalLibRefs.end()) { auto* buildFile = this->CreateXCodeBuildFileFromPath(cleanPath, gt, "", nullptr); if (buildFile) { this->ExternalLibRefs.emplace(cleanPath, buildFile); } } } } else if (!libName.Target || libName.Target->GetType() != cmStateEnums::INTERFACE_LIBRARY) { libPaths.Add(libName.Value.Value); } if (libName.Target && !libName.Target->IsImported()) { target->AddDependTarget(configName, libName.Target->GetName()); } } this->AppendBuildSettingAttribute(target, this->GetTargetLinkFlagsVar(gt), libPaths.CreateList(), configName); } } } bool cmGlobalXCodeGenerator::CreateGroups( std::vector& generators) { for (auto& generator : generators) { cmMakefile* mf = generator->GetMakefile(); std::vector sourceGroups = mf->GetSourceGroups(); for (const auto& gtgt : generator->GetGeneratorTargets()) { // Same skipping logic here as in CreateXCodeTargets so that we do not // end up with (empty anyhow) ZERO_CHECK, install, or test source // groups: // if (!gtgt->IsInBuildSystem() || gtgt->GetType() == cmStateEnums::GLOBAL_TARGET || gtgt->GetName() == CMAKE_CHECK_BUILD_SYSTEM_TARGET) { continue; } auto addSourceToGroup = [this, mf, >gt, &sourceGroups](std::string const& source) { cmSourceGroup* sourceGroup = mf->FindSourceGroup(source, sourceGroups); cmXCodeObject* pbxgroup = this->CreateOrGetPBXGroup(gtgt.get(), sourceGroup); std::string key = GetGroupMapKeyFromPath(gtgt.get(), source); this->GroupMap[key] = pbxgroup; }; // Put cmSourceFile instances in proper groups: for (auto const& si : gtgt->GetAllConfigSources()) { cmSourceFile const* sf = si.Source; if (!sf->GetObjectLibrary().empty()) { // Object library files go on the link line instead. continue; } addSourceToGroup(sf->GetFullPath()); } // Add CMakeLists.txt file for user convenience. { std::string listfile = cmStrCat(gtgt->GetLocalGenerator()->GetCurrentSourceDirectory(), "/CMakeLists.txt"); cmSourceFile* sf = gtgt->Makefile->GetOrCreateSource( listfile, false, cmSourceFileLocationKind::Known); addSourceToGroup(sf->ResolveFullPath()); } // Add the Info.plist we are about to generate for an App Bundle. if (gtgt->GetPropertyAsBool("MACOSX_BUNDLE")) { std::string plist = this->ComputeInfoPListLocation(gtgt.get()); cmSourceFile* sf = gtgt->Makefile->GetOrCreateSource( plist, true, cmSourceFileLocationKind::Known); addSourceToGroup(sf->ResolveFullPath()); } } } return true; } cmXCodeObject* cmGlobalXCodeGenerator::CreatePBXGroup(cmXCodeObject* parent, const std::string& name) { cmXCodeObject* parentChildren = nullptr; if (parent) { parentChildren = parent->GetAttribute("children"); } cmXCodeObject* group = this->CreateObject(cmXCodeObject::PBXGroup); cmXCodeObject* groupChildren = this->CreateObject(cmXCodeObject::OBJECT_LIST); group->AddAttribute("name", this->CreateString(name)); group->AddAttribute("children", groupChildren); group->AddAttribute("sourceTree", this->CreateString("")); if (parentChildren) { parentChildren->AddObject(group); } return group; } cmXCodeObject* cmGlobalXCodeGenerator::CreateOrGetPBXGroup( cmGeneratorTarget* gtgt, cmSourceGroup* sg) { std::string s; std::string target; const std::string targetFolder = gtgt->GetEffectiveFolderName(); if (!targetFolder.empty()) { target = cmStrCat(targetFolder, '/'); } target += gtgt->GetName(); s = cmStrCat(target, '/', sg->GetFullName()); auto it = this->GroupNameMap.find(s); if (it != this->GroupNameMap.end()) { return it->second; } it = this->TargetGroup.find(target); cmXCodeObject* tgroup = nullptr; if (it != this->TargetGroup.end()) { tgroup = it->second; } else { std::vector tgt_folders = cmTokenize(target, "/"); std::string curr_tgt_folder; for (std::vector::size_type i = 0; i < tgt_folders.size(); i++) { if (i != 0) { curr_tgt_folder += "/"; } curr_tgt_folder += tgt_folders[i]; it = this->TargetGroup.find(curr_tgt_folder); if (it != this->TargetGroup.end()) { tgroup = it->second; continue; } tgroup = this->CreatePBXGroup(tgroup, tgt_folders[i]); this->TargetGroup[curr_tgt_folder] = tgroup; if (i == 0) { this->MainGroupChildren->AddObject(tgroup); } } } this->TargetGroup[target] = tgroup; // If it's the default source group (empty name) then put the source file // directly in the tgroup... // if (sg->GetFullName().empty()) { this->GroupNameMap[s] = tgroup; return tgroup; } // It's a recursive folder structure, let's find the real parent group if (sg->GetFullName() != sg->GetName()) { std::string curr_folder = cmStrCat(target, '/'); for (auto const& folder : cmTokenize(sg->GetFullName(), "\\")) { curr_folder += folder; auto const i_folder = this->GroupNameMap.find(curr_folder); // Create new folder if (i_folder == this->GroupNameMap.end()) { cmXCodeObject* group = this->CreatePBXGroup(tgroup, folder); this->GroupNameMap[curr_folder] = group; tgroup = group; } else { tgroup = i_folder->second; } curr_folder += "\\"; } return tgroup; } cmXCodeObject* group = this->CreatePBXGroup(tgroup, sg->GetName()); this->GroupNameMap[s] = group; return group; } bool cmGlobalXCodeGenerator::CreateXCodeObjects( cmLocalGenerator* root, std::vector& generators) { this->ClearXCodeObjects(); this->RootObject = nullptr; this->MainGroupChildren = nullptr; this->FrameworkGroup = nullptr; cmXCodeObject* group = this->CreateObject(cmXCodeObject::ATTRIBUTE_GROUP); group->AddAttribute("COPY_PHASE_STRIP", this->CreateString("NO")); cmXCodeObject* listObjs = this->CreateObject(cmXCodeObject::OBJECT_LIST); for (const std::string& CurrentConfigurationType : this->CurrentConfigurationTypes) { cmXCodeObject* buildStyle = this->CreateObject(cmXCodeObject::PBXBuildStyle); const std::string& name = CurrentConfigurationType; buildStyle->AddAttribute("name", this->CreateString(name)); buildStyle->SetComment(name); cmXCodeObject* sgroup = this->CreateObject(cmXCodeObject::ATTRIBUTE_GROUP); sgroup->AddAttribute("COPY_PHASE_STRIP", this->CreateString("NO")); buildStyle->AddAttribute("buildSettings", sgroup); listObjs->AddObject(buildStyle); } cmXCodeObject* mainGroup = this->CreateObject(cmXCodeObject::PBXGroup); this->MainGroupChildren = this->CreateObject(cmXCodeObject::OBJECT_LIST); mainGroup->AddAttribute("children", this->MainGroupChildren); mainGroup->AddAttribute("sourceTree", this->CreateString("")); // now create the cmake groups if (!this->CreateGroups(generators)) { return false; } cmXCodeObject* productGroup = this->CreateObject(cmXCodeObject::PBXGroup); productGroup->AddAttribute("name", this->CreateString("Products")); productGroup->AddAttribute("sourceTree", this->CreateString("")); cmXCodeObject* productGroupChildren = this->CreateObject(cmXCodeObject::OBJECT_LIST); productGroup->AddAttribute("children", productGroupChildren); this->MainGroupChildren->AddObject(productGroup); this->FrameworkGroup = this->CreateObject(cmXCodeObject::PBXGroup); this->FrameworkGroup->AddAttribute("name", this->CreateString("Frameworks")); this->FrameworkGroup->AddAttribute("sourceTree", this->CreateString("")); cmXCodeObject* frameworkGroupChildren = this->CreateObject(cmXCodeObject::OBJECT_LIST); this->FrameworkGroup->AddAttribute("children", frameworkGroupChildren); this->MainGroupChildren->AddObject(this->FrameworkGroup); this->RootObject = this->CreateObject(cmXCodeObject::PBXProject); this->RootObject->SetComment("Project object"); std::string project_id = cmStrCat("PROJECT_", root->GetProjectName()); this->RootObject->SetId( this->GetOrCreateId(project_id, this->RootObject->GetId())); group = this->CreateObject(cmXCodeObject::ATTRIBUTE_GROUP); this->RootObject->AddAttribute("mainGroup", this->CreateObjectReference(mainGroup)); this->RootObject->AddAttribute("buildSettings", group); this->RootObject->AddAttribute("buildStyles", listObjs); this->RootObject->AddAttribute("hasScannedForEncodings", this->CreateString("0")); group = this->CreateObject(cmXCodeObject::ATTRIBUTE_GROUP); group->AddAttribute("BuildIndependentTargetsInParallel", this->CreateString("YES")); std::ostringstream v; v << std::setfill('0') << std::setw(4) << XcodeVersion * 10; group->AddAttribute("LastUpgradeCheck", this->CreateString(v.str())); this->RootObject->AddAttribute("attributes", group); this->RootObject->AddAttribute("compatibilityVersion", this->CreateString("Xcode 3.2")); // Point Xcode at the top of the source tree. { std::string pdir = this->RelativeToBinary(root->GetCurrentSourceDirectory()); this->RootObject->AddAttribute("projectDirPath", this->CreateString(pdir)); this->RootObject->AddAttribute("projectRoot", this->CreateString("")); } cmXCodeObject* configlist = this->CreateObject(cmXCodeObject::XCConfigurationList); cmXCodeObject* buildConfigurations = this->CreateObject(cmXCodeObject::OBJECT_LIST); using Configs = std::vector>; Configs configs; std::string defaultConfigName; for (const auto& name : this->CurrentConfigurationTypes) { if (defaultConfigName.empty()) { defaultConfigName = name; } cmXCodeObject* config = this->CreateObject(cmXCodeObject::XCBuildConfiguration); config->AddAttribute("name", this->CreateString(name)); configs.push_back(std::make_pair(name, config)); } if (defaultConfigName.empty()) { defaultConfigName = "Debug"; } for (auto& config : configs) { buildConfigurations->AddObject(config.second); } configlist->AddAttribute("buildConfigurations", buildConfigurations); std::string comment = cmStrCat("Build configuration list for PBXProject \"", this->CurrentProject, '"'); configlist->SetComment(comment); configlist->AddAttribute("defaultConfigurationIsVisible", this->CreateString("0")); configlist->AddAttribute("defaultConfigurationName", this->CreateString(defaultConfigName)); cmXCodeObject* buildSettings = this->CreateObject(cmXCodeObject::ATTRIBUTE_GROUP); cmProp sysroot = this->CurrentMakefile->GetDefinition("CMAKE_OSX_SYSROOT"); cmProp deploymentTarget = this->CurrentMakefile->GetDefinition("CMAKE_OSX_DEPLOYMENT_TARGET"); if (sysroot) { buildSettings->AddAttribute("SDKROOT", this->CreateString(*sysroot)); } // recompute this as it may have been changed since enable language this->ComputeArchitectures(this->CurrentMakefile); std::string const archs = cmJoin(this->Architectures, " "); if (archs.empty()) { // Tell Xcode to use NATIVE_ARCH instead of ARCHS. buildSettings->AddAttribute("ONLY_ACTIVE_ARCH", this->CreateString("YES")); // When targeting macOS, use only the host architecture. if (this->SystemName == "Darwin"_s && (!cmNonempty(sysroot) || cmSystemTools::LowerCase(*sysroot).find("macos") != std::string::npos)) { buildSettings->AddAttribute("ARCHS", this->CreateString("$(NATIVE_ARCH_ACTUAL)")); } } else { // Tell Xcode to use ARCHS (ONLY_ACTIVE_ARCH defaults to NO). buildSettings->AddAttribute("ARCHS", this->CreateString(archs)); } if (cmNonempty(deploymentTarget)) { buildSettings->AddAttribute(GetDeploymentPlatform(root->GetMakefile()), this->CreateString(*deploymentTarget)); } if (!this->GeneratorToolset.empty()) { buildSettings->AddAttribute("GCC_VERSION", this->CreateString(this->GeneratorToolset)); } if (this->GetLanguageEnabled("Swift")) { std::string swiftVersion; if (cmProp vers = this->CurrentMakefile->GetDefinition( "CMAKE_Swift_LANGUAGE_VERSION")) { swiftVersion = *vers; } else if (this->XcodeVersion >= 102) { swiftVersion = "4.0"; } else if (this->XcodeVersion >= 83) { swiftVersion = "3.0"; } else { swiftVersion = "2.3"; } buildSettings->AddAttribute("SWIFT_VERSION", this->CreateString(swiftVersion)); } std::string symroot = cmStrCat(root->GetCurrentBinaryDirectory(), "/build"); buildSettings->AddAttribute("SYMROOT", this->CreateString(symroot)); // Inside a try_compile project, do not require signing on any platform. if (this->CMakeInstance->GetIsInTryCompile()) { buildSettings->AddAttribute("CODE_SIGNING_ALLOWED", this->CreateString("NO")); } for (auto& config : configs) { cmXCodeObject* buildSettingsForCfg = this->CreateFlatClone(buildSettings); // Put this last so it can override existing settings // Convert "CMAKE_XCODE_ATTRIBUTE_*" variables directly. for (const auto& var : this->CurrentMakefile->GetDefinitions()) { if (cmHasLiteralPrefix(var, "CMAKE_XCODE_ATTRIBUTE_")) { std::string attribute = var.substr(22); this->FilterConfigurationAttribute(config.first, attribute); if (!attribute.empty()) { std::string processed = cmGeneratorExpression::Evaluate( this->CurrentMakefile->GetSafeDefinition(var), this->CurrentLocalGenerator, config.first); buildSettingsForCfg->AddAttribute(attribute, this->CreateString(processed)); } } } // store per-config buildSettings into configuration object config.second->AddAttribute("buildSettings", buildSettingsForCfg); } this->RootObject->AddAttribute("buildConfigurationList", this->CreateObjectReference(configlist)); std::vector targets; for (auto& generator : generators) { if (!this->CreateXCodeTargets(generator, targets)) { return false; } for (auto const& ccRoot : this->CustomCommandRoots) { if (ccRoot.second.size() > 1) { std::string e = "The custom command "; std::vector const& outputs = ccRoot.first->GetCustomCommand()->GetOutputs(); if (!outputs.empty()) { e = cmStrCat(e, "generating\n ", outputs[0]); } else { e = cmStrCat(e, "driven by\n ", ccRoot.first->GetFullPath()); } e = cmStrCat(e, "\nis attached to multiple targets:"); for (cmGeneratorTarget const* gt : ccRoot.second) { e = cmStrCat(e, "\n ", gt->GetName()); } e = cmStrCat( e, "\nbut none of these is a common dependency of the other(s). " "This is not allowed by the Xcode \"new build system\"."); generator->IssueMessage(MessageType::FATAL_ERROR, e); return false; } } this->CustomCommandRoots.clear(); } // loop over all targets and add link and depend info for (auto t : targets) { this->AddDependAndLinkInformation(t); } if (this->XcodeBuildSystem == BuildSystem::One) { this->CreateXCodeDependHackMakefile(targets); } // now add all targets to the root object cmXCodeObject* allTargets = this->CreateObject(cmXCodeObject::OBJECT_LIST); for (auto t : targets) { allTargets->AddObject(t); cmXCodeObject* productRef = t->GetAttribute("productReference"); if (productRef) { productGroupChildren->AddObject(productRef->GetObject()); } } this->RootObject->AddAttribute("targets", allTargets); return true; } std::string cmGlobalXCodeGenerator::GetObjectsDirectory( const std::string& projName, const std::string& configName, const cmGeneratorTarget* t, const std::string& variant) const { std::string dir = cmStrCat( t->GetLocalGenerator()->GetCurrentBinaryDirectory(), '/', projName, ".build/", configName, '/', t->GetName(), ".build/", variant); return dir; } void cmGlobalXCodeGenerator::ComputeArchitectures(cmMakefile* mf) { this->Architectures.clear(); cmProp sysroot = mf->GetDefinition("CMAKE_OSX_SYSROOT"); if (sysroot) { mf->GetDefExpandList("CMAKE_OSX_ARCHITECTURES", this->Architectures); } if (this->Architectures.empty()) { mf->GetDefExpandList("_CMAKE_APPLE_ARCHS_DEFAULT", this->Architectures); } if (this->Architectures.empty()) { // With no ARCHS we use ONLY_ACTIVE_ARCH and possibly a // platform-specific default ARCHS placeholder value. // Look up the arch that Xcode chooses in this case. if (cmProp arch = mf->GetDefinition("CMAKE_XCODE_ARCHS")) { this->ObjectDirArchDefault = *arch; // We expect only one arch but choose the first just in case. std::string::size_type pos = this->ObjectDirArchDefault.find(';'); if (pos != std::string::npos) { this->ObjectDirArchDefault = this->ObjectDirArchDefault.substr(0, pos); } } } this->ComputeObjectDirArch(mf); } void cmGlobalXCodeGenerator::ComputeObjectDirArch(cmMakefile* mf) { if (this->Architectures.size() > 1 || this->UseEffectivePlatformName(mf)) { this->ObjectDirArch = "$(CURRENT_ARCH)"; } else if (!this->Architectures.empty()) { this->ObjectDirArch = this->Architectures[0]; } else { this->ObjectDirArch = this->ObjectDirArchDefault; } } void cmGlobalXCodeGenerator::CreateXCodeDependHackMakefile( std::vector& targets) { cmGeneratedFileStream makefileStream(this->CurrentXCodeHackMakefile); if (!makefileStream) { cmSystemTools::Error("Could not create " + this->CurrentXCodeHackMakefile); return; } makefileStream.SetCopyIfDifferent(true); // one more pass for external depend information not handled // correctly by xcode /* clang-format off */ makefileStream << "# DO NOT EDIT\n"; makefileStream << "# This makefile makes sure all linkable targets are\n"; makefileStream << "# up-to-date with anything they link to\n" "default:\n" "\techo \"Do not invoke directly\"\n" "\n"; /* clang-format on */ std::set dummyRules; // Write rules to help Xcode relink things at the right time. /* clang-format off */ makefileStream << "# Rules to remove targets that are older than anything to which they\n" "# link. This forces Xcode to relink the targets from scratch. It\n" "# does not seem to check these dependencies itself.\n"; /* clang-format on */ for (const auto& configName : this->CurrentConfigurationTypes) { for (auto target : targets) { cmGeneratorTarget* gt = target->GetTarget(); if (gt->GetType() == cmStateEnums::EXECUTABLE || gt->GetType() == cmStateEnums::OBJECT_LIBRARY || gt->GetType() == cmStateEnums::STATIC_LIBRARY || gt->GetType() == cmStateEnums::SHARED_LIBRARY || gt->GetType() == cmStateEnums::MODULE_LIBRARY) { // Declare an entry point for the target post-build phase. makefileStream << this->PostBuildMakeTarget(gt->GetName(), configName) << ":\n"; } if (gt->GetType() == cmStateEnums::EXECUTABLE || gt->GetType() == cmStateEnums::STATIC_LIBRARY || gt->GetType() == cmStateEnums::SHARED_LIBRARY || gt->GetType() == cmStateEnums::MODULE_LIBRARY) { std::string tfull = gt->GetFullPath(configName); std::string trel = this->ConvertToRelativeForMake(tfull); // Add this target to the post-build phases of its dependencies. auto const y = target->GetDependTargets().find(configName); if (y != target->GetDependTargets().end()) { for (auto const& deptgt : y->second) { makefileStream << this->PostBuildMakeTarget(deptgt, configName) << ": " << trel << "\n"; } } std::vector objlibs; gt->GetObjectLibrariesCMP0026(objlibs); for (auto objLib : objlibs) { makefileStream << this->PostBuildMakeTarget(objLib->GetName(), configName) << ": " << trel << "\n"; } // Create a rule for this target. makefileStream << trel << ":"; // List dependencies if any exist. auto const x = target->GetDependLibraries().find(configName); if (x != target->GetDependLibraries().end()) { for (auto const& deplib : x->second) { std::string file = this->ConvertToRelativeForMake(deplib); makefileStream << "\\\n\t" << file; dummyRules.insert(file); } } for (auto objLib : objlibs) { const std::string objLibName = objLib->GetName(); std::string d = cmStrCat( this->GetObjectsDirectory(this->CurrentProject, configName, objLib, OBJECT_LIBRARY_ARTIFACT_DIR), "lib", objLibName, ".a"); std::string dependency = this->ConvertToRelativeForMake(d); makefileStream << "\\\n\t" << dependency; dummyRules.insert(dependency); } // Write the action to remove the target if it is out of date. makefileStream << "\n"; makefileStream << "\t/bin/rm -f " << this->ConvertToRelativeForMake(tfull) << "\n"; // if building for more than one architecture // then remove those executables as well if (this->Architectures.size() > 1) { std::string universal = this->GetObjectsDirectory( this->CurrentProject, configName, gt, "$(OBJDIR)/"); for (const auto& architecture : this->Architectures) { std::string universalFile = cmStrCat(universal, architecture, '/', gt->GetFullName(configName)); makefileStream << "\t/bin/rm -f " << this->ConvertToRelativeForMake(universalFile) << "\n"; } } makefileStream << "\n\n"; } } } makefileStream << "\n\n" << "# For each target create a dummy rule" << "so the target does not have to exist\n"; for (auto const& dummyRule : dummyRules) { makefileStream << dummyRule << ":\n"; } } void cmGlobalXCodeGenerator::OutputXCodeProject( cmLocalGenerator* root, std::vector& generators) { if (generators.empty()) { return; } if (!this->CreateXCodeObjects(root, generators)) { return; } std::string xcodeDir = cmStrCat(root->GetCurrentBinaryDirectory(), '/', root->GetProjectName(), ".xcodeproj"); cmSystemTools::MakeDirectory(xcodeDir); std::string xcodeProjFile = xcodeDir + "/project.pbxproj"; cmGeneratedFileStream fout(xcodeProjFile); fout.SetCopyIfDifferent(true); if (!fout) { return; } this->WriteXCodePBXProj(fout, root, generators); bool hasGeneratedSchemes = this->OutputXCodeSharedSchemes(xcodeDir, root); this->OutputXCodeWorkspaceSettings(xcodeDir, hasGeneratedSchemes); this->ClearXCodeObjects(); // Since this call may have created new cache entries, save the cache: // root->GetMakefile()->GetCMakeInstance()->SaveCache( root->GetBinaryDirectory()); } bool cmGlobalXCodeGenerator::OutputXCodeSharedSchemes( const std::string& xcProjDir, cmLocalGenerator* root) { // collect all tests for the targets std::map testables; for (const auto& obj : this->XCodeObjects) { if (obj->GetType() != cmXCodeObject::OBJECT || obj->GetIsA() != cmXCodeObject::PBXNativeTarget) { continue; } if (!obj->GetTarget()->IsXCTestOnApple()) { continue; } cmProp testee = obj->GetTarget()->GetProperty("XCTEST_TESTEE"); if (!testee) { continue; } testables[*testee].push_back(obj.get()); } // generate scheme bool ret = false; // Since the lowest available Xcode version for testing was 6.4, // I'm setting this as a limit then if (this->XcodeVersion >= 64) { for (const auto& obj : this->XCodeObjects) { if (obj->GetType() == cmXCodeObject::OBJECT && (obj->GetIsA() == cmXCodeObject::PBXNativeTarget || obj->GetIsA() == cmXCodeObject::PBXAggregateTarget) && (root->GetMakefile()->GetCMakeInstance()->GetIsInTryCompile() || obj->GetTarget()->GetPropertyAsBool("XCODE_GENERATE_SCHEME"))) { const std::string& targetName = obj->GetTarget()->GetName(); cmXCodeScheme schm(root, obj.get(), testables[targetName], this->CurrentConfigurationTypes, this->XcodeVersion); schm.WriteXCodeSharedScheme(xcProjDir, this->RelativeToSource(xcProjDir)); ret = true; } } } return ret; } void cmGlobalXCodeGenerator::OutputXCodeWorkspaceSettings( const std::string& xcProjDir, bool hasGeneratedSchemes) { std::string xcodeSharedDataDir = cmStrCat(xcProjDir, "/project.xcworkspace/xcshareddata"); cmSystemTools::MakeDirectory(xcodeSharedDataDir); std::string workspaceSettingsFile = cmStrCat(xcodeSharedDataDir, "/WorkspaceSettings.xcsettings"); cmGeneratedFileStream fout(workspaceSettingsFile); fout.SetCopyIfDifferent(true); if (!fout) { return; } cmXMLWriter xout(fout); xout.StartDocument(); xout.Doctype("plist PUBLIC \"-//Apple//DTD PLIST 1.0//EN\"" "\"http://www.apple.com/DTDs/PropertyList-1.0.dtd\""); xout.StartElement("plist"); xout.Attribute("version", "1.0"); xout.StartElement("dict"); if (this->XcodeVersion >= 100) { xout.Element("key", "BuildSystemType"); switch (this->XcodeBuildSystem) { case BuildSystem::One: xout.Element("string", "Original"); xout.Element("key", "DisableBuildSystemDeprecationWarning"); xout.Element("true"); break; case BuildSystem::Twelve: xout.Element("string", "Latest"); break; } } if (hasGeneratedSchemes) { xout.Element("key", "IDEWorkspaceSharedSettings_AutocreateContextsIfNeeded"); xout.Element("false"); } xout.EndElement(); // dict xout.EndElement(); // plist xout.EndDocument(); } void cmGlobalXCodeGenerator::WriteXCodePBXProj(std::ostream& fout, cmLocalGenerator*, std::vector&) { SortXCodeObjects(); fout << "// !$*UTF8*$!\n"; fout << "{\n"; cmXCodeObject::Indent(1, fout); fout << "archiveVersion = 1;\n"; cmXCodeObject::Indent(1, fout); fout << "classes = {\n"; cmXCodeObject::Indent(1, fout); fout << "};\n"; cmXCodeObject::Indent(1, fout); fout << "objectVersion = 46;\n"; cmXCode21Object::PrintList(this->XCodeObjects, fout); cmXCodeObject::Indent(1, fout); fout << "rootObject = " << this->RootObject->GetId() << " /* Project object */;\n"; fout << "}\n"; } const char* cmGlobalXCodeGenerator::GetCMakeCFGIntDir() const { return "$(CONFIGURATION)$(EFFECTIVE_PLATFORM_NAME)"; } std::string cmGlobalXCodeGenerator::ExpandCFGIntDir( const std::string& str, const std::string& config) const { std::string replace1 = "$(CONFIGURATION)$(EFFECTIVE_PLATFORM_NAME)"; std::string replace2 = "$(CONFIGURATION)"; std::string tmp = str; for (std::string::size_type i = tmp.find(replace1); i != std::string::npos; i = tmp.find(replace1, i)) { tmp.replace(i, replace1.size(), config); i += config.size(); } for (std::string::size_type i = tmp.find(replace2); i != std::string::npos; i = tmp.find(replace2, i)) { tmp.replace(i, replace2.size(), config); i += config.size(); } return tmp; } void cmGlobalXCodeGenerator::GetDocumentation(cmDocumentationEntry& entry) { entry.Name = cmGlobalXCodeGenerator::GetActualName(); entry.Brief = "Generate Xcode project files."; } std::string cmGlobalXCodeGenerator::ConvertToRelativeForMake( std::string const& p) { return cmSystemTools::ConvertToOutputPath(p); } std::string cmGlobalXCodeGenerator::RelativeToSource(const std::string& p) { // We force conversion because Xcode breakpoints do not work unless // they are in a file named relative to the source tree. return cmSystemTools::ForceToRelativePath( cmSystemTools::JoinPath(this->ProjectSourceDirectoryComponents), p); } std::string cmGlobalXCodeGenerator::RelativeToBinary(const std::string& p) { return this->CurrentLocalGenerator->MaybeConvertToRelativePath( cmSystemTools::JoinPath(this->ProjectOutputDirectoryComponents), p); } std::string cmGlobalXCodeGenerator::XCodeEscapePath(const std::string& p) { if (p.find_first_of(" []") != std::string::npos) { std::string t = cmStrCat('"', p, '"'); return t; } return p; } void cmGlobalXCodeGenerator::AppendDirectoryForConfig( const std::string& prefix, const std::string& config, const std::string& suffix, std::string& dir) { if (!config.empty()) { dir += prefix; dir += config; dir += suffix; } } std::string cmGlobalXCodeGenerator::LookupFlags( const std::string& varNamePrefix, const std::string& varNameLang, const std::string& varNameSuffix, const std::string& default_flags) { if (!varNameLang.empty()) { std::string varName = cmStrCat(varNamePrefix, varNameLang, varNameSuffix); if (cmProp varValue = this->CurrentMakefile->GetDefinition(varName)) { if (!varValue->empty()) { return *varValue; } } } return default_flags; } void cmGlobalXCodeGenerator::AppendDefines(BuildObjectListOrString& defs, const char* defines_list, bool dflag) { // Skip this if there are no definitions. if (!defines_list) { return; } // Expand the list of definitions. std::vector defines = cmExpandedList(defines_list); // Store the definitions in the string. this->AppendDefines(defs, defines, dflag); } void cmGlobalXCodeGenerator::AppendDefines( BuildObjectListOrString& defs, std::vector const& defines, bool dflag) { // GCC_PREPROCESSOR_DEFINITIONS is a space-separated list of definitions. std::string def; for (auto const& define : defines) { // Start with -D if requested. def = cmStrCat(dflag ? "-D" : "", define); // Append the flag with needed escapes. std::string tmp; this->AppendFlag(tmp, def); defs.Add(tmp); } } void cmGlobalXCodeGenerator::AppendFlag(std::string& flags, std::string const& flag) const { // Short-circuit for an empty flag. if (flag.empty()) { return; } // Separate from previous flags. if (!flags.empty()) { flags += " "; } // Check if the flag needs quoting. bool quoteFlag = flag.find_first_of("`~!@#$%^&*()+={}[]|:;\"'<>,.? ") != std::string::npos; // We escape a flag as follows: // - Place each flag in single quotes '' // - Escape a single quote as \' // - Escape a backslash as \\ since it itself is an escape // Note that in the code below we need one more level of escapes for // C string syntax in this source file. // // The final level of escaping is done when the string is stored // into the project file by cmXCodeObject::PrintString. if (quoteFlag) { // Open single quote. flags += "'"; } // Flag value with escaped quotes and backslashes. for (auto c : flag) { if (c == '\'') { flags += "'\\''"; } else if (c == '\\') { flags += "\\\\"; } else { flags += c; } } if (quoteFlag) { // Close single quote. flags += "'"; } } std::string cmGlobalXCodeGenerator::ComputeInfoPListLocation( cmGeneratorTarget* target) { std::string plist = cmStrCat(target->GetLocalGenerator()->GetCurrentBinaryDirectory(), "/CMakeFiles/", target->GetName(), ".dir/Info.plist"); return plist; } // Return true if the generated build tree may contain multiple builds. // i.e. "Can I build Debug and Release in the same tree?" bool cmGlobalXCodeGenerator::IsMultiConfig() const { // Newer Xcode versions are multi config: return true; } bool cmGlobalXCodeGenerator::HasKnownObjectFileLocation( std::string* reason) const { if (this->ObjectDirArch.find('$') != std::string::npos) { if (reason != nullptr) { *reason = " under Xcode with multiple architectures"; } return false; } return true; } bool cmGlobalXCodeGenerator::UseEffectivePlatformName(cmMakefile* mf) const { cmProp epnValue = this->GetCMakeInstance()->GetState()->GetGlobalProperty( "XCODE_EMIT_EFFECTIVE_PLATFORM_NAME"); if (!epnValue) { return mf->PlatformIsAppleEmbedded(); } return cmIsOn(*epnValue); } bool cmGlobalXCodeGenerator::ShouldStripResourcePath(cmMakefile*) const { // Xcode determines Resource location itself return true; } void cmGlobalXCodeGenerator::ComputeTargetObjectDirectory( cmGeneratorTarget* gt) const { std::string configName = this->GetCMakeCFGIntDir(); std::string dir = cmStrCat(this->GetObjectsDirectory("$(PROJECT_NAME)", configName, gt, "$(OBJECT_FILE_DIR_normal:base)/"), this->ObjectDirArch, '/'); gt->ObjectDirectory = dir; } std::string cmGlobalXCodeGenerator::GetDeploymentPlatform(const cmMakefile* mf) { switch (mf->GetAppleSDKType()) { case cmMakefile::AppleSDK::AppleTVOS: case cmMakefile::AppleSDK::AppleTVSimulator: return "TVOS_DEPLOYMENT_TARGET"; case cmMakefile::AppleSDK::IPhoneOS: case cmMakefile::AppleSDK::IPhoneSimulator: return "IPHONEOS_DEPLOYMENT_TARGET"; case cmMakefile::AppleSDK::WatchOS: case cmMakefile::AppleSDK::WatchSimulator: return "WATCHOS_DEPLOYMENT_TARGET"; case cmMakefile::AppleSDK::MacOS: default: return "MACOSX_DEPLOYMENT_TARGET"; } }