/* ============================================================================== This file is part of the JUCE library. Copyright (c) 2022 - Raw Material Software Limited JUCE is an open source library subject to commercial or open-source licensing. By using JUCE, you agree to the terms of both the JUCE 7 End-User License Agreement and JUCE Privacy Policy. End User License Agreement: www.juce.com/juce-7-licence Privacy Policy: www.juce.com/juce-privacy-policy Or: You may also use this code under the terms of the GPL v3 (see www.gnu.org/licenses). JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE DISCLAIMED. ============================================================================== */ #pragma once //============================================================================== class MakefileProjectExporter : public ProjectExporter { protected: //============================================================================== class MakeBuildConfiguration : public BuildConfiguration { public: MakeBuildConfiguration (Project& p, const ValueTree& settings, const ProjectExporter& e) : BuildConfiguration (p, settings, e), architectureTypeValue (config, Ids::linuxArchitecture, getUndoManager(), String()), pluginBinaryCopyStepValue (config, Ids::enablePluginBinaryCopyStep, getUndoManager(), true), vstBinaryLocation (config, Ids::vstBinaryLocation, getUndoManager(), "$(HOME)/.vst"), vst3BinaryLocation (config, Ids::vst3BinaryLocation, getUndoManager(), "$(HOME)/.vst3"), lv2BinaryLocation (config, Ids::lv2BinaryLocation, getUndoManager(), "$(HOME)/.lv2"), unityPluginBinaryLocation (config, Ids::unityPluginBinaryLocation, getUndoManager(), "$(HOME)/UnityPlugins") { linkTimeOptimisationValue.setDefault (false); optimisationLevelValue.setDefault (isDebug() ? gccO0 : gccO3); } void createConfigProperties (PropertyListBuilder& props) override { addRecommendedLinuxCompilerWarningsProperty (props); addGCCOptimisationProperty (props); props.add (new ChoicePropertyComponent (architectureTypeValue, "Architecture", { "", "Native", "32-bit (-m32)", "64-bit (-m64)", "ARM v6", "ARM v7", "ARM v8-a" }, { { String() }, "-march=native", "-m32", "-m64", "-march=armv6", "-march=armv7", "-march=armv8-a" }), "Specifies the 32/64-bit architecture to use. If you don't see the required architecture in this list, you can also specify the desired " "flag on the command-line when invoking make by passing \"TARGET_ARCH=-march=\""); auto isBuildingAnyPlugins = (project.shouldBuildVST() || project.shouldBuildVST3() || project.shouldBuildUnityPlugin() || project.shouldBuildLV2()); if (isBuildingAnyPlugins) { props.add (new ChoicePropertyComponent (pluginBinaryCopyStepValue, "Enable Plugin Copy Step"), "Enable this to copy plugin binaries to a specified folder after building."); if (project.shouldBuildVST3()) props.add (new TextPropertyComponentWithEnablement (vst3BinaryLocation, pluginBinaryCopyStepValue, "VST3 Binary Location", 1024, false), "The folder in which the compiled VST3 binary should be placed."); if (project.shouldBuildLV2()) props.add (new TextPropertyComponentWithEnablement (lv2BinaryLocation, pluginBinaryCopyStepValue, "LV2 Binary Location", 1024, false), "The folder in which the compiled LV2 binary should be placed."); if (project.shouldBuildUnityPlugin()) props.add (new TextPropertyComponentWithEnablement (unityPluginBinaryLocation, pluginBinaryCopyStepValue, "Unity Binary Location", 1024, false), "The folder in which the compiled Unity plugin binary and associated C# GUI script should be placed."); if (project.shouldBuildVST()) props.add (new TextPropertyComponentWithEnablement (vstBinaryLocation, pluginBinaryCopyStepValue, "VST (Legacy) Binary Location", 1024, false), "The folder in which the compiled legacy VST binary should be placed."); } } String getModuleLibraryArchName() const override { auto archFlag = getArchitectureTypeString(); String prefix ("-march="); if (archFlag.startsWith (prefix)) return archFlag.substring (prefix.length()); if (archFlag == "-m64") return "x86_64"; if (archFlag == "-m32") return "i386"; return "${JUCE_ARCH_LABEL}"; } String getArchitectureTypeString() const { return architectureTypeValue.get(); } bool isPluginBinaryCopyStepEnabled() const { return pluginBinaryCopyStepValue.get(); } String getVSTBinaryLocationString() const { return vstBinaryLocation.get(); } String getVST3BinaryLocationString() const { return vst3BinaryLocation.get(); } String getLV2BinaryLocationString() const { return lv2BinaryLocation.get(); } String getUnityPluginBinaryLocationString() const { return unityPluginBinaryLocation.get(); } private: //============================================================================== ValueTreePropertyWithDefault architectureTypeValue, pluginBinaryCopyStepValue, vstBinaryLocation, vst3BinaryLocation, lv2BinaryLocation, unityPluginBinaryLocation; }; BuildConfiguration::Ptr createBuildConfig (const ValueTree& tree) const override { return *new MakeBuildConfiguration (project, tree, *this); } public: //============================================================================== class MakefileTarget : public build_tools::ProjectType::Target { public: MakefileTarget (build_tools::ProjectType::Target::Type targetType, const MakefileProjectExporter& exporter) : build_tools::ProjectType::Target (targetType), owner (exporter) {} StringArray getCompilerFlags() const { StringArray result; if (getTargetFileType() == sharedLibraryOrDLL || getTargetFileType() == pluginBundle) { result.add ("-fPIC"); result.add ("-fvisibility=hidden"); } return result; } StringArray getLinkerFlags() const { StringArray result; if (getTargetFileType() == sharedLibraryOrDLL || getTargetFileType() == pluginBundle) { result.add ("-shared"); if (getTargetFileType() == pluginBundle) result.add ("-Wl,--no-undefined"); } return result; } StringPairArray getDefines (const BuildConfiguration& config) const { StringPairArray result; auto commonOptionKeys = owner.getAllPreprocessorDefs (config, build_tools::ProjectType::Target::unspecified).getAllKeys(); auto targetSpecific = owner.getAllPreprocessorDefs (config, type); for (auto& key : targetSpecific.getAllKeys()) if (! commonOptionKeys.contains (key)) result.set (key, targetSpecific[key]); return result; } StringArray getTargetSettings (const MakeBuildConfiguration& config) const { if (type == AggregateTarget) // the aggregate target should not specify any settings at all! return {}; // it just defines dependencies on the other targets. StringArray s; auto cppflagsVarName = "JUCE_CPPFLAGS_" + getTargetVarName(); s.add (cppflagsVarName + " := " + createGCCPreprocessorFlags (getDefines (config))); auto cflags = getCompilerFlags(); if (! cflags.isEmpty()) s.add ("JUCE_CFLAGS_" + getTargetVarName() + " := " + cflags.joinIntoString (" ")); auto ldflags = getLinkerFlags(); if (! ldflags.isEmpty()) s.add ("JUCE_LDFLAGS_" + getTargetVarName() + " := " + ldflags.joinIntoString (" ")); auto targetName = owner.replacePreprocessorTokens (config, config.getTargetBinaryNameString (type == UnityPlugIn)); if (owner.projectType.isStaticLibrary()) targetName = getStaticLibbedFilename (targetName); else if (owner.projectType.isDynamicLibrary()) targetName = getDynamicLibbedFilename (targetName); else targetName = targetName.upToLastOccurrenceOf (".", false, false) + getTargetFileSuffix(); if (type == VST3PlugIn) { s.add ("JUCE_VST3DIR := " + escapeQuotesAndSpaces (targetName).upToLastOccurrenceOf (".", false, false) + ".vst3"); s.add ("VST3_PLATFORM_ARCH := $(shell $(CXX) make_helpers/arch_detection.cpp 2>&1 | tr '\\n' ' ' | sed \"s/.*JUCE_ARCH \$[a-zA-Z0-9_-]*\$.*/\\1/\")"); s.add ("JUCE_VST3SUBDIR := Contents/$(VST3_PLATFORM_ARCH)-linux"); targetName = "$(JUCE_VST3DIR)/$(JUCE_VST3SUBDIR)/" + targetName; } else if (type == UnityPlugIn) { s.add ("JUCE_UNITYDIR := Unity"); targetName = "$(JUCE_UNITYDIR)/" + targetName; } else if (type == LV2PlugIn) { s.add ("JUCE_LV2DIR := " + targetName + ".lv2"); targetName = "$(JUCE_LV2DIR)/" + targetName + ".so"; } else if (type == LV2TurtleProgram) { targetName = Project::getLV2FileWriterName(); } s.add ("JUCE_TARGET_" + getTargetVarName() + String (" := ") + escapeQuotesAndSpaces (targetName)); if (config.isPluginBinaryCopyStepEnabled() && (type == VST3PlugIn || type == VSTPlugIn || type == UnityPlugIn || type == LV2PlugIn)) { String copyCmd ("JUCE_COPYCMD_" + getTargetVarName() + String (" := $(JUCE_OUTDIR)/")); if (type == VST3PlugIn) { s.add ("JUCE_VST3DESTDIR := " + config.getVST3BinaryLocationString()); s.add (copyCmd + "$(JUCE_VST3DIR) $(JUCE_VST3DESTDIR)"); } else if (type == VSTPlugIn) { s.add ("JUCE_VSTDESTDIR := " + config.getVSTBinaryLocationString()); s.add (copyCmd + escapeQuotesAndSpaces (targetName) + " $(JUCE_VSTDESTDIR)"); } else if (type == UnityPlugIn) { s.add ("JUCE_UNITYDESTDIR := " + config.getUnityPluginBinaryLocationString()); s.add (copyCmd + "$(JUCE_UNITYDIR)/. $(JUCE_UNITYDESTDIR)"); } else if (type == LV2PlugIn) { s.add ("JUCE_LV2DESTDIR := " + config.getLV2BinaryLocationString()); s.add ("JUCE_LV2_FULL_PATH := $(JUCE_OUTDIR)/$(JUCE_TARGET_LV2_PLUGIN)"); s.add (copyCmd + "$(JUCE_LV2DIR) $(JUCE_LV2DESTDIR)"); } } return s; } String getTargetFileSuffix() const { if (type == VSTPlugIn || type == VST3PlugIn || type == UnityPlugIn || type == DynamicLibrary) return ".so"; if (type == SharedCodeTarget || type == StaticLibrary) return ".a"; return {}; } String getTargetVarName() const { return String (getName()).toUpperCase().replaceCharacter (L' ', L'_'); } void writeObjects (OutputStream& out, const Array>& filesToCompile) const { out << "OBJECTS_" + getTargetVarName() + String (" := \\") << newLine; for (auto& f : filesToCompile) out << " $(JUCE_OBJDIR)/" << escapeQuotesAndSpaces (owner.getObjectFileFor ({ f.first, owner.getTargetFolder(), build_tools::RelativePath::buildTargetFolder })) << " \\" << newLine; out << newLine; } void addFiles (OutputStream& out, const Array>& filesToCompile) { auto cppflagsVarName = "JUCE_CPPFLAGS_" + getTargetVarName(); auto cflagsVarName = "JUCE_CFLAGS_" + getTargetVarName(); for (auto& f : filesToCompile) { build_tools::RelativePath relativePath (f.first, owner.getTargetFolder(), build_tools::RelativePath::buildTargetFolder); out << "$(JUCE_OBJDIR)/" << escapeQuotesAndSpaces (owner.getObjectFileFor (relativePath)) << ": " << escapeQuotesAndSpaces (relativePath.toUnixStyle()) << newLine << "\t-$(V_AT)mkdir -p $(JUCE_OBJDIR)" << newLine << "\t@echo \"Compiling " << relativePath.getFileName() << "\"" << newLine << (relativePath.hasFileExtension ("c;s;S") ? "\t$(V_AT)$(CC) $(JUCE_CFLAGS) " : "\t$(V_AT)$(CXX) $(JUCE_CXXFLAGS) ") << "$(" << cppflagsVarName << ") $(" << cflagsVarName << ")" << (f.second.isNotEmpty() ? " $(" + owner.getCompilerFlagSchemeVariableName (f.second) + ")" : "") << " -o \"$@\" -c \"$<\"" << newLine << newLine; } } String getBuildProduct() const { return "$(JUCE_OUTDIR)/$(JUCE_TARGET_" + getTargetVarName() + ")"; } String getPhonyName() const { if (type == LV2TurtleProgram) return "LV2_MANIFEST_HELPER"; return String (getName()).upToFirstOccurrenceOf (" ", false, false); } void writeTargetLine (OutputStream& out, const StringArray& packages) { jassert (type != AggregateTarget); out << getBuildProduct() << " : " << "$(OBJECTS_" << getTargetVarName() << ") $(RESOURCES)"; if (type != SharedCodeTarget && owner.shouldBuildTargetType (SharedCodeTarget)) out << " $(JUCE_OUTDIR)/$(JUCE_TARGET_SHARED_CODE)"; if (type == LV2PlugIn) out << " $(JUCE_OUTDIR)/$(JUCE_TARGET_LV2_MANIFEST_HELPER)"; out << newLine; if (! packages.isEmpty()) { out << "\t@command -v $(PKG_CONFIG) >/dev/null 2>&1 || { echo >&2 \"pkg-config not installed. Please, install it.\"; exit 1; }" << newLine << "\t@$(PKG_CONFIG) --print-errors"; for (auto& pkg : packages) out << " " << pkg; out << newLine; } out << "\t@echo Linking \"" << owner.projectName << " - " << getName() << "\"" << newLine << "\t-$(V_AT)mkdir -p $(JUCE_BINDIR)" << newLine << "\t-$(V_AT)mkdir -p $(JUCE_LIBDIR)" << newLine << "\t-$(V_AT)mkdir -p $(JUCE_OUTDIR)" << newLine; if (type == VST3PlugIn) out << "\t-$(V_AT)mkdir -p $(JUCE_OUTDIR)/$(JUCE_VST3DIR)/$(JUCE_VST3SUBDIR)" << newLine; else if (type == UnityPlugIn) out << "\t-$(V_AT)mkdir -p $(JUCE_OUTDIR)/$(JUCE_UNITYDIR)" << newLine; else if (type == LV2PlugIn) out << "\t-$(V_AT)mkdir -p $(JUCE_OUTDIR)/$(JUCE_LV2DIR)" << newLine; if (owner.projectType.isStaticLibrary() || type == SharedCodeTarget) { out << "\t$(V_AT)$(AR) -rcs " << getBuildProduct() << " $(OBJECTS_" << getTargetVarName() << ")" << newLine; } else { out << "\t$(V_AT)$(CXX) -o " << getBuildProduct() << " $(OBJECTS_" << getTargetVarName() << ") "; if (owner.shouldBuildTargetType (SharedCodeTarget)) out << "$(JUCE_OUTDIR)/$(JUCE_TARGET_SHARED_CODE) "; out << "$(JUCE_LDFLAGS) "; if (getTargetFileType() == sharedLibraryOrDLL || getTargetFileType() == pluginBundle || type == GUIApp || type == StandalonePlugIn) out << "$(JUCE_LDFLAGS_" << getTargetVarName() << ") "; out << "$(RESOURCES) $(TARGET_ARCH)" << newLine; } if (type == VST3PlugIn) { out << "\t-$(V_AT)mkdir -p $(JUCE_VST3DESTDIR)" << newLine << "\t-$(V_AT)cp -R $(JUCE_COPYCMD_VST3)" << newLine; } else if (type == VSTPlugIn) { out << "\t-$(V_AT)mkdir -p $(JUCE_VSTDESTDIR)" << newLine << "\t-$(V_AT)cp -R $(JUCE_COPYCMD_VST)" << newLine; } else if (type == UnityPlugIn) { auto scriptName = owner.getProject().getUnityScriptName(); build_tools::RelativePath scriptPath (owner.getProject().getGeneratedCodeFolder().getChildFile (scriptName), owner.getTargetFolder(), build_tools::RelativePath::projectFolder); out << "\t-$(V_AT)cp " + scriptPath.toUnixStyle() + " $(JUCE_OUTDIR)/$(JUCE_UNITYDIR)" << newLine << "\t-$(V_AT)mkdir -p $(JUCE_UNITYDESTDIR)" << newLine << "\t-$(V_AT)cp -R $(JUCE_COPYCMD_UNITY_PLUGIN)" << newLine; } else if (type == LV2PlugIn) { out << "\t$(V_AT) $(JUCE_OUTDIR)/$(JUCE_TARGET_LV2_MANIFEST_HELPER) " "$(abspath $(JUCE_LV2_FULL_PATH))" << newLine << "\t-$(V_AT)mkdir -p $(JUCE_LV2DESTDIR)" << newLine << "\t-$(V_AT)cp -R $(JUCE_COPYCMD_LV2_PLUGIN)" << newLine; } out << newLine; } const MakefileProjectExporter& owner; }; //============================================================================== static String getDisplayName() { return "Linux Makefile"; } static String getValueTreeTypeName() { return "LINUX_MAKE"; } static String getTargetFolderName() { return "LinuxMakefile"; } Identifier getExporterIdentifier() const override { return getValueTreeTypeName(); } static MakefileProjectExporter* createForSettings (Project& projectToUse, const ValueTree& settingsToUse) { if (settingsToUse.hasType (getValueTreeTypeName())) return new MakefileProjectExporter (projectToUse, settingsToUse); return nullptr; } //============================================================================== MakefileProjectExporter (Project& p, const ValueTree& t) : ProjectExporter (p, t), extraPkgConfigValue (settings, Ids::linuxExtraPkgConfig, getUndoManager()) { name = getDisplayName(); targetLocationValue.setDefault (getDefaultBuildsRootFolder() + getTargetFolderName()); } //============================================================================== bool canLaunchProject() override { return false; } bool launchProject() override { return false; } bool usesMMFiles() const override { return false; } bool canCopeWithDuplicateFiles() override { return false; } bool supportsUserDefinedConfigurations() const override { return true; } bool isXcode() const override { return false; } bool isVisualStudio() const override { return false; } bool isCodeBlocks() const override { return false; } bool isMakefile() const override { return true; } bool isAndroidStudio() const override { return false; } bool isCLion() const override { return false; } bool isAndroid() const override { return false; } bool isWindows() const override { return false; } bool isLinux() const override { return true; } bool isOSX() const override { return false; } bool isiOS() const override { return false; } String getNewLineString() const override { return "\n"; } bool supportsTargetType (build_tools::ProjectType::Target::Type type) const override { using Target = build_tools::ProjectType::Target; switch (type) { case Target::GUIApp: case Target::ConsoleApp: case Target::StaticLibrary: case Target::SharedCodeTarget: case Target::AggregateTarget: case Target::VSTPlugIn: case Target::VST3PlugIn: case Target::StandalonePlugIn: case Target::DynamicLibrary: case Target::UnityPlugIn: case Target::LV2PlugIn: case Target::LV2TurtleProgram: return true; case Target::AAXPlugIn: case Target::AudioUnitPlugIn: case Target::AudioUnitv3PlugIn: case Target::unspecified: default: break; } return false; } void createExporterProperties (PropertyListBuilder& properties) override { properties.add (new TextPropertyComponent (extraPkgConfigValue, "pkg-config libraries", 8192, false), "Extra pkg-config libraries for you application. Each package should be space separated."); } void initialiseDependencyPathValues() override { vstLegacyPathValueWrapper.init ({ settings, Ids::vstLegacyFolder, nullptr }, getAppSettings().getStoredPath (Ids::vstLegacyPath, TargetOS::linux), TargetOS::linux); } //============================================================================== bool anyTargetIsSharedLibrary() const { for (auto* target : targets) { auto fileType = target->getTargetFileType(); if (fileType == build_tools::ProjectType::Target::sharedLibraryOrDLL || fileType == build_tools::ProjectType::Target::pluginBundle) return true; } return false; } //============================================================================== void create (const OwnedArray&) const override { build_tools::writeStreamToFile (getTargetFolder().getChildFile ("Makefile"), [&] (MemoryOutputStream& mo) { mo.setNewLineString (getNewLineString()); writeMakefile (mo); }); if (project.shouldBuildVST3()) { auto helperDir = getTargetFolder().getChildFile ("make_helpers"); helperDir.createDirectory(); build_tools::overwriteFileIfDifferentOrThrow (helperDir.getChildFile ("arch_detection.cpp"), BinaryData::juce_runtime_arch_detection_cpp); } } //============================================================================== void addPlatformSpecificSettingsForProjectType (const build_tools::ProjectType&) override { callForAllSupportedTargets ([this] (build_tools::ProjectType::Target::Type targetType) { targets.insert (targetType == build_tools::ProjectType::Target::AggregateTarget ? 0 : -1, new MakefileTarget (targetType, *this)); }); // If you hit this assert, you tried to generate a project for an exporter // that does not support any of your targets! jassert (targets.size() > 0); } private: ValueTreePropertyWithDefault extraPkgConfigValue; //============================================================================== StringPairArray getDefines (const BuildConfiguration& config) const { StringPairArray result; result.set ("LINUX", "1"); if (config.isDebug()) { result.set ("DEBUG", "1"); result.set ("_DEBUG", "1"); } else { result.set ("NDEBUG", "1"); } result = mergePreprocessorDefs (result, getAllPreprocessorDefs (config, build_tools::ProjectType::Target::unspecified)); return result; } StringArray getExtraPkgConfigPackages() const { auto packages = StringArray::fromTokens (extraPkgConfigValue.get().toString(), " ", "\"'"); packages.removeEmptyStrings(); return packages; } StringArray getCompilePackages() const { auto packages = getLinuxPackages (PackageDependencyType::compile); packages.addArray (getExtraPkgConfigPackages()); return packages; } StringArray getLinkPackages() const { auto packages = getLinuxPackages (PackageDependencyType::link); packages.addArray (getExtraPkgConfigPackages()); return packages; } String getPreprocessorPkgConfigFlags() const { auto compilePackages = getCompilePackages(); if (compilePackages.size() > 0) return "$(shell $(PKG_CONFIG) --cflags " + compilePackages.joinIntoString (" ") + ")"; return {}; } String getLinkerPkgConfigFlags() const { auto linkPackages = getLinkPackages(); if (linkPackages.size() > 0) return "$(shell $(PKG_CONFIG) --libs " + linkPackages.joinIntoString (" ") + ")"; return {}; } StringArray getCPreprocessorFlags (const BuildConfiguration&) const { StringArray result; if (linuxLibs.contains ("pthread")) result.add ("-pthread"); return result; } StringArray getCFlags (const BuildConfiguration& config) const { StringArray result; if (anyTargetIsSharedLibrary()) result.add ("-fPIC"); if (config.isDebug()) { result.add ("-g"); result.add ("-ggdb"); } result.add ("-O" + config.getGCCOptimisationFlag()); if (config.isLinkTimeOptimisationEnabled()) result.add ("-flto"); for (auto& recommended : config.getRecommendedCompilerWarningFlags().common) result.add (recommended); auto extra = replacePreprocessorTokens (config, getExtraCompilerFlagsString()).trim(); if (extra.isNotEmpty()) result.add (extra); return result; } StringArray getCXXFlags (const BuildConfiguration& config) const { StringArray result; for (auto& recommended : config.getRecommendedCompilerWarningFlags().cpp) result.add (recommended); auto cppStandard = project.getCppStandardString(); if (cppStandard == "latest") cppStandard = project.getLatestNumberedCppStandardString(); result.add ("-std=" + String (shouldUseGNUExtensions() ? "gnu++" : "c++") + cppStandard); return result; } StringArray getHeaderSearchPaths (const BuildConfiguration& config) const { StringArray searchPaths (extraSearchPaths); searchPaths.addArray (config.getHeaderSearchPaths()); searchPaths = getCleanedStringArray (searchPaths); StringArray result; for (auto& path : searchPaths) result.add (build_tools::unixStylePath (replacePreprocessorTokens (config, path))); return result; } StringArray getLibraryNames (const BuildConfiguration& config) const { StringArray result (linuxLibs); auto libraries = StringArray::fromTokens (getExternalLibrariesString(), ";", "\"'"); libraries.removeEmptyStrings(); for (auto& lib : libraries) result.add (replacePreprocessorTokens (config, lib).trim()); return result; } StringArray getLibrarySearchPaths (const BuildConfiguration& config) const { auto result = getSearchPathsFromString (config.getLibrarySearchPathString()); for (auto path : moduleLibSearchPaths) result.add (path + "/" + config.getModuleLibraryArchName()); return result; } StringArray getLinkerFlags (const BuildConfiguration& config) const { auto result = makefileExtraLinkerFlags; result.add ("-fvisibility=hidden"); if (config.isLinkTimeOptimisationEnabled()) result.add ("-flto"); auto extraFlags = getExtraLinkerFlagsString().trim(); if (extraFlags.isNotEmpty()) result.add (replacePreprocessorTokens (config, extraFlags)); return result; } //============================================================================== void writeDefineFlags (OutputStream& out, const MakeBuildConfiguration& config) const { out << createGCCPreprocessorFlags (mergePreprocessorDefs (getDefines (config), getAllPreprocessorDefs (config, build_tools::ProjectType::Target::unspecified))); } void writePkgConfigFlags (OutputStream& out) const { auto flags = getPreprocessorPkgConfigFlags(); if (flags.isNotEmpty()) out << " " << flags; } void writeCPreprocessorFlags (OutputStream& out, const BuildConfiguration& config) const { auto flags = getCPreprocessorFlags (config); if (! flags.isEmpty()) out << " " << flags.joinIntoString (" "); } void writeHeaderPathFlags (OutputStream& out, const BuildConfiguration& config) const { for (auto& path : getHeaderSearchPaths (config)) out << " -I" << escapeQuotesAndSpaces (path).replace ("~", "$(HOME)"); } void writeCppFlags (OutputStream& out, const MakeBuildConfiguration& config) const { out << " JUCE_CPPFLAGS := $(DEPFLAGS)"; writeDefineFlags (out, config); writePkgConfigFlags (out); writeCPreprocessorFlags (out, config); writeHeaderPathFlags (out, config); out << " $(CPPFLAGS)" << newLine; } void writeLinkerFlags (OutputStream& out, const BuildConfiguration& config) const { out << " JUCE_LDFLAGS += $(TARGET_ARCH) -L$(JUCE_BINDIR) -L$(JUCE_LIBDIR)"; for (auto path : getLibrarySearchPaths (config)) out << " -L" << escapeQuotesAndSpaces (path).replace ("~", "$(HOME)"); auto pkgConfigFlags = getLinkerPkgConfigFlags(); if (pkgConfigFlags.isNotEmpty()) out << " " << getLinkerPkgConfigFlags(); auto linkerFlags = getLinkerFlags (config).joinIntoString (" "); if (linkerFlags.isNotEmpty()) out << " " << linkerFlags; for (auto& libName : getLibraryNames (config)) out << " -l" << libName; out << " $(LDFLAGS)" << newLine; } void writeTargetLines (OutputStream& out, const StringArray& packages) const { auto n = targets.size(); for (int i = 0; i < n; ++i) { if (auto* target = targets.getUnchecked (i)) { if (target->type == build_tools::ProjectType::Target::AggregateTarget) { StringArray dependencies; MemoryOutputStream subTargetLines; for (int j = 0; j < n; ++j) { if (i == j) continue; if (auto* dependency = targets.getUnchecked (j)) { if (dependency->type != build_tools::ProjectType::Target::SharedCodeTarget) { auto phonyName = dependency->getPhonyName(); subTargetLines << phonyName << " : " << dependency->getBuildProduct() << newLine; dependencies.add (phonyName); } } } out << "all : " << dependencies.joinIntoString (" ") << newLine << newLine; out << subTargetLines.toString() << newLine << newLine; } else { if (! getProject().isAudioPluginProject()) out << "all : " << target->getBuildProduct() << newLine << newLine; target->writeTargetLine (out, packages); } } } } void writeConfig (OutputStream& out, const MakeBuildConfiguration& config) const { String buildDirName ("build"); auto intermediatesDirName = buildDirName + "/intermediate/" + config.getName(); auto outputDir = buildDirName; if (config.getTargetBinaryRelativePathString().isNotEmpty()) { build_tools::RelativePath binaryPath (config.getTargetBinaryRelativePathString(), build_tools::RelativePath::projectFolder); outputDir = binaryPath.rebased (projectFolder, getTargetFolder(), build_tools::RelativePath::buildTargetFolder).toUnixStyle(); } out << "ifeq ($(CONFIG)," << escapeQuotesAndSpaces (config.getName()) << ")" << newLine << " JUCE_BINDIR := " << escapeQuotesAndSpaces (buildDirName) << newLine << " JUCE_LIBDIR := " << escapeQuotesAndSpaces (buildDirName) << newLine << " JUCE_OBJDIR := " << escapeQuotesAndSpaces (intermediatesDirName) << newLine << " JUCE_OUTDIR := " << escapeQuotesAndSpaces (outputDir) << newLine << newLine << " ifeq ($(TARGET_ARCH),)" << newLine << " TARGET_ARCH := " << getArchFlags (config) << newLine << " endif" << newLine << newLine; writeCppFlags (out, config); for (auto target : targets) { auto lines = target->getTargetSettings (config); if (lines.size() > 0) out << " " << lines.joinIntoString ("\n ") << newLine; out << newLine; } out << " JUCE_CFLAGS += $(JUCE_CPPFLAGS) $(TARGET_ARCH)"; auto cflags = getCFlags (config).joinIntoString (" "); if (cflags.isNotEmpty()) out << " " << cflags; out << " $(CFLAGS)" << newLine; out << " JUCE_CXXFLAGS += $(JUCE_CFLAGS)"; auto cxxflags = getCXXFlags (config).joinIntoString (" "); if (cxxflags.isNotEmpty()) out << " " << cxxflags; out << " $(CXXFLAGS)" << newLine; writeLinkerFlags (out, config); out << newLine; out << " CLEANCMD = rm -rf $(JUCE_OUTDIR)/$(TARGET) $(JUCE_OBJDIR)" << newLine << "endif" << newLine << newLine; } void writeIncludeLines (OutputStream& out) const { auto n = targets.size(); for (int i = 0; i < n; ++i) { if (auto* target = targets.getUnchecked (i)) { if (target->type == build_tools::ProjectType::Target::AggregateTarget) continue; out << "-include $(OBJECTS_" << target->getTargetVarName() << ":%.o=%.d)" << newLine; } } } static String getCompilerFlagSchemeVariableName (const String& schemeName) { return "JUCE_COMPILERFLAGSCHEME_" + schemeName; } void findAllFilesToCompile (const Project::Item& projectItem, Array>& results) const { if (projectItem.isGroup()) { for (int i = 0; i < projectItem.getNumChildren(); ++i) findAllFilesToCompile (projectItem.getChild (i), results); } else { if (projectItem.shouldBeCompiled()) { auto f = projectItem.getFile(); if (shouldFileBeCompiledByDefault (f)) { auto scheme = projectItem.getCompilerFlagSchemeString(); auto flags = compilerFlagSchemesMap[scheme].get().toString(); if (scheme.isNotEmpty() && flags.isNotEmpty()) results.add ({ f, scheme }); else results.add ({ f, {} }); } } } } void writeCompilerFlagSchemes (OutputStream& out, const Array>& filesToCompile) const { StringArray schemesToWrite; for (auto& f : filesToCompile) if (f.second.isNotEmpty()) schemesToWrite.addIfNotAlreadyThere (f.second); if (! schemesToWrite.isEmpty()) { for (auto& s : schemesToWrite) out << getCompilerFlagSchemeVariableName (s) << " := " << compilerFlagSchemesMap[s].get().toString() << newLine; out << newLine; } } void writeMakefile (OutputStream& out) const { out << "# Automatically generated makefile, created by the Projucer" << newLine << "# Don't edit this file! Your changes will be overwritten when you re-save the Projucer project!" << newLine << newLine; out << "# build with \"V=1\" for verbose builds" << newLine << "ifeq ($(V), 1)" << newLine << "V_AT =" << newLine << "else" << newLine << "V_AT = @" << newLine << "endif" << newLine << newLine; out << "# (this disables dependency generation if multiple architectures are set)" << newLine << "DEPFLAGS := $(if $(word 2, $(TARGET_ARCH)), , -MMD)" << newLine << newLine; out << "ifndef PKG_CONFIG" << newLine << " PKG_CONFIG=pkg-config" << newLine << "endif" << newLine << newLine; out << "ifndef STRIP" << newLine << " STRIP=strip" << newLine << "endif" << newLine << newLine; out << "ifndef AR" << newLine << " AR=ar" << newLine << "endif" << newLine << newLine; out << "ifndef CONFIG" << newLine << " CONFIG=" << escapeQuotesAndSpaces (getConfiguration(0)->getName()) << newLine << "endif" << newLine << newLine; out << "JUCE_ARCH_LABEL := $(shell uname -m)" << newLine << newLine; for (ConstConfigIterator config (*this); config.next();) writeConfig (out, dynamic_cast (*config)); Array> filesToCompile; for (int i = 0; i < getAllGroups().size(); ++i) findAllFilesToCompile (getAllGroups().getReference (i), filesToCompile); writeCompilerFlagSchemes (out, filesToCompile); auto getFilesForTarget = [this] (const Array>& files, MakefileTarget* target, const Project& p) -> Array> { Array> targetFiles; auto targetType = (p.isAudioPluginProject() ? target->type : MakefileTarget::SharedCodeTarget); for (auto& f : files) if (p.getTargetTypeFromFilePath (f.first, true) == targetType) targetFiles.add (f); if (targetType == MakefileTarget::LV2TurtleProgram) targetFiles.add ({ project.resolveFilename (getLV2TurtleDumpProgramSource().toUnixStyle()), {} }); return targetFiles; }; for (auto target : targets) target->writeObjects (out, getFilesForTarget (filesToCompile, target, project)); out << getPhonyTargetLine() << newLine << newLine; writeTargetLines (out, getLinkPackages()); for (auto target : targets) target->addFiles (out, getFilesForTarget (filesToCompile, target, project)); out << "clean:" << newLine << "\t@echo Cleaning " << projectName << newLine << "\t$(V_AT)$(CLEANCMD)" << newLine << newLine; out << "strip:" << newLine << "\t@echo Stripping " << projectName << newLine << "\t-$(V_AT)$(STRIP) --strip-unneeded $(JUCE_OUTDIR)/$(TARGET)" << newLine << newLine; writeIncludeLines (out); } String getArchFlags (const BuildConfiguration& config) const { if (auto* makeConfig = dynamic_cast (&config)) return makeConfig->getArchitectureTypeString(); return "-march=native"; } String getObjectFileFor (const build_tools::RelativePath& file) const { return file.getFileNameWithoutExtension() + "_" + String::toHexString (file.toUnixStyle().hashCode()) + ".o"; } String getPhonyTargetLine() const { MemoryOutputStream phonyTargetLine; phonyTargetLine << ".PHONY: clean all strip"; if (! getProject().isAudioPluginProject()) return phonyTargetLine.toString(); for (auto target : targets) if (target->type != build_tools::ProjectType::Target::SharedCodeTarget && target->type != build_tools::ProjectType::Target::AggregateTarget) phonyTargetLine << " " << target->getPhonyName(); return phonyTargetLine.toString(); } friend class CLionProjectExporter; OwnedArray targets; JUCE_DECLARE_NON_COPYABLE (MakefileProjectExporter) };