use of org.gradle.language.cpp.CppStaticLibrary in project gradle by gradle.
the class CppLibraryPlugin method apply.
@Override
public void apply(final ProjectInternal project) {
project.getPluginManager().apply(CppBasePlugin.class);
final TaskContainer tasks = project.getTasks();
final ObjectFactory objectFactory = project.getObjects();
final ProviderFactory providers = project.getProviders();
// Add the library and extension
final DefaultCppLibrary library = componentFactory.newInstance(CppLibrary.class, DefaultCppLibrary.class, "main");
project.getExtensions().add(CppLibrary.class, "library", library);
project.getComponents().add(library);
// Configure the component
library.getBaseName().set(project.getName());
project.afterEvaluate(new Action<Project>() {
@Override
public void execute(final Project project) {
library.getOperatingSystems().lockNow();
Set<OperatingSystemFamily> operatingSystemFamilies = library.getOperatingSystems().get();
if (operatingSystemFamilies.isEmpty()) {
throw new IllegalArgumentException("An operating system needs to be specified for the library.");
}
library.getLinkage().lockNow();
Set<Linkage> linkages = library.getLinkage().get();
if (linkages.isEmpty()) {
throw new IllegalArgumentException("A linkage needs to be specified for the library.");
}
Usage runtimeUsage = objectFactory.named(Usage.class, Usage.NATIVE_RUNTIME);
Usage linkUsage = objectFactory.named(Usage.class, Usage.NATIVE_LINK);
for (BuildType buildType : BuildType.DEFAULT_BUILD_TYPES) {
for (OperatingSystemFamily operatingSystem : operatingSystemFamilies) {
for (Linkage linkage : linkages) {
String operatingSystemSuffix = createDimensionSuffix(operatingSystem, operatingSystemFamilies);
String linkageSuffix = createDimensionSuffix(linkage, linkages);
String variantName = buildType.getName() + linkageSuffix + operatingSystemSuffix;
Provider<String> group = project.provider(new Callable<String>() {
@Override
public String call() throws Exception {
return project.getGroup().toString();
}
});
Provider<String> version = project.provider(new Callable<String>() {
@Override
public String call() throws Exception {
return project.getVersion().toString();
}
});
AttributeContainer runtimeAttributes = attributesFactory.mutable();
runtimeAttributes.attribute(Usage.USAGE_ATTRIBUTE, runtimeUsage);
runtimeAttributes.attribute(DEBUGGABLE_ATTRIBUTE, buildType.isDebuggable());
runtimeAttributes.attribute(OPTIMIZED_ATTRIBUTE, buildType.isOptimized());
runtimeAttributes.attribute(LINKAGE_ATTRIBUTE, linkage);
runtimeAttributes.attribute(OperatingSystemFamily.OPERATING_SYSTEM_ATTRIBUTE, operatingSystem);
AttributeContainer linkAttributes = attributesFactory.mutable();
linkAttributes.attribute(Usage.USAGE_ATTRIBUTE, linkUsage);
linkAttributes.attribute(DEBUGGABLE_ATTRIBUTE, buildType.isDebuggable());
linkAttributes.attribute(OPTIMIZED_ATTRIBUTE, buildType.isOptimized());
linkAttributes.attribute(LINKAGE_ATTRIBUTE, linkage);
linkAttributes.attribute(OperatingSystemFamily.OPERATING_SYSTEM_ATTRIBUTE, operatingSystem);
NativeVariantIdentity variantIdentity = new NativeVariantIdentity(variantName, library.getBaseName(), group, version, buildType.isDebuggable(), buildType.isOptimized(), operatingSystem, new DefaultUsageContext(variantName + "Link", linkUsage, linkAttributes), new DefaultUsageContext(variantName + "Runtime", runtimeUsage, runtimeAttributes));
if (DefaultNativePlatform.getCurrentOperatingSystem().toFamilyName().equals(operatingSystem.getName())) {
ToolChainSelector.Result<CppPlatform> result = toolChainSelector.select(CppPlatform.class);
if (linkage == Linkage.SHARED) {
CppSharedLibrary sharedLibrary = library.addSharedLibrary(variantIdentity, result.getTargetPlatform(), result.getToolChain(), result.getPlatformToolProvider());
library.getMainPublication().addVariant(sharedLibrary);
// Use the debug shared library as the development binary
if (buildType == BuildType.DEBUG) {
library.getDevelopmentBinary().set(sharedLibrary);
}
} else {
CppStaticLibrary staticLibrary = library.addStaticLibrary(variantIdentity, result.getTargetPlatform(), result.getToolChain(), result.getPlatformToolProvider());
library.getMainPublication().addVariant(staticLibrary);
if (!linkages.contains(Linkage.SHARED) && buildType == BuildType.DEBUG) {
// Use the debug static library as the development binary
library.getDevelopmentBinary().set(staticLibrary);
}
}
} else {
// Known, but not buildable
library.getMainPublication().addVariant(variantIdentity);
}
}
}
}
final MainLibraryVariant mainVariant = library.getMainPublication();
final Configuration apiElements = library.getApiElements();
// TODO - deal with more than one header dir, e.g. generated public headers
Provider<File> publicHeaders = providers.provider(new Callable<File>() {
@Override
public File call() throws Exception {
Set<File> files = library.getPublicHeaderDirs().getFiles();
if (files.size() != 1) {
throw new UnsupportedOperationException(String.format("The C++ library plugin currently requires exactly one public header directory, however there are %d directories configured: %s", files.size(), files));
}
return files.iterator().next();
}
});
apiElements.getOutgoing().artifact(publicHeaders);
project.getPluginManager().withPlugin("maven-publish", new Action<AppliedPlugin>() {
@Override
public void execute(AppliedPlugin appliedPlugin) {
final Zip headersZip = tasks.create("cppHeaders", Zip.class);
headersZip.from(library.getPublicHeaderFiles());
// TODO - should track changes to build directory
headersZip.setDestinationDir(new File(project.getBuildDir(), "headers"));
headersZip.setClassifier("cpp-api-headers");
headersZip.setArchiveName("cpp-api-headers.zip");
mainVariant.addArtifact(new ArchivePublishArtifact(headersZip));
}
});
library.getBinaries().realizeNow();
}
});
}
use of org.gradle.language.cpp.CppStaticLibrary in project gradle by gradle.
the class CppModelBuilder method binariesFor.
private List<DefaultCppBinaryModel> binariesFor(CppComponent component, Iterable<File> headerDirs, DefaultProjectIdentifier projectIdentifier, CompilerOutputFileNamingSchemeFactory namingSchemeFactory) {
List<File> headerDirsCopy = ImmutableList.copyOf(headerDirs);
List<DefaultCppBinaryModel> binaries = new ArrayList<DefaultCppBinaryModel>();
for (CppBinary binary : component.getBinaries().get()) {
DefaultCppBinary cppBinary = (DefaultCppBinary) binary;
PlatformToolProvider platformToolProvider = cppBinary.getPlatformToolProvider();
CppCompile compileTask = binary.getCompileTask().get();
List<DefaultSourceFile> sourceFiles = sourceFiles(namingSchemeFactory, platformToolProvider, compileTask.getObjectFileDir().get().getAsFile(), binary.getCppSource().getFiles());
List<File> systemIncludes = ImmutableList.copyOf(compileTask.getSystemIncludes().getFiles());
List<File> userIncludes = ImmutableList.copyOf(compileTask.getIncludes().getFiles());
List<DefaultMacroDirective> macroDefines = macroDefines(compileTask);
List<String> additionalArgs = args(compileTask.getCompilerArgs().get());
CommandLineToolSearchResult compilerLookup = platformToolProvider.locateTool(ToolType.CPP_COMPILER);
File compilerExe = compilerLookup.isAvailable() ? compilerLookup.getTool() : null;
LaunchableGradleTask compileTaskModel = ToolingModelBuilderSupport.buildFromTask(new LaunchableGradleTask(), projectIdentifier, compileTask);
DefaultCompilationDetails compilationDetails = new DefaultCompilationDetails(compileTaskModel, compilerExe, compileTask.getObjectFileDir().get().getAsFile(), sourceFiles, headerDirsCopy, systemIncludes, userIncludes, macroDefines, additionalArgs);
if (binary instanceof CppExecutable || binary instanceof CppTestExecutable) {
ComponentWithExecutable componentWithExecutable = (ComponentWithExecutable) binary;
LinkExecutable linkTask = componentWithExecutable.getLinkTask().get();
LaunchableGradleTask linkTaskModel = ToolingModelBuilderSupport.buildFromTask(new LaunchableGradleTask(), projectIdentifier, componentWithExecutable.getExecutableFileProducer().get());
DefaultLinkageDetails linkageDetails = new DefaultLinkageDetails(linkTaskModel, componentWithExecutable.getExecutableFile().get().getAsFile(), args(linkTask.getLinkerArgs().get()));
binaries.add(new DefaultCppExecutableModel(binary.getName(), cppBinary.getIdentity().getName(), binary.getBaseName().get(), compilationDetails, linkageDetails));
} else if (binary instanceof CppSharedLibrary) {
CppSharedLibrary sharedLibrary = (CppSharedLibrary) binary;
LinkSharedLibrary linkTask = sharedLibrary.getLinkTask().get();
LaunchableGradleTask linkTaskModel = ToolingModelBuilderSupport.buildFromTask(new LaunchableGradleTask(), projectIdentifier, sharedLibrary.getLinkFileProducer().get());
DefaultLinkageDetails linkageDetails = new DefaultLinkageDetails(linkTaskModel, sharedLibrary.getLinkFile().get().getAsFile(), args(linkTask.getLinkerArgs().get()));
binaries.add(new DefaultCppSharedLibraryModel(binary.getName(), cppBinary.getIdentity().getName(), binary.getBaseName().get(), compilationDetails, linkageDetails));
} else if (binary instanceof CppStaticLibrary) {
CppStaticLibrary staticLibrary = (CppStaticLibrary) binary;
LaunchableGradleTask createTaskModel = ToolingModelBuilderSupport.buildFromTask(new LaunchableGradleTask(), projectIdentifier, staticLibrary.getLinkFileProducer().get());
DefaultLinkageDetails linkageDetails = new DefaultLinkageDetails(createTaskModel, staticLibrary.getLinkFile().get().getAsFile(), Collections.<String>emptyList());
binaries.add(new DefaultCppStaticLibraryModel(binary.getName(), cppBinary.getIdentity().getName(), binary.getBaseName().get(), compilationDetails, linkageDetails));
}
}
return binaries;
}
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