Example 6 with DefaultUsageContext
use of org.gradle.language.cpp.internal.DefaultUsageContext in project gradle by gradle.
the class CppUnitTestPlugin method apply.
@Override
public void apply(final ProjectInternal project) {
project.getPluginManager().apply(CppBasePlugin.class);
project.getPluginManager().apply(NativeTestingBasePlugin.class);
// Add the unit test and extension
final DefaultCppTestSuite testComponent = componentFactory.newInstance(CppTestSuite.class, DefaultCppTestSuite.class, "test");
project.getExtensions().add(CppTestSuite.class, "unitTest", testComponent);
project.getComponents().add(testComponent);
testComponent.getBaseName().set(project.getName() + "Test");
project.afterEvaluate(new Action<Project>() {
@Override
public void execute(final Project project) {
testComponent.getOperatingSystems().lockNow();
Set<OperatingSystemFamily> operatingSystemFamilies = testComponent.getOperatingSystems().get();
if (operatingSystemFamilies.isEmpty()) {
throw new IllegalArgumentException("An operating system needs to be specified for the unit test.");
}
boolean hasHostOperatingSystem = CollectionUtils.any(operatingSystemFamilies, new Spec<OperatingSystemFamily>() {
@Override
public boolean isSatisfiedBy(OperatingSystemFamily element) {
return DefaultNativePlatform.getCurrentOperatingSystem().toFamilyName().equals(element.getName());
}
});
if (hasHostOperatingSystem) {
String operatingSystemSuffix = "";
OperatingSystemFamily operatingSystem = objectFactory.named(OperatingSystemFamily.class, DefaultNativePlatform.getCurrentOperatingSystem().toFamilyName());
Usage runtimeUsage = objectFactory.named(Usage.class, Usage.NATIVE_RUNTIME);
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 attributesDebug = attributesFactory.mutable();
attributesDebug.attribute(Usage.USAGE_ATTRIBUTE, runtimeUsage);
attributesDebug.attribute(DEBUGGABLE_ATTRIBUTE, true);
attributesDebug.attribute(OPTIMIZED_ATTRIBUTE, false);
// TODO: Fix this naming convention to follow C++ executable/library
NativeVariantIdentity debugVariant = new NativeVariantIdentity("debug" + operatingSystemSuffix, testComponent.getBaseName(), group, version, true, false, operatingSystem, null, new DefaultUsageContext("debug" + operatingSystemSuffix + "Runtime", runtimeUsage, attributesDebug));
ToolChainSelector.Result<CppPlatform> result = toolChainSelector.select(CppPlatform.class);
testComponent.addExecutable("executable", debugVariant, result.getTargetPlatform(), result.getToolChain(), result.getPlatformToolProvider());
// TODO: Publishing for test executable?
final TaskContainer tasks = project.getTasks();
final ProductionCppComponent mainComponent = project.getComponents().withType(ProductionCppComponent.class).findByName("main");
if (mainComponent != null) {
testComponent.getTestedComponent().set(mainComponent);
}
testComponent.getBinaries().whenElementKnown(DefaultCppTestExecutable.class, new Action<DefaultCppTestExecutable>() {
@Override
public void execute(final DefaultCppTestExecutable executable) {
if (mainComponent != null) {
// TODO: This should be modeled as a kind of dependency vs wiring binaries together directly.
mainComponent.getBinaries().whenElementFinalized(new Action<CppBinary>() {
@Override
public void execute(CppBinary cppBinary) {
if (cppBinary == mainComponent.getDevelopmentBinary().get()) {
AbstractLinkTask linkTest = executable.getLinkTask().get();
linkTest.source(cppBinary.getObjects());
}
}
});
}
// TODO: Replace with native test task
final RunTestExecutable testTask = tasks.create(executable.getNames().getTaskName("run"), RunTestExecutable.class);
testTask.setGroup(LifecycleBasePlugin.VERIFICATION_GROUP);
testTask.setDescription("Executes C++ unit tests.");
final InstallExecutable installTask = executable.getInstallTask().get();
testTask.onlyIf(new Spec<Task>() {
@Override
public boolean isSatisfiedBy(Task element) {
return executable.getInstallDirectory().get().getAsFile().exists();
}
});
testTask.setExecutable(installTask.getRunScriptFile().get().getAsFile());
testTask.dependsOn(testComponent.getTestBinary().get().getInstallDirectory());
// TODO: Honor changes to build directory
testTask.setOutputDir(project.getLayout().getBuildDirectory().dir("test-results/" + executable.getNames().getDirName()).get().getAsFile());
executable.getRunTask().set(testTask);
}
});
}
testComponent.getBinaries().realizeNow();
}
});
}
Also used :
OperatingSystemFamily(org.gradle.nativeplatform.OperatingSystemFamily)
Action(org.gradle.api.Action)
Task(org.gradle.api.Task)
AbstractLinkTask(org.gradle.nativeplatform.tasks.AbstractLinkTask)
Set(java.util.Set)
AttributeContainer(org.gradle.api.attributes.AttributeContainer)
Callable(java.util.concurrent.Callable)
CppPlatform(org.gradle.language.cpp.CppPlatform)
DefaultCppTestExecutable(org.gradle.nativeplatform.test.cpp.internal.DefaultCppTestExecutable)
InstallExecutable(org.gradle.nativeplatform.tasks.InstallExecutable)
DefaultUsageContext(org.gradle.language.cpp.internal.DefaultUsageContext)
Usage(org.gradle.api.attributes.Usage)
CppBinary(org.gradle.language.cpp.CppBinary)
NativeVariantIdentity(org.gradle.language.cpp.internal.NativeVariantIdentity)
Provider(org.gradle.api.provider.Provider)
ProductionCppComponent(org.gradle.language.cpp.ProductionCppComponent)
RunTestExecutable(org.gradle.nativeplatform.test.tasks.RunTestExecutable)
Project(org.gradle.api.Project)
TaskContainer(org.gradle.api.tasks.TaskContainer)
Spec(org.gradle.api.specs.Spec)
AbstractLinkTask(org.gradle.nativeplatform.tasks.AbstractLinkTask)
DefaultCppTestSuite(org.gradle.nativeplatform.test.cpp.internal.DefaultCppTestSuite)
Example 7 with DefaultUsageContext
use of org.gradle.language.cpp.internal.DefaultUsageContext in project gradle by gradle.
the class CppApplicationPlugin method apply.
@Override
public void apply(final ProjectInternal project) {
project.getPluginManager().apply(CppBasePlugin.class);
final ObjectFactory objectFactory = project.getObjects();
// Add the application and extension
final DefaultCppApplication application = componentFactory.newInstance(CppApplication.class, DefaultCppApplication.class, "main");
project.getExtensions().add(CppApplication.class, "application", application);
project.getComponents().add(application);
// Configure the component
application.getBaseName().set(project.getName());
project.afterEvaluate(new Action<Project>() {
@Override
public void execute(final Project project) {
application.getOperatingSystems().lockNow();
Set<OperatingSystemFamily> operatingSystemFamilies = application.getOperatingSystems().get();
if (operatingSystemFamilies.isEmpty()) {
throw new IllegalArgumentException("An operating system needs to be specified for the application.");
}
Usage runtimeUsage = objectFactory.named(Usage.class, Usage.NATIVE_RUNTIME);
for (BuildType buildType : BuildType.DEFAULT_BUILD_TYPES) {
for (OperatingSystemFamily operatingSystem : operatingSystemFamilies) {
String operatingSystemSuffix = createDimensionSuffix(operatingSystem, operatingSystemFamilies);
String variantName = buildType.getName() + 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(OperatingSystemFamily.OPERATING_SYSTEM_ATTRIBUTE, operatingSystem);
NativeVariantIdentity variantIdentity = new NativeVariantIdentity(variantName, application.getBaseName(), group, version, buildType.isDebuggable(), buildType.isOptimized(), operatingSystem, null, new DefaultUsageContext(variantName + "Runtime", runtimeUsage, runtimeAttributes));
if (DefaultNativePlatform.getCurrentOperatingSystem().toFamilyName().equals(operatingSystem.getName())) {
ToolChainSelector.Result<CppPlatform> result = toolChainSelector.select(CppPlatform.class);
CppExecutable executable = application.addExecutable(variantIdentity, result.getTargetPlatform(), result.getToolChain(), result.getPlatformToolProvider());
// Use the debug variant as the development binary
if (buildType == BuildType.DEBUG) {
application.getDevelopmentBinary().set(executable);
}
application.getMainPublication().addVariant(executable);
} else {
// Known, but not buildable
application.getMainPublication().addVariant(variantIdentity);
}
}
}
application.getBinaries().realizeNow();
}
});
}
Also used :
OperatingSystemFamily(org.gradle.nativeplatform.OperatingSystemFamily)
Usage(org.gradle.api.attributes.Usage)
Set(java.util.Set)
AttributeContainer(org.gradle.api.attributes.AttributeContainer)
CppExecutable(org.gradle.language.cpp.CppExecutable)
NativeVariantIdentity(org.gradle.language.cpp.internal.NativeVariantIdentity)
Callable(java.util.concurrent.Callable)
DefaultCppApplication(org.gradle.language.cpp.internal.DefaultCppApplication)
Provider(org.gradle.api.provider.Provider)
Project(org.gradle.api.Project)
CppPlatform(org.gradle.language.cpp.CppPlatform)
ObjectFactory(org.gradle.api.model.ObjectFactory)
BuildType(org.gradle.language.nativeplatform.internal.BuildType)
DefaultUsageContext(org.gradle.language.cpp.internal.DefaultUsageContext)
Example 8 with DefaultUsageContext
use of org.gradle.language.cpp.internal.DefaultUsageContext in project gradle by gradle.
the class DefaultSwiftStaticLibrary method getUsages.
@Override
public Set<? extends UsageContext> getUsages() {
Configuration linkElements = getLinkElements().get();
Configuration runtimeElements = getRuntimeElements().get();
return Sets.newHashSet(// TODO: Does a static library have runtime elements?
new DefaultUsageContext(getIdentity().getLinkUsageContext(), linkElements.getAllArtifacts(), linkElements), new DefaultUsageContext(getIdentity().getRuntimeUsageContext(), runtimeElements.getAllArtifacts(), runtimeElements));
}
Also used :
Configuration(org.gradle.api.artifacts.Configuration)
DefaultUsageContext(org.gradle.language.cpp.internal.DefaultUsageContext)
Aggregations
DefaultUsageContext (org.gradle.language.cpp.internal.DefaultUsageContext)8
Callable (java.util.concurrent.Callable)6
Project (org.gradle.api.Project)6
AttributeContainer (org.gradle.api.attributes.AttributeContainer)6
Usage (org.gradle.api.attributes.Usage)6
Provider (org.gradle.api.provider.Provider)6
NativeVariantIdentity (org.gradle.language.cpp.internal.NativeVariantIdentity)6
OperatingSystemFamily (org.gradle.nativeplatform.OperatingSystemFamily)6
Set (java.util.Set)5
Action (org.gradle.api.Action)5
Configuration (org.gradle.api.artifacts.Configuration)5
ObjectFactory (org.gradle.api.model.ObjectFactory)4
CppPlatform (org.gradle.language.cpp.CppPlatform)3
SwiftPlatform (org.gradle.language.swift.SwiftPlatform)3
ConfigurationContainer (org.gradle.api.artifacts.ConfigurationContainer)2
TaskContainer (org.gradle.api.tasks.TaskContainer)2
BuildType (org.gradle.language.nativeplatform.internal.BuildType)2
ComponentWithNames (org.gradle.language.nativeplatform.internal.ComponentWithNames)2
Names (org.gradle.language.nativeplatform.internal.Names)2
Linkage (org.gradle.nativeplatform.Linkage)2
