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android / platform / tools / base.git / 4b8fc8a9b927afb933748f33dd07c7dc6bb0d1ba / . / build-system / gradle / src / main / groovy / com / android / build / gradle / BasePlugin.groovy
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/*
* Copyright (C) 2012 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.android.build.gradle
import com.android.annotations.NonNull
import com.android.annotations.Nullable
import com.android.build.gradle.api.AndroidSourceSet
import com.android.build.gradle.api.BaseVariant
import com.android.build.gradle.internal.BadPluginException
import com.android.build.gradle.internal.ConfigurationDependencies
import com.android.build.gradle.internal.LibraryCache
import com.android.build.gradle.internal.LoggerWrapper
import com.android.build.gradle.internal.ProductFlavorData
import com.android.build.gradle.internal.SdkHandler
import com.android.build.gradle.internal.VariantManager
import com.android.build.gradle.internal.api.DefaultAndroidSourceSet
import com.android.build.gradle.internal.coverage.JacocoInstrumentTask
import com.android.build.gradle.internal.coverage.JacocoPlugin
import com.android.build.gradle.internal.coverage.JacocoReportTask
import com.android.build.gradle.internal.dependency.ClassifiedJarDependency
import com.android.build.gradle.internal.dependency.DependencyChecker
import com.android.build.gradle.internal.dependency.LibraryDependencyImpl
import com.android.build.gradle.internal.dependency.ManifestDependencyImpl
import com.android.build.gradle.internal.dependency.SymbolFileProviderImpl
import com.android.build.gradle.internal.dependency.VariantDependencies
import com.android.build.gradle.internal.dsl.BuildTypeDsl
import com.android.build.gradle.internal.dsl.BuildTypeFactory
import com.android.build.gradle.internal.dsl.GroupableProductFlavorDsl
import com.android.build.gradle.internal.dsl.GroupableProductFlavorFactory
import com.android.build.gradle.internal.dsl.SigningConfigDsl
import com.android.build.gradle.internal.dsl.SigningConfigFactory
import com.android.build.gradle.internal.model.ArtifactMetaDataImpl
import com.android.build.gradle.internal.model.JavaArtifactImpl
import com.android.build.gradle.internal.model.ModelBuilder
import com.android.build.gradle.internal.publishing.ApkPublishArtifact
import com.android.build.gradle.internal.tasks.AndroidReportTask
import com.android.build.gradle.internal.tasks.CheckManifest
import com.android.build.gradle.internal.tasks.DependencyReportTask
import com.android.build.gradle.internal.tasks.DeviceProviderInstrumentTestLibraryTask
import com.android.build.gradle.internal.tasks.DeviceProviderInstrumentTestTask
import com.android.build.gradle.internal.tasks.GenerateApkDataTask
import com.android.build.gradle.internal.tasks.InstallVariantTask
import com.android.build.gradle.internal.tasks.OutputFileTask
import com.android.build.gradle.internal.tasks.PrepareDependenciesTask
import com.android.build.gradle.internal.tasks.PrepareLibraryTask
import com.android.build.gradle.internal.tasks.PrepareSdkTask
import com.android.build.gradle.internal.tasks.SigningReportTask
import com.android.build.gradle.internal.tasks.TestServerTask
import com.android.build.gradle.internal.tasks.UninstallTask
import com.android.build.gradle.internal.tasks.ValidateSigningTask
import com.android.build.gradle.internal.test.report.ReportType
import com.android.build.gradle.internal.variant.ApkVariantData
import com.android.build.gradle.internal.variant.ApkVariantOutputData
import com.android.build.gradle.internal.variant.ApplicationVariantData
import com.android.build.gradle.internal.variant.BaseVariantData
import com.android.build.gradle.internal.variant.BaseVariantOutputData
import com.android.build.gradle.internal.variant.DefaultSourceProviderContainer
import com.android.build.gradle.internal.variant.LibraryVariantData
import com.android.build.gradle.internal.variant.TestVariantData
import com.android.build.gradle.internal.variant.TestedVariantData
import com.android.build.gradle.internal.variant.VariantFactory
import com.android.build.gradle.ndk.NdkPlugin
import com.android.build.gradle.tasks.AidlCompile
import com.android.build.gradle.tasks.CompatibleScreensManifest
import com.android.build.gradle.tasks.Dex
import com.android.build.gradle.tasks.GenerateBuildConfig
import com.android.build.gradle.tasks.GenerateResValues
import com.android.build.gradle.tasks.Lint
import com.android.build.gradle.tasks.MergeAssets
import com.android.build.gradle.tasks.MergeManifests
import com.android.build.gradle.tasks.MergeResources
import com.android.build.gradle.tasks.NdkCompile
import com.android.build.gradle.tasks.PackageApplication
import com.android.build.gradle.tasks.PreDex
import com.android.build.gradle.tasks.ProcessAndroidResources
import com.android.build.gradle.tasks.ProcessAppManifest
import com.android.build.gradle.tasks.ProcessManifest
import com.android.build.gradle.tasks.ProcessTestManifest
import com.android.build.gradle.tasks.ProcessTestManifest2
import com.android.build.gradle.tasks.RenderscriptCompile
import com.android.build.gradle.tasks.ZipAlign
import com.android.builder.core.AndroidBuilder
import com.android.builder.core.DefaultBuildType
import com.android.builder.core.DefaultProductFlavor
import com.android.builder.core.VariantConfiguration
import com.android.builder.dependency.DependencyContainer
import com.android.builder.dependency.JarDependency
import com.android.builder.dependency.LibraryDependency
import com.android.builder.internal.compiler.PreDexCache
import com.android.builder.internal.testing.SimpleTestCallable
import com.android.builder.model.AndroidArtifact
import com.android.builder.model.ApiVersion
import com.android.builder.model.ArtifactMetaData
import com.android.builder.model.BuildType
import com.android.builder.model.JavaArtifact
import com.android.builder.model.ProductFlavor
import com.android.builder.model.SigningConfig
import com.android.builder.model.SourceProvider
import com.android.builder.model.SourceProviderContainer
import com.android.builder.png.PngProcessor
import com.android.builder.sdk.SdkInfo
import com.android.builder.sdk.TargetInfo
import com.android.builder.testing.ConnectedDeviceProvider
import com.android.builder.testing.api.DeviceProvider
import com.android.builder.testing.api.TestServer
import com.android.ide.common.internal.ExecutorSingleton
import com.android.resources.Density
import com.android.sdklib.SdkVersionInfo
import com.android.utils.ILogger
import com.google.common.collect.ArrayListMultimap
import com.google.common.collect.ImmutableSet
import com.google.common.collect.ListMultimap
import com.google.common.collect.Lists
import com.google.common.collect.Maps
import com.google.common.collect.Multimap
import com.google.common.collect.Sets
import org.gradle.api.DefaultTask
import org.gradle.api.GradleException
import org.gradle.api.Project
import org.gradle.api.Task
import org.gradle.api.artifacts.Configuration
import org.gradle.api.artifacts.ModuleVersionIdentifier
import org.gradle.api.artifacts.ProjectDependency
import org.gradle.api.artifacts.ResolvedArtifact
import org.gradle.api.artifacts.SelfResolvingDependency
import org.gradle.api.artifacts.result.DependencyResult
import org.gradle.api.artifacts.result.ResolvedComponentResult
import org.gradle.api.artifacts.result.ResolvedDependencyResult
import org.gradle.api.artifacts.result.UnresolvedDependencyResult
import org.gradle.api.internal.project.ProjectInternal
import org.gradle.api.logging.LogLevel
import org.gradle.api.logging.Logger
import org.gradle.api.plugins.JavaBasePlugin
import org.gradle.api.plugins.JavaPlugin
import org.gradle.api.specs.Specs
import org.gradle.api.tasks.Copy
import org.gradle.api.tasks.compile.JavaCompile
import org.gradle.internal.reflect.Instantiator
import org.gradle.language.jvm.tasks.ProcessResources
import org.gradle.tooling.BuildException
import org.gradle.tooling.provider.model.ToolingModelBuilderRegistry
import org.gradle.util.GUtil
import proguard.gradle.ProGuardTask
import java.util.jar.Attributes
import java.util.jar.Manifest
import static com.android.SdkConstants.FN_ANDROID_MANIFEST_XML
import static com.android.builder.core.BuilderConstants.ANDROID_TEST
import static com.android.builder.core.BuilderConstants.CONNECTED
import static com.android.builder.core.BuilderConstants.DEBUG
import static com.android.builder.core.BuilderConstants.DEVICE
import static com.android.builder.core.BuilderConstants.EXT_LIB_ARCHIVE
import static com.android.builder.core.BuilderConstants.FD_ANDROID_RESULTS
import static com.android.builder.core.BuilderConstants.FD_ANDROID_TESTS
import static com.android.builder.core.BuilderConstants.FD_FLAVORS
import static com.android.builder.core.BuilderConstants.FD_FLAVORS_ALL
import static com.android.builder.core.BuilderConstants.FD_REPORTS
import static com.android.builder.core.BuilderConstants.RELEASE
import static com.android.builder.core.VariantConfiguration.Type.TEST
import static com.android.builder.model.AndroidProject.FD_GENERATED
import static com.android.builder.model.AndroidProject.FD_INTERMEDIATES
import static com.android.builder.model.AndroidProject.FD_OUTPUTS
import static com.android.builder.model.AndroidProject.PROPERTY_APK_LOCATION
import static com.android.builder.model.AndroidProject.PROPERTY_BUILD_MODEL_ONLY
import static com.android.builder.model.AndroidProject.PROPERTY_SIGNING_KEY_ALIAS
import static com.android.builder.model.AndroidProject.PROPERTY_SIGNING_KEY_PASSWORD
import static com.android.builder.model.AndroidProject.PROPERTY_SIGNING_STORE_FILE
import static com.android.builder.model.AndroidProject.PROPERTY_SIGNING_STORE_PASSWORD
import static com.android.builder.model.AndroidProject.PROPERTY_SIGNING_STORE_TYPE
import static com.android.sdklib.BuildToolInfo.PathId.ZIP_ALIGN
import static java.io.File.separator
/**
* Base class for all Android plugins
*/
public abstract class BasePlugin {
public final static String DIR_BUNDLES = "bundles";
private static final String GRADLE_MIN_VERSION = "2.1"
public static final String GRADLE_TEST_VERSION = "2.1"
public static final String[] GRADLE_SUPPORTED_VERSIONS = [ GRADLE_MIN_VERSION ]
public static final String INSTALL_GROUP = "Install"
public static File TEST_SDK_DIR;
public static final String FILE_JACOCO_AGENT = 'jacocoagent.jar'
protected Instantiator instantiator
private ToolingModelBuilderRegistry registry
protected JacocoPlugin jacocoPlugin
private NdkPlugin ndkPlugin
private BaseExtension extension
private VariantManager variantManager
final List<BaseVariantData<? extends BaseVariantOutputData>> variantDataList = []
final Map<LibraryDependencyImpl, PrepareLibraryTask> prepareTaskMap = [:]
final Map<SigningConfig, ValidateSigningTask> validateSigningTaskMap = [:]
protected Project project
private LoggerWrapper loggerWrapper
protected SdkHandler sdkHandler
private AndroidBuilder androidBuilder
private String creator
private boolean hasCreatedTasks = false
private ProductFlavorData<DefaultProductFlavor> defaultConfigData
private final Collection<String> unresolvedDependencies = Sets.newHashSet();
protected DefaultAndroidSourceSet mainSourceSet
protected DefaultAndroidSourceSet testSourceSet
protected PrepareSdkTask mainPreBuild
protected Task uninstallAll
protected Task assembleTest
protected Task deviceCheck
protected Task connectedCheck
protected Copy jacocoAgentTask
public Task lintCompile
protected Task lintAll
protected Task lintVital
protected BasePlugin(Instantiator instantiator, ToolingModelBuilderRegistry registry) {
this.instantiator = instantiator
this.registry = registry
String pluginVersion = getLocalVersion()
if (pluginVersion != null) {
creator = "Android Gradle " + pluginVersion
} else {
creator = "Android Gradle"
}
}
protected abstract Class<? extends BaseExtension> getExtensionClass()
protected abstract VariantFactory getVariantFactory()
public Instantiator getInstantiator() {
return instantiator
}
public VariantManager getVariantManager() {
return variantManager
}
BaseExtension getExtension() {
return extension
}
protected void apply(Project project) {
this.project = project
checkGradleVersion()
sdkHandler = new SdkHandler(project, logger)
androidBuilder = new AndroidBuilder(
project == project.rootProject ? project.name : project.path,
creator, logger, verbose)
project.apply plugin: JavaBasePlugin
project.apply plugin: JacocoPlugin
jacocoPlugin = project.plugins.getPlugin(JacocoPlugin)
// Register a builder for the custom tooling model
registry.register(new ModelBuilder());
def buildTypeContainer = project.container(DefaultBuildType,
new BuildTypeFactory(instantiator, project, project.getLogger()))
def productFlavorContainer = project.container(GroupableProductFlavorDsl,
new GroupableProductFlavorFactory(instantiator, project, project.getLogger()))
def signingConfigContainer = project.container(SigningConfig,
new SigningConfigFactory(instantiator))
extension = project.extensions.create('android', getExtensionClass(),
this, (ProjectInternal) project, instantiator,
buildTypeContainer, productFlavorContainer, signingConfigContainer,
this instanceof LibraryPlugin)
setBaseExtension(extension)
if (project.plugins.hasPlugin(NdkPlugin.class)) {
throw new BadPluginException(
"Cannot apply Android native plugin before the Android plugin.")
}
project.apply plugin: NdkPlugin
ndkPlugin = project.plugins.getPlugin(NdkPlugin)
extension.setNdkExtension(ndkPlugin.getNdkExtension())
variantManager = new VariantManager(project, this, extension, getVariantFactory())
// map the whenObjectAdded callbacks on the containers.
signingConfigContainer.whenObjectAdded { SigningConfig signingConfig ->
variantManager.addSigningConfig((SigningConfigDsl) signingConfig)
}
buildTypeContainer.whenObjectAdded { DefaultBuildType buildType ->
variantManager.addBuildType((BuildTypeDsl) buildType)
}
productFlavorContainer.whenObjectAdded { GroupableProductFlavorDsl productFlavor ->
variantManager.addProductFlavor(productFlavor)
}
// create default Objects, signingConfig first as its used by the BuildTypes.
signingConfigContainer.create(DEBUG)
buildTypeContainer.create(DEBUG)
buildTypeContainer.create(RELEASE)
// map whenObjectRemoved on the containers to throw an exception.
signingConfigContainer.whenObjectRemoved {
throw new UnsupportedOperationException("Removing signingConfigs is not supported.")
}
buildTypeContainer.whenObjectRemoved {
throw new UnsupportedOperationException("Removing build types is not supported.")
}
productFlavorContainer.whenObjectRemoved {
throw new UnsupportedOperationException("Removing product flavors is not supported.")
}
project.tasks.assemble.description =
"Assembles all variants of all applications and secondary packages."
uninstallAll = project.tasks.create("uninstallAll")
uninstallAll.description = "Uninstall all applications."
uninstallAll.group = INSTALL_GROUP
deviceCheck = project.tasks.create("deviceCheck")
deviceCheck.description = "Runs all device checks using Device Providers and Test Servers."
deviceCheck.group = JavaBasePlugin.VERIFICATION_GROUP
connectedCheck = project.tasks.create("connectedCheck")
connectedCheck.description = "Runs all device checks on currently connected devices."
connectedCheck.group = JavaBasePlugin.VERIFICATION_GROUP
mainPreBuild = project.tasks.create("preBuild", PrepareSdkTask)
mainPreBuild.plugin = this
project.afterEvaluate {
createAndroidTasks(false)
}
// call back on execution. This is called after the whole build is done (not
// after the current project is done).
// This is will be called for each (android) projects though, so this should support
// being called 2+ times.
project.gradle.buildFinished {
ExecutorSingleton.shutdown()
PngProcessor.clearCache()
sdkHandler.unload()
PreDexCache.getCache().clear(
project.rootProject.file(
"${project.rootProject.buildDir}/${FD_INTERMEDIATES}/dex-cache/cache.xml"),
logger)
LibraryCache.getCache().unload()
}
project.gradle.taskGraph.whenReady { taskGraph ->
for (Task task : taskGraph.allTasks) {
if (task instanceof PreDex) {
PreDexCache.getCache().load(
project.rootProject.file(
"${project.rootProject.buildDir}/${FD_INTERMEDIATES}/dex-cache/cache.xml"))
break;
}
}
}
}
private void setBaseExtension(@NonNull BaseExtension extension) {
mainSourceSet = (DefaultAndroidSourceSet) extension.sourceSets.create(extension.defaultConfig.name)
testSourceSet = (DefaultAndroidSourceSet) extension.sourceSets.create(ANDROID_TEST)
defaultConfigData = new ProductFlavorData<DefaultProductFlavor>(
extension.defaultConfig, mainSourceSet,
testSourceSet, project)
}
private void checkGradleVersion() {
boolean foundMatch = false
for (String version : GRADLE_SUPPORTED_VERSIONS) {
if (project.getGradle().gradleVersion.startsWith(version)) {
foundMatch = true
break
}
}
if (!foundMatch) {
File file = new File("gradle" + separator + "wrapper" + separator +
"gradle-wrapper.properties");
throw new BuildException(
String.format(
"Gradle version %s is required. Current version is %s. " +
"If using the gradle wrapper, try editing the distributionUrl in %s " +
"to gradle-%s-all.zip",
GRADLE_MIN_VERSION, project.getGradle().gradleVersion, file.getAbsolutePath(),
GRADLE_MIN_VERSION), null);
}
}
final void createAndroidTasks(boolean force) {
// get current plugins and look for the default Java plugin.
if (project.plugins.hasPlugin(JavaPlugin.class)) {
throw new BadPluginException(
"The 'java' plugin has been applied, but it is not compatible with the Android plugins.")
}
// don't do anything if the project was not initialized.
// Unless TEST_SDK_DIR is set in which case this is unit tests and we don't return.
// This is because project don't get evaluated in the unit test setup.
// See AppPluginDslTest
if (!force && (!project.state.executed || project.state.failure != null) && TEST_SDK_DIR == null) {
return
}
if (hasCreatedTasks) {
return
}
hasCreatedTasks = true
// setup SDK repositories.
for (File file : sdkHandler.sdkLoader.repositories) {
project.repositories.maven {
url = file.toURI()
}
}
variantManager.createAndroidTasks(getSigningOverride())
createReportTasks()
if (lintVital != null) {
project.gradle.taskGraph.whenReady { taskGraph ->
if (taskGraph.hasTask(lintAll)) {
lintVital.setEnabled(false)
}
}
}
}
private SigningConfig getSigningOverride() {
if (project.hasProperty(PROPERTY_SIGNING_STORE_FILE) &&
project.hasProperty(PROPERTY_SIGNING_STORE_PASSWORD) &&
project.hasProperty(PROPERTY_SIGNING_KEY_ALIAS) &&
project.hasProperty(PROPERTY_SIGNING_KEY_PASSWORD)) {
SigningConfigDsl signingConfigDsl = new SigningConfigDsl("externalOverride")
Map<String, ?> props = project.getProperties();
signingConfigDsl.setStoreFile(new File((String) props.get(PROPERTY_SIGNING_STORE_FILE)))
signingConfigDsl.setStorePassword((String) props.get(PROPERTY_SIGNING_STORE_PASSWORD));
signingConfigDsl.setKeyAlias((String) props.get(PROPERTY_SIGNING_KEY_ALIAS));
signingConfigDsl.setKeyPassword((String) props.get(PROPERTY_SIGNING_KEY_PASSWORD));
if (project.hasProperty(PROPERTY_SIGNING_STORE_TYPE)) {
signingConfigDsl.setStoreType((String) props.get(PROPERTY_SIGNING_STORE_TYPE))
}
return signingConfigDsl
}
return null
}
void checkTasksAlreadyCreated() {
if (hasCreatedTasks) {
throw new GradleException(
"Android tasks have already been created.\n" +
"This happens when calling android.applicationVariants,\n" +
"android.libraryVariants or android.testVariants.\n" +
"Once these methods are called, it is not possible to\n" +
"continue configuring the model.")
}
}
ProductFlavorData getDefaultConfigData() {
return defaultConfigData
}
Collection<String> getUnresolvedDependencies() {
return unresolvedDependencies
}
ILogger getLogger() {
if (loggerWrapper == null) {
loggerWrapper = new LoggerWrapper(project.logger)
}
return loggerWrapper
}
boolean isVerbose() {
return project.logger.isEnabled(LogLevel.DEBUG)
}
void setAssembleTest(Task assembleTest) {
this.assembleTest = assembleTest
}
AndroidBuilder getAndroidBuilder() {
return androidBuilder
}
public File getSdkFolder() {
return sdkHandler.getSdkFolder()
}
public File getNdkFolder() {
return sdkHandler.getNdkFolder()
}
public SdkInfo getSdkInfo() {
return sdkHandler.getSdkInfo()
}
public List<String> getBootClasspath() {
ensureTargetSetup()
return androidBuilder.getBootClasspath()
}
public void ensureTargetSetup() {
// check if the target has been set.
TargetInfo targetInfo = androidBuilder.getTargetInfo()
if (targetInfo == null) {
sdkHandler.initTarget(
extension.getCompileSdkVersion(),
extension.buildToolsRevision,
androidBuilder)
}
}
public void createMergeAppManifestsTask(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData) {
if (extension.getUseOldManifestMerger()) {
createOldProcessManifestTask(variantData, "manifests");
return;
}
VariantConfiguration config = variantData.variantConfiguration
ProductFlavor mergedFlavor = config.mergedFlavor
ApplicationVariantData appVariantData = variantData as ApplicationVariantData
Set<String> screenSizes = appVariantData.getCompatibleScreens()
// loop on all outputs. The only difference will be the name of the task, and location
// of the generated manifest
for (BaseVariantOutputData vod : variantData.outputs) {
final CompatibleScreensManifest csmTask =
(vod.densityFilter != null && !screenSizes.isEmpty()) ?
createCompatibleScreensManifest(vod, screenSizes) :
null
// create final var inside the loop to ensure the closures will work.
final BaseVariantOutputData variantOutputData = vod
String outputName = variantOutputData.fullName.capitalize()
String outputDirName = variantOutputData.dirName
def processManifestTask = project.tasks.create(
"process${outputName}Manifest",
MergeManifests)
variantOutputData.manifestProcessorTask = processManifestTask
processManifestTask.plugin = this
processManifestTask.dependsOn variantData.prepareDependenciesTask
if (variantData.generateApkDataTask != null) {
processManifestTask.dependsOn variantData.generateApkDataTask
}
if (csmTask != null) {
processManifestTask.dependsOn csmTask
}
processManifestTask.variantConfiguration = config
if (variantOutputData instanceof ApkVariantOutputData) {
processManifestTask.variantOutputData = variantOutputData as ApkVariantOutputData
}
processManifestTask.conventionMapping.libraries = {
List<ManifestDependencyImpl> manifests =
getManifestDependencies(config.directLibraries)
if (variantData.generateApkDataTask != null) {
manifests.add(new ManifestDependencyImpl(
variantData.generateApkDataTask.getManifestFile(),
Collections.emptyList()))
}
if (csmTask != null) {
manifests.add(
new ManifestDependencyImpl(
csmTask.getManifestFile(),
Collections.emptyList()))
}
return manifests
}
processManifestTask.conventionMapping.minSdkVersion = {
if (androidBuilder.isPreviewTarget()) {
return androidBuilder.getTargetCodename()
}
mergedFlavor.minSdkVersion?.apiString
}
processManifestTask.conventionMapping.targetSdkVersion = {
if (androidBuilder.isPreviewTarget()) {
return androidBuilder.getTargetCodename()
}
return mergedFlavor.targetSdkVersion?.apiString
}
processManifestTask.conventionMapping.maxSdkVersion = {
if (androidBuilder.isPreviewTarget()) {
return null
}
return mergedFlavor.maxSdkVersion
}
processManifestTask.conventionMapping.manifestOutputFile = {
project.file(
"$project.buildDir/${FD_INTERMEDIATES}/manifests/full/" +
"${outputDirName}/AndroidManifest.xml")
}
}
}
private CompatibleScreensManifest createCompatibleScreensManifest(
@NonNull BaseVariantOutputData variantOutputData,
@NonNull Set<String> screenSizes) {
CompatibleScreensManifest csmTask = project.tasks.create(
"create${variantOutputData.fullName.capitalize()}CompatibleScreensManifest",
CompatibleScreensManifest)
csmTask.screenDensity = variantOutputData.densityFilter
csmTask.screenSizes = screenSizes
csmTask.conventionMapping.manifestFile = {
project.file(
"$project.buildDir/${FD_INTERMEDIATES}/manifests/density/" +
"${variantOutputData.dirName}/AndroidManifest.xml")
}
return csmTask;
}
public void createMergeLibManifestsTask(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData,
@NonNull String manifestOutDir) {
boolean multiOutput = variantData.outputs.size() > 1
if (multiOutput && extension.getUseOldManifestMerger()) {
throw new RuntimeException("Old Manifest merger cannot be used with new Splits mechanism")
}
if (extension.getUseOldManifestMerger()) {
createOldProcessManifestTask(variantData, manifestOutDir);
return;
}
VariantConfiguration config = variantData.variantConfiguration
// get single output for now.
BaseVariantOutputData variantOutputData = variantData.outputs.get(0)
def processManifest = project.tasks.create(
"process${variantData.variantConfiguration.fullName.capitalize()}Manifest",
ProcessManifest)
variantOutputData.manifestProcessorTask = processManifest
processManifest.plugin = this
processManifest.dependsOn variantData.prepareDependenciesTask
processManifest.variantConfiguration = config
ProductFlavor mergedFlavor = config.mergedFlavor
processManifest.conventionMapping.minSdkVersion = {
if (androidBuilder.isPreviewTarget()) {
return androidBuilder.getTargetCodename()
}
return mergedFlavor.minSdkVersion?.apiString
}
processManifest.conventionMapping.targetSdkVersion = {
if (androidBuilder.isPreviewTarget()) {
return androidBuilder.getTargetCodename()
}
return mergedFlavor.targetSdkVersion?.apiString
}
processManifest.conventionMapping.maxSdkVersion = {
if (androidBuilder.isPreviewTarget()) {
return null
}
return mergedFlavor.maxSdkVersion
}
processManifest.conventionMapping.manifestOutputFile = {
project.file(
"$project.buildDir/${FD_INTERMEDIATES}/${manifestOutDir}/" +
"${variantData.variantConfiguration.dirName}/AndroidManifest.xml")
}
}
public void createOldProcessManifestTask(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData,
@NonNull String manifestOurDir) {
VariantConfiguration config = variantData.variantConfiguration
ProductFlavor mergedFlavor = config.mergedFlavor
// loop on all outputs. The only difference will be the name of the task, and location
// of the generated manifest
for (BaseVariantOutputData vod : variantData.outputs) {
// create final var inside the loop to ensure the closures will work.
final BaseVariantOutputData variantOutputData = vod
String outputName = variantOutputData.fullName.capitalize()
String outputDirName = variantOutputData.dirName
def processManifestTask = project.tasks.create(
"merge${outputName}Manifests", ProcessAppManifest)
variantOutputData.manifestProcessorTask = processManifestTask
processManifestTask.dependsOn variantData.prepareDependenciesTask
if (config.type != TEST) {
processManifestTask.dependsOn variantData.checkManifestTask
}
processManifestTask.plugin = this
processManifestTask.conventionMapping.mainManifest = {
config.mainManifest
}
processManifestTask.conventionMapping.manifestOverlays = {
config.manifestOverlays
}
processManifestTask.conventionMapping.packageNameOverride = {
config.idOverride
}
processManifestTask.conventionMapping.versionName = {
config.versionName
}
processManifestTask.conventionMapping.libraries = {
getManifestDependencies(config.directLibraries)
}
processManifestTask.conventionMapping.versionCode = {
if (variantOutputData instanceof ApkVariantOutputData) {
return ((ApkVariantOutputData) variantOutputData).versionCode
}
return config.versionCode
}
processManifestTask.conventionMapping.minSdkVersion = {
if (androidBuilder.isPreviewTarget()) {
return androidBuilder.getTargetCodename()
}
mergedFlavor.minSdkVersion?.apiString
}
processManifestTask.conventionMapping.targetSdkVersion = {
if (androidBuilder.isPreviewTarget()) {
return androidBuilder.getTargetCodename()
}
return mergedFlavor.targetSdkVersion?.apiString
}
processManifestTask.conventionMapping.manifestOutputFile = {
project.file(
"$project.buildDir/${FD_INTERMEDIATES}/${manifestOurDir}/${outputDirName}/AndroidManifest.xml")
}
}
}
protected void createProcessTestManifestTask(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData,
@NonNull String manifestOurDir) {
def processTestManifestTask;
VariantConfiguration config = variantData.variantConfiguration
if (extension.getUseOldManifestMerger()) {
processTestManifestTask = project.tasks.create(
"process${variantData.variantConfiguration.fullName.capitalize()}Manifest",
ProcessTestManifest)
} else {
processTestManifestTask = project.tasks.create(
"process${variantData.variantConfiguration.fullName.capitalize()}Manifest",
ProcessTestManifest2)
processTestManifestTask.conventionMapping.testManifestFile = {
config.getMainManifest()
}
processTestManifestTask.conventionMapping.tmpDir = {
project.file(
"$project.buildDir/${FD_INTERMEDIATES}/${manifestOurDir}/tmp")
}
}
// get single output for now.
BaseVariantOutputData variantOutputData = variantData.outputs.get(0)
variantOutputData.manifestProcessorTask = processTestManifestTask
processTestManifestTask.dependsOn variantData.prepareDependenciesTask
processTestManifestTask.plugin = this
processTestManifestTask.conventionMapping.testApplicationId = {
config.applicationId
}
processTestManifestTask.conventionMapping.minSdkVersion = {
if (androidBuilder.isPreviewTarget()) {
return androidBuilder.getTargetCodename()
}
config.minSdkVersion?.apiString
}
processTestManifestTask.conventionMapping.targetSdkVersion = {
if (androidBuilder.isPreviewTarget()) {
return androidBuilder.getTargetCodename()
}
return config.targetSdkVersion?.apiString
}
processTestManifestTask.conventionMapping.testedApplicationId = {
config.testedApplicationId
}
processTestManifestTask.conventionMapping.instrumentationRunner = {
config.instrumentationRunner
}
processTestManifestTask.conventionMapping.handleProfiling = {
config.handleProfiling
}
processTestManifestTask.conventionMapping.functionalTest = {
config.functionalTest
}
processTestManifestTask.conventionMapping.libraries = {
getManifestDependencies(config.directLibraries)
}
processTestManifestTask.conventionMapping.manifestOutputFile = {
project.file(
"$project.buildDir/${FD_INTERMEDIATES}/${manifestOurDir}/${variantData.variantConfiguration.dirName}/AndroidManifest.xml")
}
}
public void createRenderscriptTask(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData) {
VariantConfiguration config = variantData.variantConfiguration
// get single output for now.
BaseVariantOutputData variantOutputData = variantData.outputs.get(0)
def renderscriptTask = project.tasks.create(
"compile${variantData.variantConfiguration.fullName.capitalize()}Renderscript",
RenderscriptCompile)
variantData.renderscriptCompileTask = renderscriptTask
if (config.type == TEST) {
renderscriptTask.dependsOn variantOutputData.manifestProcessorTask
} else {
renderscriptTask.dependsOn variantData.checkManifestTask
}
ProductFlavor mergedFlavor = config.mergedFlavor
boolean ndkMode = mergedFlavor.renderscriptNdkMode
variantData.resourceGenTask.dependsOn renderscriptTask
// only put this dependency if rs will generate Java code
if (!ndkMode) {
variantData.sourceGenTask.dependsOn renderscriptTask
}
renderscriptTask.dependsOn variantData.prepareDependenciesTask
renderscriptTask.plugin = this
renderscriptTask.conventionMapping.targetApi = {
int targetApi = mergedFlavor.renderscriptTargetApi
ApiVersion apiVersion = config.getMinSdkVersion()
if (apiVersion != null) {
int minSdk = apiVersion.apiLevel
if (apiVersion.codename != null) {
minSdk = SdkVersionInfo.getApiByBuildCode(apiVersion.codename, true)
}
return targetApi > minSdk ? targetApi : minSdk
}
return targetApi
}
renderscriptTask.supportMode = mergedFlavor.renderscriptSupportMode
renderscriptTask.ndkMode = ndkMode
renderscriptTask.debugBuild = config.buildType.renderscriptDebugBuild
renderscriptTask.optimLevel = config.buildType.renderscriptOptimLevel
renderscriptTask.conventionMapping.sourceDirs = { config.renderscriptSourceList }
renderscriptTask.conventionMapping.importDirs = { config.renderscriptImports }
renderscriptTask.conventionMapping.sourceOutputDir = {
project.file("$project.buildDir/${FD_GENERATED}/source/rs/${variantData.variantConfiguration.dirName}")
}
renderscriptTask.conventionMapping.resOutputDir = {
project.file("$project.buildDir/${FD_GENERATED}/res/rs/${variantData.variantConfiguration.dirName}")
}
renderscriptTask.conventionMapping.objOutputDir = {
project.file("$project.buildDir/${FD_INTERMEDIATES}/rs/${variantData.variantConfiguration.dirName}/obj")
}
renderscriptTask.conventionMapping.libOutputDir = {
project.file("$project.buildDir/${FD_INTERMEDIATES}/rs/${variantData.variantConfiguration.dirName}/lib")
}
renderscriptTask.conventionMapping.ndkConfig = { config.ndkConfig }
}
public void createMergeResourcesTask(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData,
final boolean process9Patch) {
MergeResources mergeResourcesTask = basicCreateMergeResourcesTask(
variantData,
"merge",
"$project.buildDir/${FD_INTERMEDIATES}/res/${variantData.variantConfiguration.dirName}",
true /*includeDependencies*/,
process9Patch)
variantData.mergeResourcesTask = mergeResourcesTask
}
public MergeResources basicCreateMergeResourcesTask(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData,
@NonNull String taskNamePrefix,
@NonNull String outputLocation,
final boolean includeDependencies,
final boolean process9Patch) {
MergeResources mergeResourcesTask = project.tasks.create(
"$taskNamePrefix${variantData.variantConfiguration.fullName.capitalize()}Resources",
MergeResources)
mergeResourcesTask.dependsOn variantData.prepareDependenciesTask, variantData.resourceGenTask
mergeResourcesTask.plugin = this
mergeResourcesTask.incrementalFolder = project.file(
"$project.buildDir/${FD_INTERMEDIATES}/incremental/${taskNamePrefix}Resources/${variantData.variantConfiguration.dirName}")
mergeResourcesTask.process9Patch = process9Patch
mergeResourcesTask.conventionMapping.useAaptCruncher = { extension.aaptOptions.useAaptPngCruncher }
mergeResourcesTask.conventionMapping.inputResourceSets = {
def generatedResFolders = [ variantData.renderscriptCompileTask.getResOutputDir(),
variantData.generateResValuesTask.getResOutputDir() ]
if (variantData.generateApkDataTask != null) {
generatedResFolders.add(variantData.generateApkDataTask.getResOutputDir())
}
variantData.variantConfiguration.getResourceSets(generatedResFolders,
includeDependencies)
}
mergeResourcesTask.conventionMapping.outputDir = { project.file(outputLocation) }
return mergeResourcesTask
}
public void createMergeAssetsTask(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData,
@Nullable String outputLocation,
final boolean includeDependencies) {
if (outputLocation == null) {
outputLocation = "$project.buildDir/${FD_INTERMEDIATES}/assets/${variantData.variantConfiguration.dirName}"
}
VariantConfiguration variantConfig = variantData.variantConfiguration
def mergeAssetsTask = project.tasks.create(
"merge${variantConfig.fullName.capitalize()}Assets",
MergeAssets)
variantData.mergeAssetsTask = mergeAssetsTask
mergeAssetsTask.dependsOn variantData.prepareDependenciesTask, variantData.assetGenTask
mergeAssetsTask.plugin = this
mergeAssetsTask.incrementalFolder =
project.file("$project.buildDir/${FD_INTERMEDIATES}/incremental/mergeAssets/${variantConfig.dirName}")
mergeAssetsTask.conventionMapping.inputAssetSets = {
def generatedAssets = []
if (variantData.copyApkTask != null) {
generatedAssets.add(variantData.copyApkTask.destinationDir)
}
variantConfig.getAssetSets(generatedAssets, includeDependencies)
}
mergeAssetsTask.conventionMapping.outputDir = { project.file(outputLocation) }
}
public void createBuildConfigTask(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData) {
def generateBuildConfigTask = project.tasks.create(
"generate${variantData.variantConfiguration.fullName.capitalize()}BuildConfig",
GenerateBuildConfig)
variantData.generateBuildConfigTask = generateBuildConfigTask
VariantConfiguration variantConfiguration = variantData.variantConfiguration
variantData.sourceGenTask.dependsOn generateBuildConfigTask
if (variantConfiguration.type == TEST) {
// in case of a test project, the manifest is generated so we need to depend
// on its creation.
// For test apps there should be a single output, so we get it.
BaseVariantOutputData variantOutputData = variantData.outputs.get(0)
generateBuildConfigTask.dependsOn variantOutputData.manifestProcessorTask
} else {
generateBuildConfigTask.dependsOn variantData.checkManifestTask
}
generateBuildConfigTask.plugin = this
generateBuildConfigTask.conventionMapping.buildConfigPackageName = {
variantConfiguration.originalApplicationId
}
generateBuildConfigTask.conventionMapping.appPackageName = {
variantConfiguration.applicationId
}
generateBuildConfigTask.conventionMapping.versionName = {
variantConfiguration.versionName
}
generateBuildConfigTask.conventionMapping.versionCode = {
variantConfiguration.versionCode
}
generateBuildConfigTask.conventionMapping.debuggable = {
variantConfiguration.buildType.isDebuggable()
}
generateBuildConfigTask.conventionMapping.buildTypeName = {
variantConfiguration.buildType.name
}
generateBuildConfigTask.conventionMapping.flavorName = {
variantConfiguration.flavorName
}
generateBuildConfigTask.conventionMapping.flavorNamesWithDimensionNames = {
variantConfiguration.flavorNamesWithDimensionNames
}
generateBuildConfigTask.conventionMapping.items = {
variantConfiguration.buildConfigItems
}
generateBuildConfigTask.conventionMapping.sourceOutputDir = {
project.file("$project.buildDir/${FD_GENERATED}/source/buildConfig/${variantData.variantConfiguration.dirName}")
}
}
public void createGenerateResValuesTask(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData) {
GenerateResValues generateResValuesTask = project.tasks.create(
"generate${variantData.variantConfiguration.fullName.capitalize()}ResValues",
GenerateResValues)
variantData.generateResValuesTask = generateResValuesTask
variantData.resourceGenTask.dependsOn generateResValuesTask
VariantConfiguration variantConfiguration = variantData.variantConfiguration
generateResValuesTask.plugin = this
generateResValuesTask.conventionMapping.items = {
variantConfiguration.resValues
}
generateResValuesTask.conventionMapping.resOutputDir = {
project.file("$project.buildDir/${FD_GENERATED}/res/generated/${variantData.variantConfiguration.dirName}")
}
}
public void createProcessResTask(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData,
boolean generateResourcePackage) {
createProcessResTask(variantData,
"$project.buildDir/${FD_INTERMEDIATES}/symbols/${variantData.variantConfiguration.dirName}",
generateResourcePackage)
}
public void createProcessResTask(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData,
@NonNull final String symbolLocation,
boolean generateResourcePackage) {
VariantConfiguration config = variantData.variantConfiguration
// loop on all outputs. The only difference will be the name of the task, and location
// of the generated data.
for (BaseVariantOutputData vod : variantData.outputs) {
// create final var inside the loop to ensure the closures will work.
final BaseVariantOutputData variantOutputData = vod
String outputName = variantOutputData.fullName.capitalize()
String outputBaseName = variantOutputData.baseName
ProcessAndroidResources processResources = project.tasks.create(
"process${outputName}Resources",
ProcessAndroidResources)
variantOutputData.processResourcesTask = processResources
processResources.dependsOn variantOutputData.manifestProcessorTask,
variantData.mergeResourcesTask, variantData.mergeAssetsTask
processResources.plugin = this
// only generate code if the density filter is null, and if we haven't generated
// it yet (if you have abi + density splits, then several abi output will have no
// densityFilter)
if (variantOutputData.densityFilter == null && variantData.generateRClassTask == null) {
variantData.generateRClassTask = processResources
variantData.sourceGenTask.dependsOn processResources
processResources.enforceUniquePackageName = extension.getEnforceUniquePackageName()
processResources.conventionMapping.libraries = {
getTextSymbolDependencies(config.allLibraries)
}
processResources.conventionMapping.packageForR = {
config.originalApplicationId
}
// TODO: unify with generateBuilderConfig, compileAidl, and library packaging somehow?
processResources.conventionMapping.sourceOutputDir = {
project.file(
"$project.buildDir/${FD_GENERATED}/source/r/${config.dirName}")
}
processResources.conventionMapping.textSymbolOutputDir = {
project.file(symbolLocation)
}
if (config.buildType.runProguard) {
processResources.conventionMapping.proguardOutputFile = {
project.file(
"$project.buildDir/${FD_INTERMEDIATES}/proguard/${config.dirName}/aapt_rules.txt")
}
}
}
processResources.conventionMapping.manifestFile = {
variantOutputData.manifestProcessorTask.manifestOutputFile
}
processResources.conventionMapping.resDir = {
variantData.mergeResourcesTask.outputDir
}
processResources.conventionMapping.assetsDir = {
variantData.mergeAssetsTask.outputDir
}
if (generateResourcePackage) {
processResources.conventionMapping.packageOutputFile = {
project.file(
"$project.buildDir/${FD_INTERMEDIATES}/res/resources-${outputBaseName}.ap_")
}
}
processResources.conventionMapping.type = { config.type }
processResources.conventionMapping.debuggable =
{ config.buildType.debuggable }
processResources.conventionMapping.aaptOptions = { extension.aaptOptions }
processResources.conventionMapping.resourceConfigs = {
if (variantOutputData.densityFilter == null) {
return config.mergedFlavor.resourceConfigurations
}
Collection<String> list = config.mergedFlavor.resourceConfigurations
List<String> resConfigs = Lists.newArrayListWithCapacity(list.size() + 1)
resConfigs.addAll(list)
resConfigs.add(variantOutputData.densityFilter)
// when adding a density filter, also always add the nodpi option.
resConfigs.add(Density.NODPI.resourceValue)
return resConfigs
}
}
}
public void createProcessJavaResTask(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData) {
VariantConfiguration variantConfiguration = variantData.variantConfiguration
Copy processResources = project.tasks.create(
"process${variantData.variantConfiguration.fullName.capitalize()}JavaRes",
ProcessResources);
variantData.processJavaResourcesTask = processResources
// set the input
processResources.from(((AndroidSourceSet) variantConfiguration.defaultSourceSet).resources.getSourceFiles())
if (variantConfiguration.type != TEST) {
processResources.from(
((AndroidSourceSet) variantConfiguration.buildTypeSourceSet).resources.getSourceFiles())
}
if (variantConfiguration.hasFlavors()) {
for (SourceProvider flavorSourceSet : variantConfiguration.flavorSourceProviders) {
processResources.from(((AndroidSourceSet) flavorSourceSet).resources.getSourceFiles())
}
}
processResources.conventionMapping.destinationDir = {
project.file("$project.buildDir/${FD_INTERMEDIATES}/javaResources/${variantData.variantConfiguration.dirName}")
}
}
public void createAidlTask(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData,
@Nullable File parcelableDir) {
VariantConfiguration variantConfiguration = variantData.variantConfiguration
def compileTask = project.tasks.create(
"compile${variantData.variantConfiguration.fullName.capitalize()}Aidl",
AidlCompile)
variantData.aidlCompileTask = compileTask
variantData.sourceGenTask.dependsOn compileTask
variantData.aidlCompileTask.dependsOn variantData.prepareDependenciesTask
compileTask.plugin = this
compileTask.incrementalFolder =
project.file("$project.buildDir/${FD_INTERMEDIATES}/incremental/aidl/${variantData.variantConfiguration.dirName}")
compileTask.conventionMapping.sourceDirs = { variantConfiguration.aidlSourceList }
compileTask.conventionMapping.importDirs = { variantConfiguration.aidlImports }
compileTask.conventionMapping.sourceOutputDir = {
project.file("$project.buildDir/${FD_GENERATED}/source/aidl/${variantData.variantConfiguration.dirName}")
}
compileTask.aidlParcelableDir = parcelableDir
}
public void createCompileTask(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData,
@Nullable BaseVariantData<? extends BaseVariantOutputData> testedVariantData) {
def compileTask = project.tasks.create(
"compile${variantData.variantConfiguration.fullName.capitalize()}Java",
JavaCompile)
variantData.javaCompileTask = compileTask
variantData.javaCompileTask.dependsOn variantData.sourceGenTask
variantData.compileTask.dependsOn variantData.javaCompileTask
compileTask.source = variantData.getJavaSources()
VariantConfiguration config = variantData.variantConfiguration
// if the tested variant is an app, add its classpath. For the libraries,
// it's done automatically since the classpath includes the library output as a normal
// dependency.
if (testedVariantData instanceof ApplicationVariantData) {
compileTask.conventionMapping.classpath = {
project.files(androidBuilder.getCompileClasspath(config)) + testedVariantData.javaCompileTask.classpath + testedVariantData.javaCompileTask.outputs.files
}
} else {
compileTask.conventionMapping.classpath = {
project.files(androidBuilder.getCompileClasspath(config))
}
}
// TODO - dependency information for the compile classpath is being lost.
// Add a temporary approximation
compileTask.dependsOn variantData.variantDependency.compileConfiguration.buildDependencies
compileTask.conventionMapping.destinationDir = {
project.file("$project.buildDir/${FD_INTERMEDIATES}/classes/${variantData.variantConfiguration.dirName}")
}
compileTask.conventionMapping.dependencyCacheDir = {
project.file("$project.buildDir/${FD_INTERMEDIATES}/dependency-cache/${variantData.variantConfiguration.dirName}")
}
// set source/target compatibility
compileTask.conventionMapping.sourceCompatibility = {
extension.compileOptions.sourceCompatibility.toString()
}
compileTask.conventionMapping.targetCompatibility = {
extension.compileOptions.targetCompatibility.toString()
}
compileTask.options.encoding = extension.compileOptions.encoding
// setup the boot classpath just before the task actually runs since this will
// force the sdk to be parsed.
compileTask.doFirst {
compileTask.options.bootClasspath = androidBuilder.getBootClasspath().join(File.pathSeparator)
}
}
public void createGenerateMicroApkDataTask(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData,
@NonNull Configuration config) {
GenerateApkDataTask task = project.tasks.create(
"handle${variantData.variantConfiguration.fullName.capitalize()}MicroApk",
GenerateApkDataTask)
variantData.generateApkDataTask = task
task.plugin = this
task.conventionMapping.resOutputDir = {
project.file("$project.buildDir/${FD_GENERATED}/res/microapk/${variantData.variantConfiguration.dirName}")
}
task.conventionMapping.apkFile = {
// only care about the first one. There shouldn't be more anyway.
config.getFiles().iterator().next()
}
task.conventionMapping.manifestFile = {
project.file("$project.buildDir/${FD_INTERMEDIATES}/${FD_GENERATED}/manifests/microapk/${variantData.variantConfiguration.dirName}/${FN_ANDROID_MANIFEST_XML}")
}
task.conventionMapping.mainPkgName = {
variantData.variantConfiguration.getApplicationId()
}
task.dependsOn config
// the merge res task will need to run after this one.
variantData.resourceGenTask.dependsOn task
}
public void createNdkTasks(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData) {
NdkCompile ndkCompile = project.tasks.create(
"compile${variantData.variantConfiguration.fullName.capitalize()}Ndk",
NdkCompile)
ndkCompile.dependsOn mainPreBuild
ndkCompile.plugin = this
variantData.ndkCompileTask = ndkCompile
variantData.compileTask.dependsOn variantData.ndkCompileTask
VariantConfiguration variantConfig = variantData.variantConfiguration
if (variantConfig.mergedFlavor.renderscriptNdkMode) {
ndkCompile.ndkRenderScriptMode = true
ndkCompile.dependsOn variantData.renderscriptCompileTask
} else {
ndkCompile.ndkRenderScriptMode = false
}
ndkCompile.conventionMapping.sourceFolders = {
List<File> sourceList = variantConfig.jniSourceList
if (variantConfig.mergedFlavor.renderscriptNdkMode) {
sourceList.add(variantData.renderscriptCompileTask.sourceOutputDir)
}
return sourceList
}
ndkCompile.conventionMapping.generatedMakefile = {
project.file("$project.buildDir/${FD_INTERMEDIATES}/ndk/${variantData.variantConfiguration.dirName}/Android.mk")
}
ndkCompile.conventionMapping.ndkConfig = { variantConfig.ndkConfig }
ndkCompile.conventionMapping.debuggable = {
variantConfig.buildType.jniDebugBuild
}
ndkCompile.conventionMapping.objFolder = {
project.file("$project.buildDir/${FD_INTERMEDIATES}/ndk/${variantData.variantConfiguration.dirName}/obj")
}
ndkCompile.conventionMapping.soFolder = {
project.file("$project.buildDir/${FD_INTERMEDIATES}/ndk/${variantData.variantConfiguration.dirName}/lib")
}
}
/**
* Creates the tasks to build the test apk.
*
* @param variant the test variant
* @param testedVariant the tested variant
* @param configDependencies the list of config dependencies
*/
public void createTestApkTasks(
@NonNull TestVariantData variantData,
@NonNull BaseVariantData<? extends BaseVariantOutputData> testedVariantData) {
// get single output for now (though this may always be the case for tests).
BaseVariantOutputData variantOutputData = variantData.outputs.get(0)
BaseVariantOutputData testedVariantOutputData = testedVariantData.outputs.get(0)
createAnchorTasks(variantData)
// Add a task to process the manifest
createProcessTestManifestTask(variantData, "manifests")
// Add a task to create the res values
createGenerateResValuesTask(variantData)
// Add a task to compile renderscript files.
createRenderscriptTask(variantData)
// Add a task to merge the resource folders
createMergeResourcesTask(variantData, true /*process9Patch*/)
// Add a task to merge the assets folders
createMergeAssetsTask(variantData, null /*default location*/, true /*includeDependencies*/)
if (testedVariantData.variantConfiguration.type == VariantConfiguration.Type.LIBRARY) {
// in this case the tested library must be fully built before test can be built!
if (testedVariantOutputData.assembleTask != null) {
variantOutputData.manifestProcessorTask.dependsOn testedVariantOutputData.assembleTask
variantData.mergeResourcesTask.dependsOn testedVariantOutputData.assembleTask
}
}
// Add a task to create the BuildConfig class
createBuildConfigTask(variantData)
// Add a task to generate resource source files
createProcessResTask(variantData, true /*generateResourcePackage*/)
// process java resources
createProcessJavaResTask(variantData)
createAidlTask(variantData, null /*parcelableDir*/)
// Add a task to compile the test application
createCompileTask(variantData, testedVariantData)
// Add NDK tasks
if (!extension.getUseNewNativePlugin()) {
createNdkTasks(variantData)
}
addPackageTasks(variantData, null, false /*publishApk*/)
if (assembleTest != null) {
assembleTest.dependsOn variantOutputData.assembleTask
}
}
// TODO - should compile src/lint/java from src/lint/java and jar it into build/lint/lint.jar
public void createLintCompileTask() {
lintCompile = project.tasks.create("compileLint", Task)
File outputDir = new File("$project.buildDir/${FD_INTERMEDIATES}/lint")
lintCompile.doFirst{
// create the directory for lint output if it does not exist.
if (!outputDir.exists()) {
boolean mkdirs = outputDir.mkdirs();
if (!mkdirs) {
throw new GradleException("Unable to create lint output directory.")
}
}
}
}
/** Is the given variant relevant for lint? */
private static boolean isLintVariant(
@NonNull BaseVariantData<? extends BaseVariantOutputData> baseVariantData) {
// Only create lint targets for variants like debug and release, not debugTest
VariantConfiguration config = baseVariantData.variantConfiguration
return config.getType() != TEST;
}
// Add tasks for running lint on individual variants. We've already added a
// lint task earlier which runs on all variants.
public void createLintTasks() {
Lint lint = project.tasks.create("lint", Lint)
lint.description = "Runs lint on all variants."
lint.group = JavaBasePlugin.VERIFICATION_GROUP
lint.setPlugin(this)
project.tasks.check.dependsOn lint
lintAll = lint
int count = variantDataList.size()
for (int i = 0 ; i < count ; i++) {
final BaseVariantData<? extends BaseVariantOutputData> baseVariantData = variantDataList.get(i)
if (!isLintVariant(baseVariantData)) {
continue;
}
// wire the main lint task dependency.
lint.dependsOn baseVariantData.javaCompileTask, lintCompile
String variantName = baseVariantData.variantConfiguration.fullName
def capitalizedVariantName = variantName.capitalize()
Lint variantLintCheck = project.tasks.create("lint" + capitalizedVariantName, Lint)
variantLintCheck.dependsOn baseVariantData.javaCompileTask, lintCompile
// Note that we don't do "lint.dependsOn lintCheck"; the "lint" target will
// on its own run through all variants (and compare results), it doesn't delegate
// to the individual tasks (since it needs to coordinate data collection and
// reporting)
variantLintCheck.setPlugin(this)
variantLintCheck.setVariantName(variantName)
variantLintCheck.description = "Runs lint on the " + capitalizedVariantName + " build"
variantLintCheck.group = JavaBasePlugin.VERIFICATION_GROUP
}
}
private void createLintVitalTask(@NonNull ApkVariantData variantData) {
assert extension.lintOptions.checkReleaseBuilds
if (!variantData.variantConfiguration.buildType.debuggable) {
String variantName = variantData.variantConfiguration.fullName
def capitalizedVariantName = variantName.capitalize()
def taskName = "lintVital" + capitalizedVariantName
Lint lintReleaseCheck = project.tasks.create(taskName, Lint)
// TODO: Make this task depend on lintCompile too (resolve initialization order first)
lintReleaseCheck.dependsOn variantData.javaCompileTask
lintReleaseCheck.setPlugin(this)
lintReleaseCheck.setVariantName(variantName)
lintReleaseCheck.setFatalOnly(true)
lintReleaseCheck.description = "Runs lint on just the fatal issues in the " +
capitalizedVariantName + " build"
variantData.assembleVariantTask.dependsOn lintReleaseCheck
lintVital = lintReleaseCheck
}
}
public void createCheckTasks(boolean hasFlavors, boolean isLibraryTest) {
List<AndroidReportTask> reportTasks = Lists.newArrayListWithExpectedSize(2)
List<DeviceProvider> providers = extension.deviceProviders
List<TestServer> servers = extension.testServers
Task mainConnectedTask = connectedCheck
String connectedRootName = "${CONNECTED}${ANDROID_TEST.capitalize()}"
// if more than one flavor, create a report aggregator task and make this the parent
// task for all new connected tasks.
if (hasFlavors) {
mainConnectedTask = project.tasks.create(connectedRootName, AndroidReportTask)
mainConnectedTask.group = JavaBasePlugin.VERIFICATION_GROUP
mainConnectedTask.description = "Installs and runs instrumentation tests for all flavors on connected devices."
mainConnectedTask.reportType = ReportType.MULTI_FLAVOR
connectedCheck.dependsOn mainConnectedTask
mainConnectedTask.conventionMapping.resultsDir = {
String rootLocation = extension.testOptions.resultsDir != null ?
extension.testOptions.resultsDir : "$project.buildDir/${FD_OUTPUTS}/$FD_ANDROID_RESULTS"
project.file("$rootLocation/connected/$FD_FLAVORS_ALL")
}
mainConnectedTask.conventionMapping.reportsDir = {
String rootLocation = extension.testOptions.reportDir != null ?
extension.testOptions.reportDir :
"$project.buildDir/${FD_OUTPUTS}/$FD_REPORTS/$FD_ANDROID_TESTS"
project.file("$rootLocation/connected/$FD_FLAVORS_ALL")
}
reportTasks.add(mainConnectedTask)
}
Task mainProviderTask = deviceCheck
// if more than one provider tasks, either because of several flavors, or because of
// more than one providers, then create an aggregate report tasks for all of them.
if (providers.size() > 1 || hasFlavors) {
mainProviderTask = project.tasks.create("${DEVICE}${ANDROID_TEST.capitalize()}",
AndroidReportTask)
mainProviderTask.group = JavaBasePlugin.VERIFICATION_GROUP
mainProviderTask.description = "Installs and runs instrumentation tests using all Device Providers."
mainProviderTask.reportType = ReportType.MULTI_FLAVOR
deviceCheck.dependsOn mainProviderTask
mainProviderTask.conventionMapping.resultsDir = {
String rootLocation = extension.testOptions.resultsDir != null ?
extension.testOptions.resultsDir : "$project.buildDir/${FD_OUTPUTS}/$FD_ANDROID_RESULTS"
project.file("$rootLocation/devices/$FD_FLAVORS_ALL")
}
mainProviderTask.conventionMapping.reportsDir = {
String rootLocation = extension.testOptions.reportDir != null ?
extension.testOptions.reportDir :
"$project.buildDir/${FD_OUTPUTS}/$FD_REPORTS/$FD_ANDROID_TESTS"
project.file("$rootLocation/devices/$FD_FLAVORS_ALL")
}
reportTasks.add(mainProviderTask)
}
// now look for the testedvariant and create the check tasks for them.
// don't use an auto loop as we can't reuse baseVariantData or the closure lower
// gets broken.
int count = variantDataList.size();
for (int i = 0 ; i < count ; i++) {
final BaseVariantData<? extends BaseVariantOutputData> baseVariantData = variantDataList.get(i);
if (baseVariantData instanceof TestedVariantData) {
final TestVariantData testVariantData = ((TestedVariantData) baseVariantData).testVariantData
if (testVariantData == null) {
continue
}
// get single output for now
BaseVariantOutputData variantOutputData = baseVariantData.outputs.get(0)
BaseVariantOutputData testVariantOutputData = testVariantData.outputs.get(0)
// create the check tasks for this test
// first the connected one.
def connectedTask = createDeviceProviderInstrumentTestTask(
hasFlavors ?
"${connectedRootName}${baseVariantData.variantConfiguration.fullName.capitalize()}" : connectedRootName,
"Installs and runs the tests for Build '${baseVariantData.variantConfiguration.fullName}' on connected devices.",
isLibraryTest ?
DeviceProviderInstrumentTestLibraryTask :
DeviceProviderInstrumentTestTask,
testVariantData,
baseVariantData,
new ConnectedDeviceProvider(getSdkInfo().adb),
CONNECTED
)
mainConnectedTask.dependsOn connectedTask
testVariantData.connectedTestTask = connectedTask
if (baseVariantData.variantConfiguration.buildType.isTestCoverageEnabled()) {
def reportTask = project.tasks.create(
"create${baseVariantData.variantConfiguration.fullName.capitalize()}CoverageReport",
JacocoReportTask)
reportTask.reportName = baseVariantData.variantConfiguration.fullName
reportTask.conventionMapping.jacocoClasspath = {
project.configurations[JacocoPlugin.ANT_CONFIGURATION_NAME]
}
reportTask.conventionMapping.coverageFile = {
new File(connectedTask.getCoverageDir(), SimpleTestCallable.FILE_COVERAGE_EC)
}
reportTask.conventionMapping.classDir = {
baseVariantData.javaCompileTask.destinationDir
}
reportTask.conventionMapping.sourceDir = { baseVariantData.getJavaSourceFoldersForCoverage() }
reportTask.conventionMapping.reportDir = {
String rootLocation = extension.testOptions.reportDir != null ?
extension.testOptions.reportDir :
"$project.buildDir/${FD_OUTPUTS}/$FD_REPORTS/$FD_ANDROID_TESTS"
project.file(
"$project.buildDir/${FD_OUTPUTS}/$FD_REPORTS/coverage/${baseVariantData.variantConfiguration.dirName}")
}
reportTask.dependsOn connectedTask
mainConnectedTask.dependsOn reportTask
}
// now the providers.
for (DeviceProvider deviceProvider : providers) {
DefaultTask providerTask = createDeviceProviderInstrumentTestTask(
hasFlavors ?
"${deviceProvider.name}${ANDROID_TEST.capitalize()}${baseVariantData.variantConfiguration.fullName.capitalize()}" :
"${deviceProvider.name}${ANDROID_TEST.capitalize()}",
"Installs and runs the tests for Build '${baseVariantData.variantConfiguration.fullName}' using Provider '${deviceProvider.name.capitalize()}'.",
isLibraryTest ?
DeviceProviderInstrumentTestLibraryTask :
DeviceProviderInstrumentTestTask,
testVariantData,
baseVariantData,
deviceProvider,
"$DEVICE/$deviceProvider.name"
)
mainProviderTask.dependsOn providerTask
testVariantData.providerTestTaskList.add(providerTask)
if (!deviceProvider.isConfigured()) {
providerTask.enabled = false;
}
}
// now the test servers
// don't use an auto loop as it'll break the closure inside.
for (TestServer testServer : servers) {
DefaultTask serverTask = project.tasks.create(
hasFlavors ?
"${testServer.name}${"upload".capitalize()}${baseVariantData.variantConfiguration.fullName}" :
"${testServer.name}${"upload".capitalize()}",
TestServerTask)
serverTask.description = "Uploads APKs for Build '${baseVariantData.variantConfiguration.fullName}' to Test Server '${testServer.name.capitalize()}'."
serverTask.group = JavaBasePlugin.VERIFICATION_GROUP
serverTask.dependsOn testVariantOutputData.assembleTask, variantOutputData.assembleTask
serverTask.testServer = testServer
serverTask.conventionMapping.testApk = { testVariantOutputData.outputFile }
if (!(baseVariantData instanceof LibraryVariantData)) {
serverTask.conventionMapping.testedApk = { variantOutputData.outputFile }
}
serverTask.conventionMapping.variantName = { baseVariantData.variantConfiguration.fullName }
deviceCheck.dependsOn serverTask
if (!testServer.isConfigured()) {
serverTask.enabled = false;
}
}
}
}
// If gradle is launched with --continue, we want to run all tests and generate an
// aggregate report (to help with the fact that we may have several build variants, or
// or several device providers).
// To do that, the report tasks must run even if one of their dependent tasks (flavor
// or specific provider tasks) fails, when --continue is used, and the report task is
// meant to run (== is in the task graph).
// To do this, we make the children tasks ignore their errors (ie they won't fail and
// stop the build).
if (!reportTasks.isEmpty() && project.gradle.startParameter.continueOnFailure) {
project.gradle.taskGraph.whenReady { taskGraph ->
for (AndroidReportTask reportTask : reportTasks) {
if (taskGraph.hasTask(reportTask)) {
reportTask.setWillRun()
}
}
}
}
}
private DeviceProviderInstrumentTestTask createDeviceProviderInstrumentTestTask(
@NonNull String taskName,
@NonNull String description,
@NonNull Class<? extends DeviceProviderInstrumentTestTask> taskClass,
@NonNull TestVariantData testVariantData,
@NonNull BaseVariantData<? extends BaseVariantOutputData> testedVariantData,
@NonNull DeviceProvider deviceProvider,
@NonNull String subFolder) {
// get single output for now for the test.
BaseVariantOutputData testVariantOutputData = testVariantData.outputs.get(0)
def testTask = project.tasks.create(taskName, taskClass)
testTask.description = description
testTask.group = JavaBasePlugin.VERIFICATION_GROUP
testTask.dependsOn testVariantOutputData.assembleTask, testedVariantData.assembleVariantTask
testTask.plugin = this
testTask.testVariantData = testVariantData
testTask.flavorName = testVariantData.variantConfiguration.flavorName.capitalize()
testTask.deviceProvider = deviceProvider
testTask.conventionMapping.resultsDir = {
String rootLocation = extension.testOptions.resultsDir != null ?
extension.testOptions.resultsDir :
"$project.buildDir/${FD_OUTPUTS}/$FD_ANDROID_RESULTS"
String flavorFolder = testVariantData.variantConfiguration.flavorName
if (!flavorFolder.isEmpty()) {
flavorFolder = "$FD_FLAVORS/" + flavorFolder
}
project.file("$rootLocation/$subFolder/$flavorFolder")
}
testTask.conventionMapping.reportsDir = {
String rootLocation = extension.testOptions.reportDir != null ?
extension.testOptions.reportDir :
"$project.buildDir/${FD_OUTPUTS}/$FD_REPORTS/$FD_ANDROID_TESTS"
String flavorFolder = testVariantData.variantConfiguration.flavorName
if (!flavorFolder.isEmpty()) {
flavorFolder = "$FD_FLAVORS/" + flavorFolder
}
project.file("$rootLocation/$subFolder/$flavorFolder")
}
testTask.conventionMapping.coverageDir = {
String rootLocation = "$project.buildDir/${FD_OUTPUTS}/code-coverage"
String flavorFolder = testVariantData.variantConfiguration.flavorName
if (!flavorFolder.isEmpty()) {
flavorFolder = "$FD_FLAVORS/" + flavorFolder
}
project.file("$rootLocation/$subFolder/$flavorFolder")
}
return testTask
}
/**
* Creates the packaging tasks for the given Variant.
* @param variantData the variant data.
* @param assembleTask an optional assembleTask to be used. If null a new one is created. The
* assembleTask is always set in the Variant.
* @param publishApk if true the generated APK gets published.
*/
public void addPackageTasks(
@NonNull ApkVariantData variantData,
@Nullable Task assembleTask,
boolean publishApk) {
VariantConfiguration config = variantData.variantConfiguration
boolean runProguard = config.buildType.runProguard &&
(config.type != TEST ||
(config.type == TEST &&
config.testedConfig.type != VariantConfiguration.Type.LIBRARY))
boolean runInstrumentation = config.buildType.isTestCoverageEnabled() &&
config.type != TEST
// common dex task configuration
String dexTaskName = "dex${config.fullName.capitalize()}"
Dex dexTask = project.tasks.create(dexTaskName, Dex)
variantData.dexTask = dexTask
dexTask.plugin = this
dexTask.conventionMapping.outputFolder = {
project.file("${project.buildDir}/${FD_INTERMEDIATES}/dex/${config.dirName}")
}
dexTask.dexOptions = extension.dexOptions
if (runProguard) {
// first proguard task.
BaseVariantData<? extends BaseVariantOutputData> testedVariantData = variantData instanceof TestVariantData ? variantData.testedVariantData : null as BaseVariantData
File outFile = createProguardTasks(variantData, testedVariantData)
// then dexing task
dexTask.dependsOn variantData.obfuscationTask
dexTask.conventionMapping.inputFiles = { project.files(outFile).files }
dexTask.conventionMapping.libraries = { Collections.emptyList() }
} else {
JacocoInstrumentTask jacocoTask = null
Copy agentTask = null
if (runInstrumentation) {
jacocoTask = project.tasks.create(
"instrument${config.fullName.capitalize()}", JacocoInstrumentTask)
jacocoTask.dependsOn variantData.javaCompileTask
jacocoTask.conventionMapping.jacocoClasspath = { project.configurations[JacocoPlugin.ANT_CONFIGURATION_NAME] }
jacocoTask.conventionMapping.inputDir = { variantData.javaCompileTask.destinationDir }
jacocoTask.conventionMapping.outputDir = {
project.file("${project.buildDir}/${FD_INTERMEDIATES}/coverage-instrumented-classes/${config.dirName}")
}
dexTask.dependsOn jacocoTask
agentTask = getJacocoAgentTask()
}
// if required, pre-dexing task.
PreDex preDexTask = null;
boolean runPreDex = extension.dexOptions.preDexLibraries
if (runPreDex) {
def preDexTaskName = "preDex${variantData.variantConfiguration.fullName.capitalize()}"
preDexTask = project.tasks.create(preDexTaskName, PreDex)
preDexTask.dependsOn variantData.variantDependency.packageConfiguration.buildDependencies
preDexTask.plugin = this
preDexTask.dexOptions = extension.dexOptions
preDexTask.conventionMapping.inputFiles = {
Set<File> set = androidBuilder.getPackagedJars(config)
if (jacocoTask != null) {
set.add(new File(agentTask.destinationDir, FILE_JACOCO_AGENT))
}
return set
}
preDexTask.conventionMapping.outputFolder = {
project.file(
"${project.buildDir}/${FD_INTERMEDIATES}/pre-dexed/${variantData.variantConfiguration.dirName}")
}
if (agentTask != null) {
preDexTask.dependsOn agentTask
}
}
// then dexing task
dexTask.dependsOn variantData.javaCompileTask
if (runPreDex) {
dexTask.dependsOn preDexTask
} else {
dexTask.dependsOn variantData.variantDependency.packageConfiguration.buildDependencies
}
dexTask.conventionMapping.inputFiles = {
if (jacocoTask != null) {
return project.files(jacocoTask.getOutputDir()).files
}
variantData.javaCompileTask.outputs.files.files
}
if (runPreDex) {
dexTask.conventionMapping.libraries = {
return project.fileTree(preDexTask.outputFolder).files
}
} else {
dexTask.conventionMapping.libraries = {
Set<File> set = androidBuilder.getPackagedJars(config)
if (jacocoTask != null) {
set.add(project.file("$project.buildDir/${FD_INTERMEDIATES}/jacoco/jacocoagent.jar"))
}
return set
}
if (agentTask != null) {
dexTask.dependsOn agentTask
}
}
}
boolean signedApk = variantData.isSigned()
String projectBaseName = project.archivesBaseName
String defaultLocation = "$project.buildDir/${FD_OUTPUTS}/apk"
String apkLocation = defaultLocation
if (project.hasProperty(PROPERTY_APK_LOCATION)) {
apkLocation = project.getProperties().get(PROPERTY_APK_LOCATION)
}
SigningConfigDsl sc = (SigningConfigDsl) config.signingConfig
boolean multiOutput = variantData.outputs.size() > 1
// loop on all outputs. The only difference will be the name of the task, and location
// of the generated data.
for (ApkVariantOutputData vod : variantData.outputs) {
// create final var inside the loop to ensure the closures will work.
final ApkVariantOutputData variantOutputData = vod
String outputName = variantOutputData.fullName
String outputBaseName = variantOutputData.baseName
// Add a task to generate application package
PackageApplication packageApp = project.tasks.create("package${outputName.capitalize()}",
PackageApplication)
variantOutputData.packageApplicationTask = packageApp
packageApp.dependsOn variantOutputData.processResourcesTask, dexTask,
variantData.processJavaResourcesTask
// Add dependencies on NDK tasks if NDK plugin is applied.
if (extension.getUseNewNativePlugin()) {
NdkPlugin ndkPlugin = project.plugins.getPlugin(NdkPlugin.class)
packageApp.dependsOn ndkPlugin.getBinaries(config)
} else {
packageApp.dependsOn variantData.ndkCompileTask
}
if (extension.ndkLib != null) {
packageApp.dependsOn extension.ndkLib.getBinaries(config)
}
packageApp.plugin = this
packageApp.conventionMapping.resourceFile = {
variantOutputData.processResourcesTask.packageOutputFile
}
packageApp.conventionMapping.dexFolder = { dexTask.outputFolder }
packageApp.conventionMapping.packagedJars =
{ androidBuilder.getPackagedJars(config) }
packageApp.conventionMapping.javaResourceDir = {
getOptionalDir(variantData.processJavaResourcesTask.destinationDir)
}
packageApp.conventionMapping.jniFolders = {
// for now only the project's compilation output.
Set<File> set = Sets.newHashSet()
if (extension.getUseNewNativePlugin()) {
NdkPlugin ndkPlugin = project.plugins.getPlugin(NdkPlugin.class)
set.addAll(ndkPlugin.getOutputDirectories(config))
} else {
set.addAll(variantData.ndkCompileTask.soFolder)
}
set.addAll(variantData.renderscriptCompileTask.libOutputDir)
set.addAll(config.libraryJniFolders)
set.addAll(config.jniLibsList)
if (extension.ndkLib != null) {
set.addAll(extension.ndkLib.getOutputDirectories(config))
}
if (config.mergedFlavor.renderscriptSupportMode) {
File rsLibs = androidBuilder.getSupportNativeLibFolder()
if (rsLibs != null && rsLibs.isDirectory()) {
set.add(rsLibs);
}
}
return set
}
packageApp.conventionMapping.abiFilters = {
if (variantOutputData.abiFilter != null) {
return ImmutableSet.of(variantOutputData.abiFilter)
}
return config.supportedAbis
}
packageApp.conventionMapping.jniDebugBuild = { config.buildType.jniDebugBuild }
packageApp.conventionMapping.signingConfig = { sc }
if (sc != null) {
ValidateSigningTask validateSigningTask = validateSigningTaskMap.get(sc)
if (validateSigningTask == null) {
validateSigningTask =
project.tasks.create("validate${sc.name.capitalize()}Signing",
ValidateSigningTask)
validateSigningTask.plugin = this
validateSigningTask.signingConfig = sc
validateSigningTaskMap.put(sc, validateSigningTask)
}
packageApp.dependsOn validateSigningTask
}
String apkName = signedApk ?
"$projectBaseName-${outputBaseName}-unaligned.apk" :
"$projectBaseName-${outputBaseName}-unsigned.apk"
packageApp.conventionMapping.packagingOptions = { extension.packagingOptions }
packageApp.conventionMapping.outputFile = {
// if this is the final task then the location is
// the potentially overriden one.
if (!signedApk || !variantData.zipAlign) {
project.file("$apkLocation/${apkName}")
} else {
// otherwise default one.
project.file("$defaultLocation/${apkName}")
}
}
Task appTask = packageApp
OutputFileTask outputFileTask = packageApp
if (signedApk) {
if (variantData.zipAlign) {
// Add a task to zip align application package
def zipAlignTask = project.tasks.create(
"zipalign${outputName.capitalize()}",
ZipAlign)
variantOutputData.zipAlignTask = zipAlignTask
zipAlignTask.dependsOn packageApp
zipAlignTask.conventionMapping.inputFile = { packageApp.outputFile }
zipAlignTask.conventionMapping.outputFile = {
project.file(
"$apkLocation/$projectBaseName-${outputBaseName}.apk")
}
zipAlignTask.conventionMapping.zipAlignExe = {
String path = androidBuilder.targetInfo?.buildTools?.getPath(ZIP_ALIGN)
if (path != null) {
return new File(path)
}
return null
}
appTask = zipAlignTask
outputFileTask = zipAlignTask
}
}
// Add an assemble task
if (multiOutput) {
// create a task for this output
variantOutputData.assembleTask = createAssembleTask(variantOutputData)
// figure out the variant assemble task if it's not present yet.
if (variantData.assembleVariantTask == null) {
if (assembleTask != null) {
variantData.assembleVariantTask = assembleTask
} else {
variantData.assembleVariantTask = createAssembleTask(variantData)
}
}
// variant assemble task depends on each output assemble task.
variantData.assembleVariantTask.dependsOn variantOutputData.assembleTask
} else {
// single output
if (assembleTask != null) {
variantData.assembleVariantTask = variantOutputData.assembleTask = assembleTask
} else {
variantData.assembleVariantTask = variantOutputData.assembleTask = createAssembleTask(variantData)
}
}
variantOutputData.assembleTask.dependsOn appTask
if (publishApk) {
if (extension.defaultPublishConfig.equals(outputName)) {
// add the artifact that will be published
project.artifacts.add("default", new ApkPublishArtifact(
projectBaseName,
null,
outputFileTask))
}
// also publish the artifact with its full config name
if (extension.publishNonDefault) {
// classifier cannot just be the publishing config as we need
// to add the filters if needed.
String classifier = variantData.variantDependency.publishConfiguration.name
if (variantOutputData.densityFilter != null) {
classifier = classifier + '-' + variantOutputData.densityFilter
}
if (variantOutputData.abiFilter != null) {
classifier = classifier + '-' + variantOutputData.abiFilter
}
project.artifacts.add(variantData.variantDependency.publishConfiguration.name,
new ApkPublishArtifact(
projectBaseName,
classifier,
outputFileTask))
}
}
}
// create install task for the variant Data. This will deal with finding the
// right output if there are more than one.
// Add a task to install the application package
if (signedApk) {
InstallVariantTask installTask = project.tasks.
create("install${config.fullName.capitalize()}",
InstallVariantTask)
installTask.description = "Installs the " + variantData.description
installTask.group = INSTALL_GROUP
installTask.plugin = this
installTask.variantData = variantData
installTask.conventionMapping.adbExe = { androidBuilder.sdkInfo?.adb }
installTask.dependsOn variantData.assembleVariantTask
variantData.installTask = installTask
}
if (extension.lintOptions.checkReleaseBuilds) {
createLintVitalTask(variantData)
}
// add an uninstall task
def uninstallTask = project.tasks.create(
"uninstall${variantData.variantConfiguration.fullName.capitalize()}",
UninstallTask)
uninstallTask.description = "Uninstalls the " + variantData.description
uninstallTask.group = INSTALL_GROUP
uninstallTask.variant = variantData
uninstallTask.conventionMapping.adbExe = { sdkHandler.sdkInfo?.adb }
variantData.uninstallTask = uninstallTask
uninstallAll.dependsOn uninstallTask
}
public Task createAssembleTask(
@NonNull BaseVariantOutputData variantOutputData) {
Task assembleTask = project.tasks.
create("assemble${variantOutputData.fullName.capitalize()}")
return assembleTask
}
public Task createAssembleTask(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData) {
Task assembleTask = project.tasks.
create("assemble${variantData.variantConfiguration.fullName.capitalize()}")
assembleTask.description = "Assembles the " + variantData.description
assembleTask.group = org.gradle.api.plugins.BasePlugin.BUILD_GROUP
return assembleTask
}
public Copy getJacocoAgentTask() {
if (jacocoAgentTask == null) {
jacocoAgentTask = project.tasks.create("unzipJacocoAgent", Copy)
jacocoAgentTask.from { project.configurations[JacocoPlugin.AGENT_CONFIGURATION_NAME].collect { project.zipTree(it) } }
jacocoAgentTask.include FILE_JACOCO_AGENT
jacocoAgentTask.into "$project.buildDir/${FD_INTERMEDIATES}/jacoco"
}
return jacocoAgentTask
}
/**
* creates a zip align. This does not use convention mapping,
* and is meant to let other plugin create zip align tasks.
*
* @param name the name of the task
* @param inputFile the input file
* @param outputFile the output file
*
* @return the task
*/
@NonNull
ZipAlign createZipAlignTask(
@NonNull String name,
@NonNull File inputFile,
@NonNull File outputFile) {
// Add a task to zip align application package
def zipAlignTask = project.tasks.create(name, ZipAlign)
zipAlignTask.inputFile = inputFile
zipAlignTask.outputFile = outputFile
zipAlignTask.conventionMapping.zipAlignExe = {
String path = androidBuilder.targetInfo?.buildTools?.getPath(ZIP_ALIGN)
if (path != null) {
return new File(path)
}
return null
}
return zipAlignTask
}
/**
* Creates the proguarding task for the given Variant.
* @param variantData the variant data.
* @param testedVariantData optional. variant data representing the tested variant, null if the
* variant is not a test variant
* @return outFile file outputted by proguard
*/
@NonNull
public File createProguardTasks(
final @NonNull BaseVariantData<? extends BaseVariantOutputData> variantData,
final @Nullable BaseVariantData<? extends BaseVariantOutputData> testedVariantData) {
final VariantConfiguration variantConfig = variantData.variantConfiguration
// use single output for now.
final BaseVariantOutputData variantOutputData = variantData.outputs.get(0)
def proguardTask = project.tasks.create(
"proguard${variantData.variantConfiguration.fullName.capitalize()}",
ProGuardTask)
proguardTask.dependsOn variantData.javaCompileTask, variantData.variantDependency.packageConfiguration.buildDependencies
if (testedVariantData != null) {
proguardTask.dependsOn testedVariantData.obfuscationTask
}
variantData.obfuscationTask = proguardTask
// --- Output File ---
File outFile;
if (variantData instanceof LibraryVariantData) {
outFile = project.file(
"${project.buildDir}/${FD_INTERMEDIATES}/$DIR_BUNDLES/${variantData.variantConfiguration.dirName}/classes.jar")
} else {
outFile = project.file(
"${project.buildDir}/${FD_INTERMEDIATES}/classes-proguard/${variantData.variantConfiguration.dirName}/classes.jar")
}
// --- Proguard Config ---
if (testedVariantData != null) {
// don't remove any code in tested app
proguardTask.dontshrink()
proguardTask.keepnames("class * extends junit.framework.TestCase")
proguardTask.keepclassmembers("class * extends junit.framework.TestCase {\n" +
" void test*(...);\n" +
"}")
// input the mapping from the tested app so that we can deal with obfuscated code
proguardTask.applymapping("${project.buildDir}/${FD_OUTPUTS}/proguard/${testedVariantData.variantConfiguration.dirName}/mapping.txt")
}
Closure configFiles = {
List<File> proguardFiles = variantConfig.getProguardFiles(true /*includeLibs*/)
proguardFiles.add(variantOutputData.processResourcesTask.proguardOutputFile)
// for tested app, we only care about their aapt config since the base
// configs are the same files anyway.
if (testedVariantData != null) {
// use single output for now.
proguardFiles.add(testedVariantData.outputs.get(0).processResourcesTask.proguardOutputFile)
}
return proguardFiles
}
proguardTask.configuration(configFiles)
// --- InJars / LibraryJars ---
if (variantData instanceof LibraryVariantData) {
String packageName = variantConfig.getPackageFromManifest()
if (packageName == null) {
throw new BuildException("Failed to read manifest", null)
}
packageName = packageName.replace('.', '/');
// injar: the compilation output
// exclude R files and such from output
String exclude = '!' + packageName + "/R.class"
exclude += (', !' + packageName + "/R\$*.class")
if (!((LibraryExtension)extension).packageBuildConfig) {
exclude += (', !' + packageName + "/Manifest.class")
exclude += (', !' + packageName + "/Manifest\$*.class")
exclude += (', !' + packageName + "/BuildConfig.class")
}
proguardTask.injars(variantData.javaCompileTask.destinationDir, filter: exclude)
// include R files and such for compilation
String include = exclude.replace('!', '')
proguardTask.libraryjars(variantData.javaCompileTask.destinationDir, filter: include)
// injar: the local dependencies
Closure inJars = {
Arrays.asList(getLocalJarFileList(variantData.variantDependency))
}
proguardTask.injars(inJars, filter: '!META-INF/MANIFEST.MF')
// libjar: the library dependencies. In this case we take all the compile-scope
// dependencies
Closure libJars = {
Set<File> compiledJars = androidBuilder.getCompileClasspath(variantConfig)
Object[] localJars = getLocalJarFileList(variantData.variantDependency)
compiledJars.findAll({ !localJars.contains(it) })
}
proguardTask.libraryjars(libJars, filter: '!META-INF/MANIFEST.MF')
// ensure local jars keep their package names
proguardTask.keeppackagenames()
} else {
// injar: the compilation output
proguardTask.injars(variantData.javaCompileTask.destinationDir)
// injar: the packaged dependencies
Closure inJars = {
androidBuilder.getPackagedJars(variantConfig)
}
proguardTask.injars(inJars, filter: '!META-INF/MANIFEST.MF')
// the provided-only jars as libraries.
Closure libJars = {
variantData.variantConfiguration.providedOnlyJars
}
proguardTask.libraryjars(libJars)
}
// libraryJars: the runtime jars. Do this in doFirst since the boot classpath isn't
// available until the SDK is loaded in the prebuild task
proguardTask.doFirst {
for (String runtimeJar : androidBuilder.getBootClasspath()) {
proguardTask.libraryjars(runtimeJar)
}
}
if (testedVariantData != null) {
// input the tested app as library
proguardTask.libraryjars(testedVariantData.javaCompileTask.destinationDir)
// including its dependencies
Closure testedPackagedJars = {
androidBuilder.getPackagedJars(testedVariantData.variantConfiguration)
}
proguardTask.libraryjars(testedPackagedJars, filter: '!META-INF/MANIFEST.MF')
}
// --- Out files ---
proguardTask.outjars(outFile)
final File proguardOut = project.file(
"${project.buildDir}/${FD_OUTPUTS}/proguard/${variantData.variantConfiguration.dirName}")
proguardTask.dump(new File(proguardOut, "dump.txt"))
proguardTask.printseeds(new File(proguardOut, "seeds.txt"))
proguardTask.printusage(new File(proguardOut, "usage.txt"))
proguardTask.printmapping(variantData.mappingFile = new File(proguardOut, "mapping.txt"))
// proguard doesn't verify that the seed/mapping/usage folders exist and will fail
// if they don't so create them.
proguardTask.doFirst {
proguardOut.mkdirs()
}
return outFile
}
private void createReportTasks() {
def dependencyReportTask = project.tasks.create("androidDependencies", DependencyReportTask)
dependencyReportTask.setDescription("Displays the Android dependencies of the project")
dependencyReportTask.setVariants(variantDataList)
dependencyReportTask.setGroup("Android")
def signingReportTask = project.tasks.create("signingReport", SigningReportTask)
signingReportTask.setDescription("Displays the signing info for each variant")
signingReportTask.setVariants(variantDataList)
signingReportTask.setGroup("Android")
}
public void createAnchorTasks(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData) {
variantData.preBuildTask = project.tasks.create(
"pre${variantData.variantConfiguration.fullName.capitalize()}Build")
variantData.preBuildTask.dependsOn mainPreBuild
def prepareDependenciesTask = project.tasks.create(
"prepare${variantData.variantConfiguration.fullName.capitalize()}Dependencies",
PrepareDependenciesTask)
variantData.prepareDependenciesTask = prepareDependenciesTask
prepareDependenciesTask.dependsOn variantData.preBuildTask
prepareDependenciesTask.plugin = this
prepareDependenciesTask.variant = variantData
// for all libraries required by the configurations of this variant, make this task
// depend on all the tasks preparing these libraries.
VariantDependencies configurationDependencies = variantData.variantDependency
prepareDependenciesTask.addChecker(configurationDependencies.checker)
for (LibraryDependencyImpl lib : configurationDependencies.libraries) {
addDependencyToPrepareTask(variantData, prepareDependenciesTask, lib)
}
// also create sourceGenTask
variantData.sourceGenTask = project.tasks.create(
"generate${variantData.variantConfiguration.fullName.capitalize()}Sources")
// and resGenTask
variantData.resourceGenTask = project.tasks.create(
"generate${variantData.variantConfiguration.fullName.capitalize()}Resources")
variantData.assetGenTask = project.tasks.create(
"generate${variantData.variantConfiguration.fullName.capitalize()}Assets")
// and compile task
variantData.compileTask = project.tasks.create(
"compile${variantData.variantConfiguration.fullName.capitalize()}Sources")
}
public void createCheckManifestTask(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData) {
String name = variantData.variantConfiguration.fullName
variantData.checkManifestTask = project.tasks.create(
"check${name.capitalize()}Manifest",
CheckManifest)
variantData.checkManifestTask.dependsOn variantData.preBuildTask
variantData.prepareDependenciesTask.dependsOn variantData.checkManifestTask
variantData.checkManifestTask.variantName = name
variantData.checkManifestTask.conventionMapping.manifest = {
variantData.variantConfiguration.getDefaultSourceSet().manifestFile
}
}
private final Map<String, ArtifactMetaData> extraArtifactMap = Maps.newHashMap()
private final ListMultimap<String, AndroidArtifact> extraAndroidArtifacts = ArrayListMultimap.create()
private final ListMultimap<String, JavaArtifact> extraJavaArtifacts = ArrayListMultimap.create()
private final ListMultimap<String, SourceProviderContainer> extraVariantSourceProviders = ArrayListMultimap.create()
private final ListMultimap<String, SourceProviderContainer> extraBuildTypeSourceProviders = ArrayListMultimap.create()
private final ListMultimap<String, SourceProviderContainer> extraProductFlavorSourceProviders = ArrayListMultimap.create()
private final ListMultimap<String, SourceProviderContainer> extraMultiFlavorSourceProviders = ArrayListMultimap.create()
public Collection<ArtifactMetaData> getExtraArtifacts() {
return extraArtifactMap.values()
}
public Collection<AndroidArtifact> getExtraAndroidArtifacts(@NonNull String variantName) {
return extraAndroidArtifacts.get(variantName)
}
public Collection<JavaArtifact> getExtraJavaArtifacts(@NonNull String variantName) {
return extraJavaArtifacts.get(variantName)
}
public Collection<SourceProviderContainer> getExtraVariantSourceProviders(@NonNull String variantName) {
return extraVariantSourceProviders.get(variantName)
}
public Collection<SourceProviderContainer> getExtraFlavorSourceProviders(@NonNull String flavorName) {
return extraProductFlavorSourceProviders.get(flavorName)
}
public Collection<SourceProviderContainer> getExtraBuildTypeSourceProviders(@NonNull String buildTypeName) {
return extraBuildTypeSourceProviders.get(buildTypeName)
}
public void registerArtifactType(@NonNull String name,
boolean isTest,
int artifactType) {
if (extraArtifactMap.get(name) != null) {
throw new IllegalArgumentException("Artifact with name $name already registered.")
}
extraArtifactMap.put(name, new ArtifactMetaDataImpl(name, isTest, artifactType))
}
public void registerBuildTypeSourceProvider(@NonNull String name,
@NonNull BuildType buildType,
@NonNull SourceProvider sourceProvider) {
if (extraArtifactMap.get(name) == null) {
throw new IllegalArgumentException(
"Artifact with name $name is not yet registered. Use registerArtifactType()")
}
extraBuildTypeSourceProviders.put(buildType.name,
new DefaultSourceProviderContainer(name, sourceProvider))
}
public void registerProductFlavorSourceProvider(@NonNull String name,
@NonNull ProductFlavor productFlavor,
@NonNull SourceProvider sourceProvider) {
if (extraArtifactMap.get(name) == null) {
throw new IllegalArgumentException(
"Artifact with name $name is not yet registered. Use registerArtifactType()")
}
extraProductFlavorSourceProviders.put(productFlavor.name,
new DefaultSourceProviderContainer(name, sourceProvider))
}
public void registerMultiFlavorSourceProvider(@NonNull String name,
@NonNull String flavorName,
@NonNull SourceProvider sourceProvider) {
if (extraArtifactMap.get(name) == null) {
throw new IllegalArgumentException(
"Artifact with name $name is not yet registered. Use registerArtifactType()")
}
extraMultiFlavorSourceProviders.put(flavorName,
new DefaultSourceProviderContainer(name, sourceProvider))
}
public void registerJavaArtifact(
@NonNull String name,
@NonNull BaseVariant variant,
@NonNull String assembleTaskName,
@NonNull String javaCompileTaskName,
@NonNull Configuration configuration,
@NonNull File classesFolder,
@Nullable SourceProvider sourceProvider) {
ArtifactMetaData artifactMetaData = extraArtifactMap.get(name)
if (artifactMetaData == null) {
throw new IllegalArgumentException(
"Artifact with name $name is not yet registered. Use registerArtifactType()")
}
if (artifactMetaData.type != ArtifactMetaData.TYPE_JAVA) {
throw new IllegalArgumentException(
"Artifact with name $name is not of type JAVA")
}
JavaArtifact artifact = new JavaArtifactImpl(
name, assembleTaskName, javaCompileTaskName, classesFolder,
new ConfigurationDependencies(configuration),
sourceProvider, null)
extraJavaArtifacts.put(variant.name, artifact)
}
public static Object[] getLocalJarFileList(DependencyContainer dependencyContainer) {
Set<File> files = Sets.newHashSet()
for (JarDependency jarDependency : dependencyContainer.localDependencies) {
files.add(jarDependency.jarFile)
}
return files.toArray()
}
//----------------------------------------------------------------------------------------------
//------------------------------ START DEPENDENCY STUFF ----------------------------------------
//----------------------------------------------------------------------------------------------
private void addDependencyToPrepareTask(
@NonNull BaseVariantData<? extends BaseVariantOutputData> variantData,
@NonNull PrepareDependenciesTask prepareDependenciesTask,
@NonNull LibraryDependencyImpl lib) {
PrepareLibraryTask prepareLibTask = prepareTaskMap.get(lib)
if (prepareLibTask != null) {
prepareDependenciesTask.dependsOn prepareLibTask
prepareLibTask.dependsOn variantData.preBuildTask
}
for (LibraryDependencyImpl childLib : lib.dependencies) {
addDependencyToPrepareTask(variantData, prepareDependenciesTask, childLib)
}
}
public void resolveDependencies(VariantDependencies variantDeps) {
Map<ModuleVersionIdentifier, List<LibraryDependencyImpl>> modules = [:]
Map<ModuleVersionIdentifier, List<ResolvedArtifact>> artifacts = [:]
Multimap<LibraryDependency, VariantDependencies> reverseMap = ArrayListMultimap.create()
resolveDependencyForConfig(variantDeps, modules, artifacts, reverseMap)
Set<Project> projects = project.rootProject.allprojects;
modules.values().each { List list ->
if (!list.isEmpty()) {
// get the first item only
LibraryDependencyImpl androidDependency = (LibraryDependencyImpl) list.get(0)
Task task = handleLibrary(project, androidDependency)
// Use the reverse map to find all the configurations that included this android
// library so that we can make sure they are built.
// TODO fix, this is not optimum as we bring in more dependencies than we should.
List<VariantDependencies> configDepList = reverseMap.get(androidDependency)
if (configDepList != null && !configDepList.isEmpty()) {
for (VariantDependencies configDependencies: configDepList) {
task.dependsOn configDependencies.compileConfiguration.buildDependencies
}
}
// check if this library is created by a parent (this is based on the
// output file.
// TODO Fix this as it's fragile
/*
This is a somewhat better way but it doesn't work in some project with
weird setups...
Project parentProject = DependenciesImpl.getProject(library.getBundle(), projects)
if (parentProject != null) {
String configName = library.getProjectVariant();
if (configName == null) {
configName = "default"
}
prepareLibraryTask.dependsOn parentProject.getPath() + ":assemble${configName.capitalize()}"
}
*/
}
}
}
/**
* Handles the library and returns a task to "prepare" the library (ie unarchive it). The task
* will be reused for all projects using the same library.
*
* @param project the project
* @param library the library.
* @return the prepare task.
*/
protected PrepareLibraryTask handleLibrary(
@NonNull Project project,
@NonNull LibraryDependencyImpl library) {
String bundleName = GUtil
.toCamelCase(library.getName().replaceAll("\\:", " "))
PrepareLibraryTask prepareLibraryTask = prepareTaskMap.get(library)
if (prepareLibraryTask == null) {
prepareLibraryTask = project.tasks.create(
"prepare" + bundleName + "Library", PrepareLibraryTask.class)
prepareLibraryTask.setDescription("Prepare " + library.getName())
prepareLibraryTask.conventionMapping.bundle = { library.getBundle() }
prepareLibraryTask.conventionMapping.explodedDir = { library.getBundleFolder() }
prepareTaskMap.put(library, prepareLibraryTask)
}
return prepareLibraryTask;
}
private void resolveDependencyForConfig(
VariantDependencies variantDeps,
Map<ModuleVersionIdentifier, List<LibraryDependencyImpl>> modules,
Map<ModuleVersionIdentifier, List<ResolvedArtifact>> artifacts,
Multimap<LibraryDependency, VariantDependencies> reverseMap) {
Configuration compileClasspath = variantDeps.compileConfiguration
Configuration packageClasspath = variantDeps.packageConfiguration
// TODO - shouldn't need to do this - fix this in Gradle
ensureConfigured(compileClasspath)
ensureConfigured(packageClasspath)
variantDeps.checker = new DependencyChecker(variantDeps, logger)
Set<String> currentUnresolvedDependencies = Sets.newHashSet()
// TODO - defer downloading until required -- This is hard to do as we need the info to build the variant config.
collectArtifacts(compileClasspath, artifacts)
collectArtifacts(packageClasspath, artifacts)
List<LibraryDependencyImpl> bundles = []
Map<File, JarDependency> jars = [:]
Map<File, JarDependency> localJars = [:]
Set<DependencyResult> dependencies = compileClasspath.incoming.resolutionResult.root.dependencies
dependencies.each { DependencyResult dep ->
if (dep instanceof ResolvedDependencyResult) {
addDependency(dep.selected, variantDeps, bundles, jars, modules, artifacts, reverseMap)
} else if (dep instanceof UnresolvedDependencyResult) {
def attempted = dep.attempted;
if (attempted != null) {
currentUnresolvedDependencies.add(attempted.toString())
}
}
}
// also need to process local jar files, as they are not processed by the
// resolvedConfiguration result. This only includes the local jar files for this project.
compileClasspath.allDependencies.each { dep ->
if (dep instanceof SelfResolvingDependency &&
!(dep instanceof ProjectDependency)) {
Set<File> files = ((SelfResolvingDependency) dep).resolve()
for (File f : files) {
localJars.put(f, new JarDependency(f, true /*compiled*/, false /*packaged*/))
}
}
}
if (!compileClasspath.resolvedConfiguration.hasError()) {
// handle package dependencies. We'll refuse aar libs only in package but not
// in compile and remove all dependencies already in compile to get package-only jar
// files.
Set<File> compileFiles = compileClasspath.files
Set<File> packageFiles = packageClasspath.files
for (File f : packageFiles) {
if (compileFiles.contains(f)) {
// if also in compile
JarDependency jarDep = jars.get(f);
if (jarDep == null) {
jarDep = localJars.get(f);
}
if (jarDep != null) {
jarDep.setPackaged(true)
}
continue
}
if (f.getName().toLowerCase().endsWith(".jar")) {
jars.put(f, new JarDependency(f, false /*compiled*/, true /*packaged*/))
} else {
throw new RuntimeException("Package-only dependency '" +
f.absolutePath +
"' is not supported in project " + project.name)
}
}
} else if (!currentUnresolvedDependencies.isEmpty()) {
unresolvedDependencies.addAll(currentUnresolvedDependencies)
}
variantDeps.addLibraries(bundles)
variantDeps.addJars(jars.values())
variantDeps.addLocalJars(localJars.values())
// TODO - filter bundles out of source set classpath
configureBuild(variantDeps)
}
protected void ensureConfigured(Configuration config) {
config.allDependencies.withType(ProjectDependency).each { dep ->
project.evaluationDependsOn(dep.dependencyProject.path)
ensureConfigured(dep.projectConfiguration)
}
}
private void collectArtifacts(
Configuration configuration,
Map<ModuleVersionIdentifier,
List<ResolvedArtifact>> artifacts) {
// To keep backwards-compatibility, we check first if we have the JVM arg. If not, we look for
// the project property.
boolean buildModelOnly = false;
String val = System.getProperty(PROPERTY_BUILD_MODEL_ONLY);
if ("true".equalsIgnoreCase(val)) {
buildModelOnly = true;
} else if (project.hasProperty(PROPERTY_BUILD_MODEL_ONLY)) {
Object value = project.getProperties().get(PROPERTY_BUILD_MODEL_ONLY);
if (value instanceof String) {
buildModelOnly = Boolean.parseBoolean(value);
}
}
Set<ResolvedArtifact> allArtifacts
if (buildModelOnly) {
allArtifacts = configuration.resolvedConfiguration.lenientConfiguration.getArtifacts(Specs.satisfyAll())
} else {
allArtifacts = configuration.resolvedConfiguration.resolvedArtifacts
}
allArtifacts.each { ResolvedArtifact artifact ->
ModuleVersionIdentifier id = artifact.moduleVersion.id
List<ResolvedArtifact> moduleArtifacts = artifacts.get(id)
if (moduleArtifacts == null) {
moduleArtifacts = Lists.newArrayList()
artifacts.put(id, moduleArtifacts)
}
if (!moduleArtifacts.contains(artifact)) {
moduleArtifacts.add(artifact)
}
}
}
def addDependency(ResolvedComponentResult moduleVersion,
VariantDependencies configDependencies,
Collection<LibraryDependency> bundles,
Map<File, JarDependency> jars,
Map<ModuleVersionIdentifier, List<LibraryDependencyImpl>> modules,
Map<ModuleVersionIdentifier, List<ResolvedArtifact>> artifacts,
Multimap<LibraryDependency, VariantDependencies> reverseMap) {
ModuleVersionIdentifier id = moduleVersion.moduleVersion
if (configDependencies.checker.excluded(id)) {
return
}
if (id.name.equals("support-annotations") && id.group.equals("com.android.support")) {
configDependencies.annotationsPresent = true
}
List<LibraryDependencyImpl> bundlesForThisModule = modules.get(id)
if (bundlesForThisModule == null) {
bundlesForThisModule = Lists.newArrayList()
modules.put(id, bundlesForThisModule)
List<LibraryDependency> nestedBundles = Lists.newArrayList()
Set<DependencyResult> dependencies = moduleVersion.dependencies
dependencies.each { DependencyResult dep ->
if (dep instanceof ResolvedDependencyResult) {
addDependency(dep.selected, configDependencies, nestedBundles,
jars, modules, artifacts, reverseMap)
}
}
List<ResolvedArtifact> moduleArtifacts = artifacts.get(id)
moduleArtifacts?.each { artifact ->
if (artifact.type == EXT_LIB_ARCHIVE) {
String path = "$id.group/$id.name/$id.version"
String name = "$id.group:$id.name:$id.version"
if (artifact.classifier != null) {
path += "/$artifact.classifier"
name += ":$artifact.classifier"
}
//def explodedDir = project.file("$project.rootProject.buildDir/${FD_INTERMEDIATES}/exploded-aar/$path")
def explodedDir = project.file("$project.buildDir/${FD_INTERMEDIATES}/exploded-aar/$path")
LibraryDependencyImpl adep = new LibraryDependencyImpl(
artifact.file, explodedDir, nestedBundles, name, artifact.classifier)
bundlesForThisModule << adep
reverseMap.put(adep, configDependencies)
} else {
jars.put(artifact.file,
new ClassifiedJarDependency(
artifact.file,
true /*compiled*/,
false /*packaged*/,
true /*proguarded*/,
artifact.classifier))
}
}
if (bundlesForThisModule.empty && !nestedBundles.empty) {
throw new GradleException("Module version $id depends on libraries but is not a library itself")
}
} else {
for (LibraryDependency adep : bundlesForThisModule) {
reverseMap.put(adep, configDependencies)
}
}
bundles.addAll(bundlesForThisModule)
}
private void configureBuild(VariantDependencies configurationDependencies) {
addDependsOnTaskInOtherProjects(
project.getTasks().getByName(JavaBasePlugin.BUILD_NEEDED_TASK_NAME), true,
JavaBasePlugin.BUILD_NEEDED_TASK_NAME, "compile");
addDependsOnTaskInOtherProjects(
project.getTasks().getByName(JavaBasePlugin.BUILD_DEPENDENTS_TASK_NAME), false,
JavaBasePlugin.BUILD_DEPENDENTS_TASK_NAME, "compile");
}
/**
* Adds a dependency on tasks with the specified name in other projects. The other projects
* are determined from project lib dependencies using the specified configuration name.
* These may be projects this project depends on or projects that depend on this project
* based on the useDependOn argument.
*
* @param task Task to add dependencies to
* @param useDependedOn if true, add tasks from projects this project depends on, otherwise
* use projects that depend on this one.
* @param otherProjectTaskName name of task in other projects
* @param configurationName name of configuration to use to find the other projects
*/
private static void addDependsOnTaskInOtherProjects(final Task task, boolean useDependedOn,
String otherProjectTaskName,
String configurationName) {
Project project = task.getProject();
final Configuration configuration = project.getConfigurations().getByName(
configurationName);
task.dependsOn(configuration.getTaskDependencyFromProjectDependency(
useDependedOn, otherProjectTaskName));
}
//----------------------------------------------------------------------------------------------
//------------------------------- END DEPENDENCY STUFF -----------------------------------------
//----------------------------------------------------------------------------------------------
protected static File getOptionalDir(File dir) {
if (dir.isDirectory()) {
return dir
}
return null
}
@NonNull
protected List<ManifestDependencyImpl> getManifestDependencies(
List<LibraryDependency> libraries) {
List<ManifestDependencyImpl> list = Lists.newArrayListWithCapacity(libraries.size())
for (LibraryDependency lib : libraries) {
// get the dependencies
List<ManifestDependencyImpl> children = getManifestDependencies(lib.dependencies)
list.add(new ManifestDependencyImpl(lib.getName(), lib.manifest, children))
}
return list
}
@NonNull
protected static List<SymbolFileProviderImpl> getTextSymbolDependencies(
List<LibraryDependency> libraries) {
List<SymbolFileProviderImpl> list = Lists.newArrayListWithCapacity(libraries.size())
for (LibraryDependency lib : libraries) {
list.add(new SymbolFileProviderImpl(lib.manifest, lib.symbolFile))
}
return list
}
private static String getLocalVersion() {
try {
Class clazz = BasePlugin.class
String className = clazz.getSimpleName() + ".class"
String classPath = clazz.getResource(className).toString()
if (!classPath.startsWith("jar")) {
// Class not from JAR, unlikely
return null
}
String manifestPath = classPath.substring(0, classPath.lastIndexOf("!") + 1) +
"/META-INF/MANIFEST.MF";
Manifest manifest = new Manifest(new URL(manifestPath).openStream());
Attributes attr = manifest.getMainAttributes();
return attr.getValue("Plugin-Version");
} catch (Throwable t) {
return null;
}
}
public Project getProject() {
return project
}
public static void displayWarning(ILogger logger, Project project, String message) {
logger.warning(createWarning(project.path, message))
}
public static void displayWarning(Logger logger, Project project, String message) {
logger.warn(createWarning(project.path, message))
}
public void displayDeprecationWarning(String message) {
displayWarning(logger, project, message)
}
public static void displayDeprecationWarning(Logger logger, Project project, String message) {
displayWarning(logger, project, message)
}
private static String createWarning(String projectName, String message) {
return "WARNING [Project: $projectName] $message"
}
}