package org.jetbrains.dokka import com.google.common.collect.ImmutableMap import com.intellij.core.CoreApplicationEnvironment import com.intellij.core.CoreModuleManager import com.intellij.mock.MockComponentManager import com.intellij.openapi.Disposable import com.intellij.openapi.extensions.Extensions import com.intellij.openapi.module.Module import com.intellij.openapi.module.ModuleManager import com.intellij.openapi.project.Project import com.intellij.openapi.roots.OrderEnumerationHandler import com.intellij.openapi.roots.ProjectFileIndex import com.intellij.openapi.roots.ProjectRootManager import com.intellij.openapi.util.Disposer import com.intellij.openapi.vfs.StandardFileSystems import com.intellij.psi.PsiElement import com.intellij.psi.search.GlobalSearchScope import com.intellij.util.io.URLUtil import org.jetbrains.dokka.Analysis.DokkaJsAnalyzerFacade import org.jetbrains.dokka.Analysis.DokkaNativeAnalyzerFacade import org.jetbrains.kotlin.analyzer.* import org.jetbrains.kotlin.analyzer.common.CommonAnalysisParameters import org.jetbrains.kotlin.analyzer.common.CommonAnalyzerFacade import org.jetbrains.kotlin.builtins.DefaultBuiltIns import org.jetbrains.kotlin.builtins.KotlinBuiltIns import org.jetbrains.kotlin.builtins.jvm.JvmBuiltIns import org.jetbrains.kotlin.caches.project.LibraryModuleInfo import org.jetbrains.kotlin.caches.resolve.KotlinCacheService import org.jetbrains.kotlin.cli.common.CLIConfigurationKeys import org.jetbrains.kotlin.cli.common.config.ContentRoot import org.jetbrains.kotlin.cli.common.config.KotlinSourceRoot import org.jetbrains.kotlin.cli.common.config.addKotlinSourceRoot import org.jetbrains.kotlin.cli.common.messages.MessageCollector import org.jetbrains.kotlin.cli.jvm.compiler.EnvironmentConfigFiles import org.jetbrains.kotlin.cli.jvm.compiler.JvmPackagePartProvider import org.jetbrains.kotlin.cli.jvm.compiler.KotlinCoreEnvironment import org.jetbrains.kotlin.cli.jvm.compiler.TopDownAnalyzerFacadeForJVM import org.jetbrains.kotlin.cli.jvm.config.* import org.jetbrains.kotlin.cli.jvm.index.JavaRoot import org.jetbrains.kotlin.config.* import org.jetbrains.kotlin.container.getService import org.jetbrains.kotlin.container.tryGetService import org.jetbrains.kotlin.context.ProjectContext import org.jetbrains.kotlin.descriptors.DeclarationDescriptor import org.jetbrains.kotlin.descriptors.ModuleDescriptor import org.jetbrains.kotlin.idea.resolve.ResolutionFacade import org.jetbrains.kotlin.js.config.JSConfigurationKeys import org.jetbrains.kotlin.js.resolve.JsPlatform import org.jetbrains.kotlin.load.java.structure.impl.JavaClassImpl import org.jetbrains.kotlin.name.Name import org.jetbrains.kotlin.psi.* import org.jetbrains.kotlin.resolve.* import org.jetbrains.kotlin.resolve.diagnostics.Diagnostics import org.jetbrains.kotlin.resolve.jvm.JvmAnalyzerFacade import org.jetbrains.kotlin.resolve.jvm.JvmPlatformParameters import org.jetbrains.kotlin.resolve.jvm.platform.JvmPlatform import org.jetbrains.kotlin.resolve.konan.platform.KonanPlatform import org.jetbrains.kotlin.resolve.lazy.BodyResolveMode import org.jetbrains.kotlin.resolve.lazy.ResolveSession import org.jetbrains.kotlin.types.KotlinType import org.jetbrains.kotlin.util.slicedMap.ReadOnlySlice import org.jetbrains.kotlin.util.slicedMap.WritableSlice import java.io.File /** * Kotlin as a service entry point * * Configures environment, analyses files and provides facilities to perform code processing without emitting bytecode * * $messageCollector: required by compiler infrastructure and will receive all compiler messages * $body: optional and can be used to configure environment without creating local variable */ class AnalysisEnvironment(val messageCollector: MessageCollector, val analysisPlatform: Platform) : Disposable { val configuration = CompilerConfiguration() init { configuration.put(CLIConfigurationKeys.MESSAGE_COLLECTOR_KEY, messageCollector) } fun createCoreEnvironment(): KotlinCoreEnvironment { System.setProperty("idea.io.use.fallback", "true") val configFiles = when (analysisPlatform) { Platform.jvm, Platform.common -> EnvironmentConfigFiles.JVM_CONFIG_FILES Platform.native -> EnvironmentConfigFiles.NATIVE_CONFIG_FILES Platform.js -> EnvironmentConfigFiles.JS_CONFIG_FILES } val environment = KotlinCoreEnvironment.createForProduction(this, configuration, configFiles) val projectComponentManager = environment.project as MockComponentManager val projectFileIndex = CoreProjectFileIndex(environment.project, environment.configuration.getList(CLIConfigurationKeys.CONTENT_ROOTS)) val moduleManager = object : CoreModuleManager(environment.project, this) { override fun getModules(): Array = arrayOf(projectFileIndex.module) } CoreApplicationEnvironment.registerComponentInstance(projectComponentManager.picoContainer, ModuleManager::class.java, moduleManager) Extensions.registerAreaClass("IDEA_MODULE", null) CoreApplicationEnvironment.registerExtensionPoint(Extensions.getRootArea(), OrderEnumerationHandler.EP_NAME, OrderEnumerationHandler.Factory::class.java) projectComponentManager.registerService(ProjectFileIndex::class.java, projectFileIndex) projectComponentManager.registerService(ProjectRootManager::class.java, CoreProjectRootManager(projectFileIndex)) return environment } fun createSourceModuleSearchScope(project: Project, sourceFiles: List): GlobalSearchScope = when (analysisPlatform) { Platform.jvm -> TopDownAnalyzerFacadeForJVM.newModuleSearchScope(project, sourceFiles) Platform.js, Platform.common, Platform.native -> GlobalSearchScope.filesScope(project, sourceFiles.map { it.virtualFile }.toSet()) } fun createResolutionFacade(environment: KotlinCoreEnvironment): Pair { val projectContext = ProjectContext(environment.project) val sourceFiles = environment.getSourceFiles() val targetPlatform = when (analysisPlatform) { Platform.js -> JsPlatform Platform.common -> TargetPlatform.Common Platform.native -> KonanPlatform Platform.jvm -> JvmPlatform } val library = object : LibraryModuleInfo { override val platform: TargetPlatform get() = targetPlatform override fun getLibraryRoots(): Collection { return classpath.map { it.absolutePath } } override val name: Name = Name.special("") override fun dependencies(): List = listOf(this) } val module = object : ModuleInfo { override val name: Name = Name.special("") override fun dependencies(): List = listOf(this, library) } val sourcesScope = createSourceModuleSearchScope(environment.project, sourceFiles) val modulesContent: (ModuleInfo) -> ModuleContent = { when (it) { library -> ModuleContent(it, emptyList(), GlobalSearchScope.notScope(sourcesScope)) module -> ModuleContent(it, emptyList(), GlobalSearchScope.allScope(environment.project)) else -> throw IllegalArgumentException("Unexpected module info") } } var builtIns: JvmBuiltIns? = null val resolverForProject = when (analysisPlatform) { Platform.jvm -> { builtIns = JvmBuiltIns(projectContext.storageManager) createJvmResolverForProject(projectContext, module, library, modulesContent, sourcesScope, builtIns) } Platform.common -> createCommonResolverForProject(projectContext, module, library, modulesContent, environment) Platform.js -> createJsResolverForProject(projectContext, module, library, modulesContent) Platform.native -> createNativeResolverForProject(projectContext, module, library, modulesContent) } val resolverForLibrary = resolverForProject.resolverForModule(library) // Required before module to initialize library properly val resolverForModule = resolverForProject.resolverForModule(module) val libraryModuleDescriptor = resolverForProject.descriptorForModule(library) val moduleDescriptor = resolverForProject.descriptorForModule(module) builtIns?.initialize(moduleDescriptor, true) val libraryResolutionFacade = DokkaResolutionFacade(environment.project, libraryModuleDescriptor, resolverForLibrary) val created = DokkaResolutionFacade(environment.project, moduleDescriptor, resolverForModule) val projectComponentManager = environment.project as MockComponentManager projectComponentManager.registerService(KotlinCacheService::class.java, CoreKotlinCacheService(created)) return created to libraryResolutionFacade } private fun createCommonResolverForProject( projectContext: ProjectContext, module: ModuleInfo, library: LibraryModuleInfo, modulesContent: (ModuleInfo) -> ModuleContent, environment: KotlinCoreEnvironment ): ResolverForProjectImpl { return ResolverForProjectImpl( debugName = "Dokka", projectContext = projectContext, modules = listOf(module, library), modulesContent = modulesContent, modulePlatforms = { MultiTargetPlatform.Common }, moduleLanguageSettingsProvider = LanguageSettingsProvider.Default /* TODO: Fix this */, resolverForModuleFactoryByPlatform = { CommonAnalyzerFacade }, platformParameters = { _ -> CommonAnalysisParameters { content -> environment.createPackagePartProvider(content.moduleContentScope) } }, targetEnvironment = CompilerEnvironment, builtIns = DefaultBuiltIns.Instance ) } private fun createJsResolverForProject( projectContext: ProjectContext, module: ModuleInfo, library: LibraryModuleInfo, modulesContent: (ModuleInfo) -> ModuleContent ): ResolverForProjectImpl { return ResolverForProjectImpl( debugName = "Dokka", projectContext = projectContext, modules = listOf(module, library), modulesContent = modulesContent, modulePlatforms = { JsPlatform.multiTargetPlatform }, moduleLanguageSettingsProvider = LanguageSettingsProvider.Default /* TODO: Fix this */, resolverForModuleFactoryByPlatform = { DokkaJsAnalyzerFacade }, platformParameters = { _ -> PlatformAnalysisParameters.Empty }, targetEnvironment = CompilerEnvironment, builtIns = JsPlatform.builtIns ) } private fun createNativeResolverForProject( projectContext: ProjectContext, module: ModuleInfo, library: LibraryModuleInfo, modulesContent: (ModuleInfo) -> ModuleContent ): ResolverForProjectImpl { return ResolverForProjectImpl( debugName = "Dokka", projectContext = projectContext, modules = listOf(module, library), modulesContent = modulesContent, modulePlatforms = { KonanPlatform.multiTargetPlatform }, moduleLanguageSettingsProvider = LanguageSettingsProvider.Default /* TODO: Fix this */, resolverForModuleFactoryByPlatform = { DokkaNativeAnalyzerFacade }, platformParameters = { _ -> PlatformAnalysisParameters.Empty }, targetEnvironment = CompilerEnvironment ) } private fun createJvmResolverForProject( projectContext: ProjectContext, module: ModuleInfo, library: LibraryModuleInfo, modulesContent: (ModuleInfo) -> ModuleContent, sourcesScope: GlobalSearchScope, builtIns: KotlinBuiltIns ): ResolverForProjectImpl { val javaRoots = classpath .mapNotNull { val rootFile = when { it.extension == "jar" -> StandardFileSystems.jar().findFileByPath("${it.absolutePath}${URLUtil.JAR_SEPARATOR}") else -> StandardFileSystems.local().findFileByPath(it.absolutePath) } rootFile?.let { JavaRoot(it, JavaRoot.RootType.BINARY) } } return ResolverForProjectImpl( debugName = "Dokka", projectContext = projectContext, modules = listOf(library, module), modulesContent = { when (it) { library -> ModuleContent(it, emptyList(), GlobalSearchScope.notScope(sourcesScope)) module -> ModuleContent(it, emptyList(), sourcesScope) else -> throw IllegalArgumentException("Unexpected module info") } }, modulePlatforms = { JvmPlatform.multiTargetPlatform }, moduleLanguageSettingsProvider = LanguageSettingsProvider.Default /* TODO: Fix this */, resolverForModuleFactoryByPlatform = { JvmAnalyzerFacade }, platformParameters = { JvmPlatformParameters ({ content -> JvmPackagePartProvider( configuration.languageVersionSettings, content.moduleContentScope) .apply { addRoots(javaRoots, messageCollector) } }, { val file = (it as JavaClassImpl).psi.containingFile.virtualFile if (file in sourcesScope) module else library }) }, targetEnvironment = CompilerEnvironment, builtIns = builtIns ) } fun loadLanguageVersionSettings(languageVersionString: String?, apiVersionString: String?) { val languageVersion = LanguageVersion.fromVersionString(languageVersionString) ?: LanguageVersion.LATEST_STABLE val apiVersion = apiVersionString?.let { ApiVersion.parse(it) } ?: ApiVersion.createByLanguageVersion(languageVersion) configuration.languageVersionSettings = LanguageVersionSettingsImpl(languageVersion, apiVersion) } /** * Classpath for this environment. */ val classpath: List get() = configuration.jvmClasspathRoots /** * Adds list of paths to classpath. * $paths: collection of files to add */ fun addClasspath(paths: List) { if (analysisPlatform == Platform.js) { configuration.addAll(JSConfigurationKeys.LIBRARIES, paths.map { it.absolutePath }) } configuration.addJvmClasspathRoots(paths) } /** * Adds path to classpath. * $path: path to add */ fun addClasspath(path: File) { if (analysisPlatform == Platform.js) { configuration.add(JSConfigurationKeys.LIBRARIES, path.absolutePath) } configuration.addJvmClasspathRoot(path) } /** * List of source roots for this environment. */ val sources: List get() = configuration.get(CLIConfigurationKeys.CONTENT_ROOTS) ?.filterIsInstance() ?.map { it.path } ?: emptyList() /** * Adds list of paths to source roots. * $list: collection of files to add */ fun addSources(list: List) { list.forEach { configuration.addKotlinSourceRoot(it) val file = File(it) if (file.isDirectory || file.extension == ".java") { configuration.addJavaSourceRoot(file) } } } fun addRoots(list: List) { configuration.addAll(CLIConfigurationKeys.CONTENT_ROOTS, list) } /** * Disposes the environment and frees all associated resources. */ override fun dispose() { Disposer.dispose(this) } } fun contentRootFromPath(path: String): ContentRoot { val file = File(path) return if (file.extension == "java") JavaSourceRoot(file, null) else KotlinSourceRoot(path, false) } class DokkaResolutionFacade(override val project: Project, override val moduleDescriptor: ModuleDescriptor, val resolverForModule: ResolverForModule) : ResolutionFacade { override fun analyzeWithAllCompilerChecks(elements: Collection): AnalysisResult { throw UnsupportedOperationException() } override fun tryGetFrontendService(element: PsiElement, serviceClass: Class): T? { return resolverForModule.componentProvider.tryGetService(serviceClass) } override fun resolveToDescriptor(declaration: KtDeclaration, bodyResolveMode: BodyResolveMode): DeclarationDescriptor { return resolveSession.resolveToDescriptor(declaration) } override fun analyze(elements: Collection, bodyResolveMode: BodyResolveMode): BindingContext { throw UnsupportedOperationException() } val resolveSession: ResolveSession get() = getFrontendService(ResolveSession::class.java) override fun analyze(element: KtElement, bodyResolveMode: BodyResolveMode): BindingContext { if (element is KtDeclaration) { val descriptor = resolveToDescriptor(element) return object : BindingContext { override fun getKeys(p0: WritableSlice?): Collection { throw UnsupportedOperationException() } override fun getType(p0: KtExpression): KotlinType? { throw UnsupportedOperationException() } override fun get(slice: ReadOnlySlice?, key: K): V? { if (key != element) { throw UnsupportedOperationException() } return when { slice == BindingContext.DECLARATION_TO_DESCRIPTOR -> descriptor as V slice == BindingContext.PRIMARY_CONSTRUCTOR_PARAMETER && (element as KtParameter).hasValOrVar() -> descriptor as V else -> null } } override fun getDiagnostics(): Diagnostics { throw UnsupportedOperationException() } override fun addOwnDataTo(p0: BindingTrace, p1: Boolean) { throw UnsupportedOperationException() } override fun getSliceContents(p0: ReadOnlySlice): ImmutableMap { throw UnsupportedOperationException() } } } throw UnsupportedOperationException() } override fun getFrontendService(element: PsiElement, serviceClass: Class): T { throw UnsupportedOperationException() } override fun getFrontendService(serviceClass: Class): T { return resolverForModule.componentProvider.getService(serviceClass) } override fun getFrontendService(moduleDescriptor: ModuleDescriptor, serviceClass: Class): T { return resolverForModule.componentProvider.getService(serviceClass) } override fun getIdeService(serviceClass: Class): T { throw UnsupportedOperationException() } }