package org.jetbrains.dokka import org.jetbrains.jet.cli.common.arguments.* import org.jetbrains.jet.cli.common.messages.* import org.jetbrains.jet.cli.jvm.* import org.jetbrains.jet.cli.jvm.compiler.* import org.jetbrains.jet.utils.* import java.io.* import org.jetbrains.jet.lang.resolve.java.* import com.google.common.base.* import com.intellij.psi.* import org.jetbrains.jet.lang.resolve.* import org.jetbrains.jet.lang.psi.* import org.jetbrains.jet.analyzer.* import org.jetbrains.jet.lang.descriptors.* import org.jetbrains.jet.lang.resolve.scopes.* import org.jetbrains.jet.lang.resolve.name.* private fun getAnnotationsPath(paths: KotlinPaths, arguments: K2JVMCompilerArguments): MutableList { val annotationsPath = arrayListOf() annotationsPath.add(paths.getJdkAnnotationsPath()) val annotationPaths = arguments.annotations if (annotationPaths != null) { for (element in annotationPaths.split(File.pathSeparatorChar)) { annotationsPath.add(File(element)) } } return annotationsPath } fun JetCoreEnvironment.analyze(messageCollector: MessageCollector): AnalyzeExhaust { val project = getProject() val sourceFiles = getSourceFiles() val analyzerWithCompilerReport = AnalyzerWithCompilerReport(messageCollector) analyzerWithCompilerReport.analyzeAndReport(sourceFiles) { val support = CliLightClassGenerationSupport.getInstanceForCli(project)!! val sharedTrace = support.getTrace() val sharedModule = support.getModule() val compilerConfiguration = getConfiguration()!! AnalyzerFacadeForJVM.analyzeFilesWithJavaIntegration(project, sourceFiles, sharedTrace, Predicates.alwaysTrue(), sharedModule, compilerConfiguration.get(JVMConfigurationKeys.MODULE_IDS), compilerConfiguration.get(JVMConfigurationKeys.INCREMENTAL_CACHE_BASE_DIR)) } val exhaust = analyzerWithCompilerReport.getAnalyzeExhaust() assert(exhaust != null) { "AnalyzeExhaust should be non-null, compiling: " + sourceFiles } return exhaust!! } fun AnalyzerWithCompilerReport.analyzeAndReport(files: List, analyser: () -> AnalyzeExhaust) = analyzeAndReport(analyser, files) fun BindingContext.getPackageFragment(file: JetFile) : PackageFragmentDescriptor? = get(BindingContext.FILE_TO_PACKAGE_FRAGMENT, file) fun DeclarationDescriptor.isUserCode() = when (this) { is PackageViewDescriptor -> false is PackageFragmentDescriptor -> false is PropertyAccessorDescriptor -> !isDefault() is CallableMemberDescriptor -> getKind() == CallableMemberDescriptor.Kind.DECLARATION else -> true } public fun getPackageInnerScope(descriptor: PackageFragmentDescriptor): JetScope { val module = descriptor.getContainingDeclaration() val packageView = module.getPackage(descriptor.fqName) val packageScope = packageView!!.getMemberScope() return packageScope } public fun getClassInnerScope(outerScope: JetScope, descriptor: ClassDescriptor): JetScope { val redeclarationHandler = RedeclarationHandler.DO_NOTHING val headerScope = WritableScopeImpl(outerScope, descriptor, redeclarationHandler, "Class ${descriptor.getName()} header scope") for (typeParameter in descriptor.getTypeConstructor().getParameters()) { headerScope.addTypeParameterDescriptor(typeParameter) } for (constructor in descriptor.getConstructors()) { headerScope.addFunctionDescriptor(constructor) } headerScope.addLabeledDeclaration(descriptor) headerScope.changeLockLevel(WritableScope.LockLevel.READING) val classScope = ChainedScope(descriptor, "Class ${descriptor.getName()} scope", descriptor.getDefaultType().getMemberScope(), headerScope) return classScope } public fun getFunctionInnerScope(outerScope: JetScope, descriptor: FunctionDescriptor): JetScope { val redeclarationHandler = RedeclarationHandler.DO_NOTHING val functionScope = WritableScopeImpl(outerScope, descriptor, redeclarationHandler, "Function ${descriptor.getName()} scope") val receiver = descriptor.getReceiverParameter() if (receiver != null) { functionScope.setImplicitReceiver(receiver) } for (typeParameter in descriptor.getTypeParameters()) { functionScope.addTypeParameterDescriptor(typeParameter) } for (valueParameterDescriptor in descriptor.getValueParameters()) { functionScope.addVariableDescriptor(valueParameterDescriptor) } functionScope.addLabeledDeclaration(descriptor) functionScope.changeLockLevel(WritableScope.LockLevel.READING) return functionScope } public fun getPropertyInnerScope(outerScope: JetScope, descriptor: PropertyDescriptor): JetScope { val redeclarationHandler = RedeclarationHandler.DO_NOTHING val propertyScope = WritableScopeImpl(outerScope, descriptor, redeclarationHandler, "Property ${descriptor.getName()} scope") val receiver = descriptor.getReceiverParameter() if (receiver != null) { propertyScope.setImplicitReceiver(receiver) } for (typeParameter in descriptor.getTypeParameters()) { propertyScope.addTypeParameterDescriptor(typeParameter) } for (valueParameterDescriptor in descriptor.getValueParameters()) { propertyScope.addVariableDescriptor(valueParameterDescriptor) } for (accessor in descriptor.getAccessors()) { propertyScope.addFunctionDescriptor(accessor) } propertyScope.addLabeledDeclaration(descriptor) propertyScope.changeLockLevel(WritableScope.LockLevel.READING) return propertyScope } fun BindingContext.getResolutionScope(descriptor: DeclarationDescriptor): JetScope { when (descriptor) { is PackageFragmentDescriptor -> return getPackageInnerScope(descriptor) is PackageViewDescriptor -> return descriptor.getMemberScope() is ClassDescriptor -> return getClassInnerScope(getResolutionScope(descriptor.getContainingDeclaration()), descriptor) is FunctionDescriptor -> return getFunctionInnerScope(getResolutionScope(descriptor.getContainingDeclaration()), descriptor) is PropertyDescriptor -> return getPropertyInnerScope(getResolutionScope(descriptor.getContainingDeclaration()), descriptor) } if (descriptor is DeclarationDescriptorNonRoot) return getResolutionScope(descriptor.getContainingDeclaration()) throw IllegalArgumentException("Cannot find resolution scope for root $descriptor") }