package org.jetbrains.dokka import com.google.inject.Inject import com.intellij.openapi.util.text.StringUtil import com.intellij.psi.PsiJavaFile import org.jetbrains.dokka.DokkaConfiguration.* import org.jetbrains.dokka.Kotlin.DescriptorDocumentationParser import org.jetbrains.kotlin.builtins.KotlinBuiltIns import org.jetbrains.kotlin.descriptors.* import org.jetbrains.kotlin.descriptors.annotations.Annotated import org.jetbrains.kotlin.descriptors.annotations.AnnotationDescriptor import org.jetbrains.kotlin.descriptors.impl.EnumEntrySyntheticClassDescriptor import org.jetbrains.kotlin.idea.kdoc.findKDoc import org.jetbrains.kotlin.js.resolve.diagnostics.findPsi import org.jetbrains.kotlin.kdoc.psi.impl.KDocSection import org.jetbrains.kotlin.lexer.KtTokens import org.jetbrains.kotlin.load.java.structure.impl.JavaClassImpl import org.jetbrains.kotlin.name.FqName import org.jetbrains.kotlin.psi.KtModifierListOwner import org.jetbrains.kotlin.psi.KtParameter import org.jetbrains.kotlin.resolve.DescriptorUtils import org.jetbrains.kotlin.resolve.constants.ConstantValue import org.jetbrains.kotlin.resolve.descriptorUtil.builtIns import org.jetbrains.kotlin.resolve.descriptorUtil.fqNameSafe import org.jetbrains.kotlin.resolve.descriptorUtil.isDocumentedAnnotation import org.jetbrains.kotlin.resolve.findTopMostOverriddenDescriptors import org.jetbrains.kotlin.resolve.jvm.JavaDescriptorResolver import org.jetbrains.kotlin.resolve.source.PsiSourceElement import org.jetbrains.kotlin.resolve.source.getPsi import org.jetbrains.kotlin.types.* import org.jetbrains.kotlin.types.typeUtil.isSubtypeOf import org.jetbrains.kotlin.types.typeUtil.supertypes import java.io.File import java.nio.file.Path import java.nio.file.Paths import com.google.inject.name.Named as GuiceNamed class DocumentationOptions(val outputDir: String, val outputFormat: String, includeNonPublic: Boolean = false, val includeRootPackage: Boolean = false, reportUndocumented: Boolean = true, val skipEmptyPackages: Boolean = true, skipDeprecated: Boolean = false, jdkVersion: Int = 6, val generateIndexPages: Boolean = true, val sourceLinks: List = emptyList(), val impliedPlatforms: List = emptyList(), // Sorted by pattern length perPackageOptions: List = emptyList(), externalDocumentationLinks: List = emptyList(), noStdlibLink: Boolean, cacheRoot: String? = null, val suppressedFiles: List = emptyList()) { init { if (perPackageOptions.any { it.prefix == "" }) throw IllegalArgumentException("Please do not register packageOptions with all match pattern, use global settings instead") } val perPackageOptions = perPackageOptions.sortedByDescending { it.prefix.length } val rootPackageOptions = PackageOptionsImpl("", includeNonPublic, reportUndocumented, skipDeprecated) fun effectivePackageOptions(pack: String): PackageOptions = perPackageOptions.firstOrNull { pack == it.prefix || pack.startsWith(it.prefix + ".") } ?: rootPackageOptions fun effectivePackageOptions(pack: FqName): PackageOptions = effectivePackageOptions(pack.asString()) val defaultLinks = run { val links = mutableListOf(ExternalDocumentationLink.Builder("http://docs.oracle.com/javase/$jdkVersion/docs/api/").build()) if (!noStdlibLink) links += ExternalDocumentationLink.Builder("https://kotlinlang.org/api/latest/jvm/stdlib/").build() links } val externalDocumentationLinks = defaultLinks + externalDocumentationLinks val cacheRoot: Path? = when { cacheRoot == "default" -> Paths.get(System.getProperty("user.home"), ".cache", "dokka") cacheRoot != null -> Paths.get(cacheRoot) else -> null } } private fun isExtensionForExternalClass(extensionFunctionDescriptor: DeclarationDescriptor, extensionReceiverDescriptor: DeclarationDescriptor, allFqNames: Collection): Boolean { val extensionFunctionPackage = DescriptorUtils.getParentOfType(extensionFunctionDescriptor, PackageFragmentDescriptor::class.java) val extensionReceiverPackage = DescriptorUtils.getParentOfType(extensionReceiverDescriptor, PackageFragmentDescriptor::class.java) return extensionFunctionPackage != null && extensionReceiverPackage != null && extensionFunctionPackage.fqName != extensionReceiverPackage.fqName && extensionReceiverPackage.fqName !in allFqNames } interface PackageDocumentationBuilder { fun buildPackageDocumentation(documentationBuilder: DocumentationBuilder, packageName: FqName, packageNode: DocumentationNode, declarations: List, allFqNames: Collection) } interface DefaultPlatformsProvider { fun getDefaultPlatforms(descriptor: DeclarationDescriptor): List } class DocumentationBuilder @Inject constructor(val resolutionFacade: DokkaResolutionFacade, val descriptorDocumentationParser: DescriptorDocumentationParser, val options: DocumentationOptions, val refGraph: NodeReferenceGraph, val platformNodeRegistry: PlatformNodeRegistry, val logger: DokkaLogger, val linkResolver: DeclarationLinkResolver, val defaultPlatformsProvider: DefaultPlatformsProvider) { val boringBuiltinClasses = setOf( "kotlin.Unit", "kotlin.Byte", "kotlin.Short", "kotlin.Int", "kotlin.Long", "kotlin.Char", "kotlin.Boolean", "kotlin.Float", "kotlin.Double", "kotlin.String", "kotlin.Array", "kotlin.Any") val knownModifiers = setOf( KtTokens.PUBLIC_KEYWORD, KtTokens.PROTECTED_KEYWORD, KtTokens.INTERNAL_KEYWORD, KtTokens.PRIVATE_KEYWORD, KtTokens.OPEN_KEYWORD, KtTokens.FINAL_KEYWORD, KtTokens.ABSTRACT_KEYWORD, KtTokens.SEALED_KEYWORD, KtTokens.OVERRIDE_KEYWORD) fun link(node: DocumentationNode, descriptor: DeclarationDescriptor, kind: RefKind) { refGraph.link(node, descriptor.signature(), kind) } fun link(fromDescriptor: DeclarationDescriptor?, toDescriptor: DeclarationDescriptor?, kind: RefKind) { if (fromDescriptor != null && toDescriptor != null) { refGraph.link(fromDescriptor.signature(), toDescriptor.signature(), kind) } } fun register(descriptor: DeclarationDescriptor, node: DocumentationNode) { refGraph.register(descriptor.signature(), node) } fun nodeForDescriptor(descriptor: T, kind: NodeKind): DocumentationNode where T : DeclarationDescriptor, T : Named { val (doc, callback) = descriptorDocumentationParser.parseDocumentationAndDetails(descriptor, kind == NodeKind.Parameter) val node = DocumentationNode(descriptor.name.asString(), doc, kind).withModifiers(descriptor) node.appendSignature(descriptor) callback(node) return node } private fun DocumentationNode.withModifiers(descriptor: DeclarationDescriptor): DocumentationNode { if (descriptor is MemberDescriptor) { appendVisibility(descriptor) if (descriptor !is ConstructorDescriptor) { appendModality(descriptor) } } return this } fun DocumentationNode.appendModality(descriptor: MemberDescriptor) { var modality = descriptor.modality if (modality == Modality.OPEN) { val containingClass = descriptor.containingDeclaration as? ClassDescriptor if (containingClass?.modality == Modality.FINAL) { modality = Modality.FINAL } } val modifier = modality.name.toLowerCase() appendTextNode(modifier, NodeKind.Modifier) } fun DocumentationNode.appendVisibility(descriptor: DeclarationDescriptorWithVisibility) { val modifier = descriptor.visibility.normalize().displayName appendTextNode(modifier, NodeKind.Modifier) } fun DocumentationNode.appendSupertype(descriptor: ClassDescriptor, superType: KotlinType) { val unwrappedType = superType.unwrap() if (unwrappedType is AbbreviatedType) { appendSupertype(descriptor, unwrappedType.abbreviation) } else if (!ignoreSupertype(unwrappedType)) { appendType(unwrappedType, NodeKind.Supertype) val superclass = unwrappedType.constructor.declarationDescriptor link(superclass, descriptor, RefKind.Inheritor) link(descriptor, superclass, RefKind.Superclass) } } private fun ignoreSupertype(superType: KotlinType): Boolean { val superClass = superType.constructor.declarationDescriptor as? ClassDescriptor if (superClass != null) { val fqName = DescriptorUtils.getFqNameSafe(superClass).asString() return fqName == "kotlin.Annotation" || fqName == "kotlin.Enum" || fqName == "kotlin.Any" } return false } fun DocumentationNode.appendProjection(projection: TypeProjection, kind: NodeKind = NodeKind.Type) { if (projection.isStarProjection) { appendTextNode("*", NodeKind.Type) } else { appendType(projection.type, kind, projection.projectionKind.label) } } fun DocumentationNode.appendType(kotlinType: KotlinType?, kind: NodeKind = NodeKind.Type, prefix: String = "") { if (kotlinType == null) return (kotlinType.unwrap() as? AbbreviatedType)?.let { return appendType(it.abbreviation) } if (kotlinType.isDynamic()) { append(DocumentationNode("dynamic", Content.Empty, kind), RefKind.Detail) return } val classifierDescriptor = kotlinType.constructor.declarationDescriptor val name = when (classifierDescriptor) { is ClassDescriptor -> { if (classifierDescriptor.isCompanionObject) { classifierDescriptor.containingDeclaration.name.asString() + "." + classifierDescriptor.name.asString() } else { classifierDescriptor.name.asString() } } is Named -> classifierDescriptor.name.asString() else -> "" } val node = DocumentationNode(name, Content.Empty, kind) if (prefix != "") { node.appendTextNode(prefix, NodeKind.Modifier) } if (kotlinType.isMarkedNullable) { node.appendTextNode("?", NodeKind.NullabilityModifier) } if (classifierDescriptor != null) { val externalLink = linkResolver.externalDocumentationLinkResolver.buildExternalDocumentationLink(classifierDescriptor) if (externalLink != null) { node.append(DocumentationNode(externalLink, Content.Empty, NodeKind.ExternalLink), RefKind.Link) } else { link(node, classifierDescriptor, if (classifierDescriptor.isBoringBuiltinClass()) RefKind.HiddenLink else RefKind.Link) } } append(node, RefKind.Detail) node.appendAnnotations(kotlinType) for (typeArgument in kotlinType.arguments) { node.appendProjection(typeArgument) } } fun ClassifierDescriptor.isBoringBuiltinClass(): Boolean = DescriptorUtils.getFqName(this).asString() in boringBuiltinClasses fun DocumentationNode.appendAnnotations(annotated: Annotated) { annotated.annotations.forEach { it.build()?.let { annotationNode -> if (annotationNode.isSinceKotlin()) { appendSinceKotlin(annotationNode) } else { val refKind = when { it.isDocumented() -> when { annotationNode.isDeprecation() -> RefKind.Deprecation else -> RefKind.Annotation } it.isHiddenInDocumentation() -> RefKind.HiddenAnnotation else -> return@forEach } append(annotationNode, refKind) } } } } fun DocumentationNode.appendSinceKotlin(annotation: DocumentationNode) { val kotlinVersion = annotation .detail(NodeKind.Parameter) .detail(NodeKind.Value) .name.removeSurrounding("\"") append(platformNodeRegistry["Kotlin " + kotlinVersion], RefKind.Platform) } fun DocumentationNode.appendModifiers(descriptor: DeclarationDescriptor) { val psi = (descriptor as DeclarationDescriptorWithSource).source.getPsi() as? KtModifierListOwner ?: return KtTokens.MODIFIER_KEYWORDS_ARRAY.filter { it !in knownModifiers }.forEach { if (psi.hasModifier(it)) { appendTextNode(it.value, NodeKind.Modifier) } } } fun DocumentationNode.appendDefaultPlatforms(descriptor: DeclarationDescriptor) { for (platform in defaultPlatformsProvider.getDefaultPlatforms(descriptor)) { append(platformNodeRegistry[platform], RefKind.Platform) } } fun DocumentationNode.isDeprecation() = name == "Deprecated" || name == "deprecated" fun DocumentationNode.isSinceKotlin() = name == "SinceKotlin" && kind == NodeKind.Annotation fun DocumentationNode.appendSourceLink(sourceElement: SourceElement) { appendSourceLink(sourceElement.getPsi(), options.sourceLinks) } fun DocumentationNode.appendSignature(descriptor: DeclarationDescriptor) { appendTextNode(descriptor.signature(), NodeKind.Signature, RefKind.Detail) } fun DocumentationNode.appendChild(descriptor: DeclarationDescriptor, kind: RefKind): DocumentationNode? { if (!descriptor.isGenerated() && descriptor.isDocumented(options)) { val node = descriptor.build() append(node, kind) return node } return null } fun createGroupNode(signature: String, nodes: List) = (nodes.find { it.kind == NodeKind.GroupNode } ?: DocumentationNode(nodes.first().name, Content.Empty, NodeKind.GroupNode).apply { appendTextNode(signature, NodeKind.Signature, RefKind.Detail) }) .also { groupNode -> nodes.forEach { node -> if (node != groupNode) { node.owner?.let { owner -> node.dropReferences { it.to == owner && it.kind == RefKind.Owner } owner.dropReferences { it.to == node && it.kind == RefKind.Member } owner.append(groupNode, RefKind.Member) } groupNode.append(node, RefKind.Member) } } } fun DocumentationNode.appendOrUpdateMember(descriptor: DeclarationDescriptor) { if (descriptor.isGenerated() || !descriptor.isDocumented(options)) return val existingNode = refGraph.lookup(descriptor.signature()) if (existingNode != null) { if (existingNode.kind == NodeKind.TypeAlias && descriptor is ClassDescriptor || existingNode.kind == NodeKind.Class && descriptor is TypeAliasDescriptor) { val node = createGroupNode(descriptor.signature(), listOf(existingNode, descriptor.build())) register(descriptor, node) return } existingNode.updatePlatforms(descriptor) if (descriptor is ClassDescriptor) { val membersToDocument = descriptor.collectMembersToDocument() for ((memberDescriptor, inheritedLinkKind, extraModifier) in membersToDocument) { if (memberDescriptor is ClassDescriptor) { existingNode.appendOrUpdateMember(memberDescriptor) // recurse into nested classes } else { val existingMemberNode = refGraph.lookup(memberDescriptor.signature()) if (existingMemberNode != null) { existingMemberNode.updatePlatforms(memberDescriptor) } else { existingNode.appendClassMember(memberDescriptor, inheritedLinkKind, extraModifier) } } } } } else { appendChild(descriptor, RefKind.Member) } } private fun DocumentationNode.updatePlatforms(descriptor: DeclarationDescriptor) { for (platform in defaultPlatformsProvider.getDefaultPlatforms(descriptor) - platforms) { append(platformNodeRegistry[platform], RefKind.Platform) } } fun DocumentationNode.appendClassMember(descriptor: DeclarationDescriptor, inheritedLinkKind: RefKind = RefKind.InheritedMember, extraModifier: String?) { if (descriptor is CallableMemberDescriptor && descriptor.kind == CallableMemberDescriptor.Kind.FAKE_OVERRIDE) { val baseDescriptor = descriptor.overriddenDescriptors.firstOrNull() if (baseDescriptor != null) { link(this, baseDescriptor, inheritedLinkKind) } } else { val descriptorToUse = if (descriptor is ConstructorDescriptor) descriptor else descriptor.original val child = appendChild(descriptorToUse, RefKind.Member) if (extraModifier != null) { child?.appendTextNode("static", NodeKind.Modifier) } } } fun DocumentationNode.appendInPageChildren(descriptors: Iterable, kind: RefKind) { descriptors.forEach { descriptor -> val node = appendChild(descriptor, kind) node?.addReferenceTo(this, RefKind.TopLevelPage) } } fun DocumentationModule.appendFragments(fragments: Collection, packageContent: Map, packageDocumentationBuilder: PackageDocumentationBuilder) { val allFqNames = fragments.map { it.fqName }.distinct() for (packageName in allFqNames) { if (packageName.isRoot && !options.includeRootPackage) continue val declarations = fragments.filter { it.fqName == packageName }.flatMap { it.getMemberScope().getContributedDescriptors() } if (options.skipEmptyPackages && declarations.none { it.isDocumented(options) }) continue logger.info(" package $packageName: ${declarations.count()} declarations") val packageNode = findOrCreatePackageNode(packageName.asString(), packageContent, this@DocumentationBuilder.refGraph) packageDocumentationBuilder.buildPackageDocumentation(this@DocumentationBuilder, packageName, packageNode, declarations, allFqNames) } propagateExtensionFunctionsToSubclasses(fragments) } private fun propagateExtensionFunctionsToSubclasses(fragments: Collection) { val allDescriptors = fragments.flatMap { it.getMemberScope().getContributedDescriptors() } val allClasses = allDescriptors.filterIsInstance() val classHierarchy = buildClassHierarchy(allClasses) val allExtensionFunctions = allDescriptors .filterIsInstance() .filter { it.extensionReceiverParameter != null } val extensionFunctionsByName = allExtensionFunctions.groupBy { it.name } for (extensionFunction in allExtensionFunctions) { if (extensionFunction.dispatchReceiverParameter != null) continue val possiblyShadowingFunctions = extensionFunctionsByName[extensionFunction.name] ?.filter { fn -> fn.canShadow(extensionFunction) } ?: emptyList() if (extensionFunction.extensionReceiverParameter?.type?.isDynamic() == true) continue val classDescriptor = extensionFunction.getExtensionClassDescriptor() ?: continue val subclasses = classHierarchy[classDescriptor] ?: continue subclasses.forEach { subclass -> if (subclass.isExtensionApplicable(extensionFunction) && possiblyShadowingFunctions.none { subclass.isExtensionApplicable(it) }) { refGraph.link(subclass.signature(), extensionFunction.signature(), RefKind.Extension) } } } } private fun ClassDescriptor.isExtensionApplicable(extensionFunction: CallableMemberDescriptor): Boolean { val receiverType = extensionFunction.extensionReceiverParameter!!.type if (receiverType.arguments.any { it.type.constructor.declarationDescriptor is TypeParameterDescriptor }) { val receiverClass = receiverType.constructor.declarationDescriptor return receiverClass is ClassDescriptor && DescriptorUtils.isSubclass(this, receiverClass) } return defaultType.isSubtypeOf(receiverType) } private fun buildClassHierarchy(classes: List): Map> { val result = hashMapOf>() classes.forEach { cls -> TypeUtils.getAllSupertypes(cls.defaultType).forEach { supertype -> val classDescriptor = supertype.constructor.declarationDescriptor as? ClassDescriptor if (classDescriptor != null) { val subtypesList = result.getOrPut(classDescriptor) { arrayListOf() } subtypesList.add(cls) } } } return result } private fun CallableMemberDescriptor.canShadow(other: CallableMemberDescriptor): Boolean { if (this == other) return false if (this is PropertyDescriptor && other is PropertyDescriptor) { return true } if (this is FunctionDescriptor && other is FunctionDescriptor) { val parameters1 = valueParameters val parameters2 = other.valueParameters if (parameters1.size != parameters2.size) { return false } for ((p1, p2) in parameters1 zip parameters2) { if (p1.type != p2.type) { return false } } return true } return false } fun DeclarationDescriptor.build(): DocumentationNode = when (this) { is ClassDescriptor -> build() is ConstructorDescriptor -> build() is PropertyDescriptor -> build() is FunctionDescriptor -> build() is TypeParameterDescriptor -> build() is ValueParameterDescriptor -> build() is ReceiverParameterDescriptor -> build() is TypeAliasDescriptor -> build() else -> throw IllegalStateException("Descriptor $this is not known") } fun TypeAliasDescriptor.build(): DocumentationNode { val node = nodeForDescriptor(this, NodeKind.TypeAlias) node.appendAnnotations(this) node.appendModifiers(this) node.appendInPageChildren(typeConstructor.parameters, RefKind.Detail) node.appendType(underlyingType, NodeKind.TypeAliasUnderlyingType) node.appendSourceLink(source) node.appendDefaultPlatforms(this) register(this, node) return node } fun ClassDescriptor.build(): DocumentationNode { val kind = when { kind == ClassKind.OBJECT -> NodeKind.Object kind == ClassKind.INTERFACE -> NodeKind.Interface kind == ClassKind.ENUM_CLASS -> NodeKind.Enum kind == ClassKind.ANNOTATION_CLASS -> NodeKind.AnnotationClass kind == ClassKind.ENUM_ENTRY -> NodeKind.EnumItem isSubclassOfThrowable() -> NodeKind.Exception else -> NodeKind.Class } val node = nodeForDescriptor(this, kind) typeConstructor.supertypes.forEach { node.appendSupertype(this, it) } if (getKind() != ClassKind.OBJECT && getKind() != ClassKind.ENUM_ENTRY) { node.appendInPageChildren(typeConstructor.parameters, RefKind.Detail) } for ((descriptor, inheritedLinkKind, extraModifier) in collectMembersToDocument()) { node.appendClassMember(descriptor, inheritedLinkKind, extraModifier) } node.appendAnnotations(this) node.appendModifiers(this) node.appendSourceLink(source) node.appendDefaultPlatforms(this) register(this, node) return node } data class ClassMember(val descriptor: DeclarationDescriptor, val inheritedLinkKind: RefKind = RefKind.InheritedMember, val extraModifier: String? = null) fun ClassDescriptor.collectMembersToDocument(): List { val result = arrayListOf() if (kind != ClassKind.OBJECT && kind != ClassKind.ENUM_ENTRY) { val constructorsToDocument = if (kind == ClassKind.ENUM_CLASS) constructors.filter { it.valueParameters.size > 0 } else constructors constructorsToDocument.mapTo(result) { ClassMember(it) } } defaultType.memberScope.getContributedDescriptors() .filter { it != companionObjectDescriptor } .mapTo(result) { ClassMember(it) } staticScope.getContributedDescriptors() .mapTo(result) { ClassMember(it, extraModifier = "static") } val companionObjectDescriptor = companionObjectDescriptor if (companionObjectDescriptor != null && companionObjectDescriptor.isDocumented(options)) { val descriptors = companionObjectDescriptor.defaultType.memberScope.getContributedDescriptors() val descriptorsToDocument = descriptors.filter { it !is CallableDescriptor || !it.isInheritedFromAny() } descriptorsToDocument.mapTo(result) { ClassMember(it, inheritedLinkKind = RefKind.InheritedCompanionObjectMember) } } return result } fun CallableDescriptor.isInheritedFromAny(): Boolean { return findTopMostOverriddenDescriptors().any { DescriptorUtils.getFqNameSafe(it.containingDeclaration).asString() == "kotlin.Any" } } fun ClassDescriptor.isSubclassOfThrowable(): Boolean = defaultType.supertypes().any { it.constructor.declarationDescriptor == builtIns.throwable } fun ConstructorDescriptor.build(): DocumentationNode { val node = nodeForDescriptor(this, NodeKind.Constructor) node.appendInPageChildren(valueParameters, RefKind.Detail) node.appendDefaultPlatforms(this) register(this, node) return node } private fun CallableMemberDescriptor.inCompanionObject(): Boolean { val containingDeclaration = containingDeclaration if ((containingDeclaration as? ClassDescriptor)?.isCompanionObject ?: false) { return true } val receiver = extensionReceiverParameter return (receiver?.type?.constructor?.declarationDescriptor as? ClassDescriptor)?.isCompanionObject ?: false } fun FunctionDescriptor.build(): DocumentationNode { if (ErrorUtils.containsErrorType(this)) { logger.warn("Found an unresolved type in ${signatureWithSourceLocation()}") } val node = nodeForDescriptor(this, if (inCompanionObject()) NodeKind.CompanionObjectFunction else NodeKind.Function) node.appendInPageChildren(typeParameters, RefKind.Detail) extensionReceiverParameter?.let { node.appendChild(it, RefKind.Detail) } node.appendInPageChildren(valueParameters, RefKind.Detail) node.appendType(returnType) node.appendAnnotations(this) node.appendModifiers(this) node.appendSourceLink(source) node.appendDefaultPlatforms(this) overriddenDescriptors.forEach { addOverrideLink(it, this) } register(this, node) return node } fun addOverrideLink(baseClassFunction: CallableMemberDescriptor, overridingFunction: CallableMemberDescriptor) { val source = baseClassFunction.original.source.getPsi() if (source != null) { link(overridingFunction, baseClassFunction, RefKind.Override) } else { baseClassFunction.overriddenDescriptors.forEach { addOverrideLink(it, overridingFunction) } } } fun PropertyDescriptor.build(): DocumentationNode { val node = nodeForDescriptor(this, if (inCompanionObject()) NodeKind.CompanionObjectProperty else NodeKind.Property) node.appendInPageChildren(typeParameters, RefKind.Detail) extensionReceiverParameter?.let { node.appendChild(it, RefKind.Detail) } node.appendType(returnType) node.appendAnnotations(this) node.appendModifiers(this) node.appendSourceLink(source) if (isVar) { node.appendTextNode("var", NodeKind.Modifier) } getter?.let { if (!it.isDefault) { node.addAccessorDocumentation(descriptorDocumentationParser.parseDocumentation(it), "Getter") } } setter?.let { if (!it.isDefault) { node.addAccessorDocumentation(descriptorDocumentationParser.parseDocumentation(it), "Setter") } } overriddenDescriptors.forEach { addOverrideLink(it, this) } node.appendDefaultPlatforms(this) register(this, node) return node } fun DocumentationNode.addAccessorDocumentation(documentation: Content, prefix: String) { if (documentation == Content.Empty) return updateContent { if (!documentation.children.isEmpty()) { val section = addSection(prefix, null) documentation.children.forEach { section.append(it) } } documentation.sections.forEach { val section = addSection("$prefix ${it.tag}", it.subjectName) it.children.forEach { section.append(it) } } } } fun ValueParameterDescriptor.build(): DocumentationNode { val node = nodeForDescriptor(this, NodeKind.Parameter) node.appendType(varargElementType ?: type) if (declaresDefaultValue()) { val psi = source.getPsi() as? KtParameter if (psi != null) { val defaultValueText = psi.defaultValue?.text if (defaultValueText != null) { node.appendTextNode(defaultValueText, NodeKind.Value) } } } node.appendAnnotations(this) node.appendModifiers(this) if (varargElementType != null && node.details(NodeKind.Modifier).none { it.name == "vararg" }) { node.appendTextNode("vararg", NodeKind.Modifier) } register(this, node) return node } fun TypeParameterDescriptor.build(): DocumentationNode { val doc = descriptorDocumentationParser.parseDocumentation(this) val name = name.asString() val prefix = variance.label val node = DocumentationNode(name, doc, NodeKind.TypeParameter) if (prefix != "") { node.appendTextNode(prefix, NodeKind.Modifier) } if (isReified) { node.appendTextNode("reified", NodeKind.Modifier) } for (constraint in upperBounds) { if (KotlinBuiltIns.isDefaultBound(constraint)) { continue } node.appendType(constraint, NodeKind.UpperBound) } return node } fun ReceiverParameterDescriptor.build(): DocumentationNode { var receiverClass: DeclarationDescriptor = type.constructor.declarationDescriptor!! if ((receiverClass as? ClassDescriptor)?.isCompanionObject ?: false) { receiverClass = receiverClass.containingDeclaration!! } else if (receiverClass is TypeParameterDescriptor) { val upperBoundClass = receiverClass.upperBounds.singleOrNull()?.constructor?.declarationDescriptor if (upperBoundClass != null) { receiverClass = upperBoundClass } } if ((containingDeclaration as? FunctionDescriptor)?.dispatchReceiverParameter == null) { link(receiverClass, containingDeclaration, RefKind.Extension) } val node = DocumentationNode(name.asString(), Content.Empty, NodeKind.Receiver) node.appendType(type) return node } fun AnnotationDescriptor.build(): DocumentationNode? { val annotationClass = type.constructor.declarationDescriptor if (annotationClass == null || ErrorUtils.isError(annotationClass)) { return null } val node = DocumentationNode(annotationClass.name.asString(), Content.Empty, NodeKind.Annotation) allValueArguments.forEach { (name, value) -> val valueNode = value.toDocumentationNode() if (valueNode != null) { val paramNode = DocumentationNode(name.asString(), Content.Empty, NodeKind.Parameter) paramNode.append(valueNode, RefKind.Detail) node.append(paramNode, RefKind.Detail) } } return node } fun ConstantValue<*>.toDocumentationNode(): DocumentationNode? = value?.let { value -> when (value) { is String -> "\"" + StringUtil.escapeStringCharacters(value) + "\"" is EnumEntrySyntheticClassDescriptor -> value.containingDeclaration.name.asString() + "." + value.name.asString() else -> value.toString() }.let { valueString -> DocumentationNode(valueString, Content.Empty, NodeKind.Value) } } } val visibleToDocumentation = setOf(Visibilities.PROTECTED, Visibilities.PUBLIC) fun DeclarationDescriptor.isDocumented(options: DocumentationOptions): Boolean { return (options.effectivePackageOptions(fqNameSafe).includeNonPublic || this !is MemberDescriptor || this.visibility in visibleToDocumentation) && !isDocumentationSuppressed(options) && (!options.effectivePackageOptions(fqNameSafe).skipDeprecated || !isDeprecated()) } private fun DeclarationDescriptor.isGenerated() = this is CallableMemberDescriptor && kind != CallableMemberDescriptor.Kind.DECLARATION class KotlinPackageDocumentationBuilder : PackageDocumentationBuilder { override fun buildPackageDocumentation(documentationBuilder: DocumentationBuilder, packageName: FqName, packageNode: DocumentationNode, declarations: List, allFqNames: Collection) { val externalClassNodes = hashMapOf() declarations.forEach { descriptor -> with(documentationBuilder) { if (descriptor.isDocumented(options)) { val parent = packageNode.getParentForPackageMember(descriptor, externalClassNodes, allFqNames) parent.appendOrUpdateMember(descriptor) } } } } } class KotlinJavaDocumentationBuilder @Inject constructor(val resolutionFacade: DokkaResolutionFacade, val documentationBuilder: DocumentationBuilder, val options: DocumentationOptions, val logger: DokkaLogger) : JavaDocumentationBuilder { override fun appendFile(file: PsiJavaFile, module: DocumentationModule, packageContent: Map) { val classDescriptors = file.classes.map { val javaDescriptorResolver = resolutionFacade.getFrontendService(JavaDescriptorResolver::class.java) javaDescriptorResolver.resolveClass(JavaClassImpl(it)) ?: run { logger.warn("Cannot find descriptor for Java class ${it.qualifiedName}") null } } if (classDescriptors.any { it != null && it.isDocumented(options) }) { val packageNode = module.findOrCreatePackageNode(file.packageName, packageContent, documentationBuilder.refGraph) for (descriptor in classDescriptors.filterNotNull()) { with(documentationBuilder) { packageNode.appendChild(descriptor, RefKind.Member) } } } } } private val hiddenAnnotations = setOf( KotlinBuiltIns.FQ_NAMES.parameterName.asString() ) private fun AnnotationDescriptor.isHiddenInDocumentation() = type.constructor.declarationDescriptor?.fqNameSafe?.asString() in hiddenAnnotations private fun AnnotationDescriptor.isDocumented(): Boolean { if (source.getPsi() != null && mustBeDocumented()) return true val annotationClassName = type.constructor.declarationDescriptor?.fqNameSafe?.asString() return annotationClassName == KotlinBuiltIns.FQ_NAMES.extensionFunctionType.asString() } fun AnnotationDescriptor.mustBeDocumented(): Boolean { val annotationClass = type.constructor.declarationDescriptor as? Annotated ?: return false return annotationClass.isDocumentedAnnotation() } fun DeclarationDescriptor.isDocumentationSuppressed(options: DocumentationOptions): Boolean { val path = this.findPsi()?.containingFile?.virtualFile?.path if (path != null) { if (File(path).absoluteFile in options.suppressedFiles) return true } val doc = findKDoc() if (doc is KDocSection && doc.findTagByName("suppress") != null) return true return hasSuppressDocTag(sourcePsi()) } fun DeclarationDescriptor.sourcePsi() = ((original as DeclarationDescriptorWithSource).source as? PsiSourceElement)?.psi fun DeclarationDescriptor.isDeprecated(): Boolean = annotations.any { DescriptorUtils.getFqName(it.type.constructor.declarationDescriptor!!).asString() == "kotlin.Deprecated" } || (this is ConstructorDescriptor && containingDeclaration.isDeprecated()) fun DocumentationNode.getParentForPackageMember(descriptor: DeclarationDescriptor, externalClassNodes: MutableMap, allFqNames: Collection): DocumentationNode { if (descriptor is CallableMemberDescriptor) { val extensionClassDescriptor = descriptor.getExtensionClassDescriptor() if (extensionClassDescriptor != null && isExtensionForExternalClass(descriptor, extensionClassDescriptor, allFqNames) && !ErrorUtils.isError(extensionClassDescriptor)) { val fqName = DescriptorUtils.getFqNameSafe(extensionClassDescriptor) return externalClassNodes.getOrPut(fqName, { val newNode = DocumentationNode(fqName.asString(), Content.Empty, NodeKind.ExternalClass) append(newNode, RefKind.Member) newNode }) } } return this } fun CallableMemberDescriptor.getExtensionClassDescriptor(): ClassifierDescriptor? { val extensionReceiver = extensionReceiverParameter if (extensionReceiver != null) { val type = extensionReceiver.type val receiverClass = type.constructor.declarationDescriptor as? ClassDescriptor if (receiverClass?.isCompanionObject ?: false) { return receiverClass?.containingDeclaration as? ClassifierDescriptor } return receiverClass } return null } fun DeclarationDescriptor.signature(): String = when (this) { is ClassDescriptor, is PackageFragmentDescriptor, is PackageViewDescriptor, is TypeAliasDescriptor -> DescriptorUtils.getFqName(this).asString() is PropertyDescriptor -> containingDeclaration.signature() + "$" + name + receiverSignature() is FunctionDescriptor -> containingDeclaration.signature() + "$" + name + parameterSignature() is ValueParameterDescriptor -> containingDeclaration.signature() + "/" + name is TypeParameterDescriptor -> containingDeclaration.signature() + "*" + name else -> throw UnsupportedOperationException("Don't know how to calculate signature for $this") } fun PropertyDescriptor.receiverSignature(): String { val receiver = extensionReceiverParameter if (receiver != null) { return "#" + receiver.type.signature() } return "" } fun CallableMemberDescriptor.parameterSignature(): String { val params = valueParameters.map { it.type }.toMutableList() val extensionReceiver = extensionReceiverParameter if (extensionReceiver != null) { params.add(0, extensionReceiver.type) } return "(" + params.map { it.signature() }.joinToString() + ")" } fun KotlinType.signature(): String { val visited = hashSetOf() fun KotlinType.signatureRecursive(): String { if (this in visited) { return "" } visited.add(this) val declarationDescriptor = constructor.declarationDescriptor ?: return "" val typeName = DescriptorUtils.getFqName(declarationDescriptor).asString() if (arguments.isEmpty()) { return typeName } return typeName + arguments.joinToString(prefix = "((", postfix = "))") { it.type.signatureRecursive() } } return signatureRecursive() } fun DeclarationDescriptor.signatureWithSourceLocation(): String { val signature = signature() val sourceLocation = sourceLocation() return if (sourceLocation != null) "$signature ($sourceLocation)" else signature } fun DeclarationDescriptor.sourceLocation(): String? { val psi = sourcePsi() if (psi != null) { val fileName = psi.containingFile.name val lineNumber = psi.lineNumber() return if (lineNumber != null) "$fileName:$lineNumber" else fileName } return null } fun DocumentationModule.prepareForGeneration(options: DocumentationOptions) { if (options.generateIndexPages) { generateAllTypesNode() } nodeRefGraph.resolveReferences() } fun DocumentationNode.generateAllTypesNode() { val allTypes = members(NodeKind.Package) .flatMap { it.members.filter { it.kind in NodeKind.classLike || it.kind == NodeKind.ExternalClass } } .sortedBy { if (it.kind == NodeKind.ExternalClass) it.name.substringAfterLast('.') else it.name } val allTypesNode = DocumentationNode("alltypes", Content.Empty, NodeKind.AllTypes) for (typeNode in allTypes) { allTypesNode.addReferenceTo(typeNode, RefKind.Member) } append(allTypesNode, RefKind.Member) }