package org.jetbrains.dokka import com.intellij.psi.* import com.intellij.psi.impl.source.javadoc.CorePsiDocTagValueImpl import com.intellij.psi.impl.source.tree.JavaDocElementType import com.intellij.psi.javadoc.* import com.intellij.psi.util.PsiTreeUtil import com.intellij.util.IncorrectOperationException import com.intellij.util.containers.isNullOrEmpty import org.jetbrains.kotlin.utils.keysToMap import org.jsoup.Jsoup import org.jsoup.nodes.Element import org.jsoup.nodes.Node import org.jsoup.nodes.TextNode import java.net.URI data class JavadocParseResult(val content: Content, val deprecatedContent: Content?) { companion object { val Empty = JavadocParseResult(Content.Empty, null) } } interface JavaDocumentationParser { fun parseDocumentation(element: PsiNamedElement): JavadocParseResult } class JavadocParser( private val refGraph: NodeReferenceGraph, private val logger: DokkaLogger, private val signatureProvider: ElementSignatureProvider, private val externalDocumentationLinkResolver: ExternalDocumentationLinkResolver ) : JavaDocumentationParser { private fun ContentSection.appendTypeElement(signature: String, selector: (DocumentationNode) -> DocumentationNode?) { append(LazyContentBlock { val node = refGraph.lookupOrWarn(signature, logger)?.let(selector) if (node != null) { it.append(NodeRenderContent(node, LanguageService.RenderMode.SUMMARY)) it.symbol(":") it.text(" ") } }) } override fun parseDocumentation(element: PsiNamedElement): JavadocParseResult { val docComment = (element as? PsiDocCommentOwner)?.docComment if (docComment == null) return JavadocParseResult.Empty val result = MutableContent() var deprecatedContent: Content? = null val firstParagraph = ContentParagraph() firstParagraph.convertJavadocElements(docComment.descriptionElements.dropWhile { it.text.trim().isEmpty() }, element) val paragraphs = firstParagraph.children.dropWhile { it !is ContentParagraph } firstParagraph.children.removeAll(paragraphs) if (!firstParagraph.isEmpty()) { result.append(firstParagraph) } paragraphs.forEach { result.append(it) } if (element is PsiMethod) { val tagsByName = element.searchInheritedTags() for ((tagName, tags) in tagsByName) { for ((tag, context) in tags) { val section = result.addSection(javadocSectionDisplayName(tagName), tag.getSubjectName()) val signature = signatureProvider.signature(element) when (tagName) { "param" -> { section.appendTypeElement(signature) { it.details.find { it.kind == NodeKind.Parameter }?.detailOrNull(NodeKind.Type) } } "return" -> { section.appendTypeElement(signature) { it.detailOrNull(NodeKind.Type) } } } section.convertJavadocElements(tag.contentElements(), context) } } } docComment.tags.forEach { tag -> when (tag.name) { "see" -> result.convertSeeTag(tag) "deprecated" -> { deprecatedContent = Content().apply { convertJavadocElements(tag.contentElements(), element) } } in tagsToInherit -> {} else -> { val subjectName = tag.getSubjectName() val section = result.addSection(javadocSectionDisplayName(tag.name), subjectName) section.convertJavadocElements(tag.contentElements(), element) } } } return JavadocParseResult(result, deprecatedContent) } private val tagsToInherit = setOf("param", "return", "throws") private data class TagWithContext(val tag: PsiDocTag, val context: PsiNamedElement) private fun PsiMethod.searchInheritedTags(): Map> { val output = tagsToInherit.keysToMap { mutableMapOf() } fun recursiveSearch(methods: Array) { for (method in methods) { recursiveSearch(method.findSuperMethods()) } for (method in methods) { for (tag in method.docComment?.tags.orEmpty()) { if (tag.name in tagsToInherit) { output[tag.name]!![tag.getSubjectName()] = TagWithContext(tag, method) } } } } recursiveSearch(arrayOf(this)) return output.mapValues { it.value.values } } private fun PsiDocTag.contentElements(): Iterable { val tagValueElements = children .dropWhile { it.node?.elementType == JavaDocTokenType.DOC_TAG_NAME } .dropWhile { it is PsiWhiteSpace } .filterNot { it.node?.elementType == JavaDocTokenType.DOC_COMMENT_LEADING_ASTERISKS } return if (getSubjectName() != null) tagValueElements.dropWhile { it is PsiDocTagValue } else tagValueElements } private fun ContentBlock.convertJavadocElements(elements: Iterable, element: PsiNamedElement) { val doc = Jsoup.parse(expandAllForElements(elements, element)) doc.body().childNodes().forEach { convertHtmlNode(it)?.let { append(it) } } } private fun expandAllForElements(elements: Iterable, element: PsiNamedElement): String { val htmlBuilder = StringBuilder() elements.forEach { if (it is PsiInlineDocTag) { htmlBuilder.append(convertInlineDocTag(it, element)) } else { htmlBuilder.append(it.text) } } return htmlBuilder.toString().trim() } private fun convertHtmlNode(node: Node): ContentNode? { if (node is TextNode) { return ContentText(node.text()) } else if (node is Element) { val childBlock = createBlock(node) node.childNodes().forEach { val child = convertHtmlNode(it) if (child != null) { childBlock.append(child) } } return (childBlock) } return null } private fun createBlock(element: Element): ContentBlock = when (element.tagName()) { "p" -> ContentParagraph() "b", "strong" -> ContentStrong() "i", "em" -> ContentEmphasis() "s", "del" -> ContentStrikethrough() "code" -> ContentCode() "pre" -> ContentBlockCode() "ul" -> ContentUnorderedList() "ol" -> ContentOrderedList() "li" -> ContentListItem() "a" -> createLink(element) "br" -> ContentBlock().apply { hardLineBreak() } else -> ContentBlock() } private fun createLink(element: Element): ContentBlock { return when { element.hasAttr("docref") -> { val docref = element.attr("docref") ContentNodeLazyLink(docref, { -> refGraph.lookupOrWarn(docref, logger) }) } element.hasAttr("href") -> { val href = element.attr("href") val uri = try { URI(href) } catch (_: Exception) { null } if (uri?.isAbsolute == false) { ContentLocalLink(href) } else { ContentExternalLink(href) } } element.hasAttr("name") -> { ContentBookmark(element.attr("name")) } else -> ContentBlock() } } private fun MutableContent.convertSeeTag(tag: PsiDocTag) { val linkElement = tag.linkElement() ?: return val seeSection = findSectionByTag(ContentTags.SeeAlso) ?: addSection(ContentTags.SeeAlso, null) val valueElement = tag.referenceElement() val externalLink = resolveExternalLink(valueElement) val text = ContentText(linkElement.text) val linkSignature by lazy { resolveInternalLink(valueElement) } val node = when { externalLink != null -> { val linkNode = ContentExternalLink(externalLink) linkNode.append(text) linkNode } linkSignature != null -> { val linkNode = ContentNodeLazyLink( (tag.valueElement ?: linkElement).text, { -> refGraph.lookupOrWarn(linkSignature, logger) } ) linkNode.append(text) linkNode } else -> text } seeSection.append(node) } private fun convertInlineDocTag(tag: PsiInlineDocTag, element: PsiNamedElement) = when (tag.name) { "link", "linkplain" -> { val valueElement = tag.referenceElement() val externalLink = resolveExternalLink(valueElement) val linkSignature by lazy { resolveInternalLink(valueElement) } if (externalLink != null || linkSignature != null) { val labelText = tag.dataElements.firstOrNull { it is PsiDocToken }?.text ?: valueElement!!.text val linkTarget = if (externalLink != null) "href=\"$externalLink\"" else "docref=\"$linkSignature\"" val link = "${labelText.htmlEscape()}" if (tag.name == "link") "$link" else link } else if (valueElement != null) { valueElement.text } else { "" } } "code", "literal" -> { val text = StringBuilder() tag.dataElements.forEach { text.append(it.text) } val escaped = text.toString().trimStart().htmlEscape() if (tag.name == "code") "$escaped" else escaped } "inheritDoc" -> { val result = (element as? PsiMethod)?.let { // @{inheritDoc} is only allowed on functions val parent = tag.parent when (parent) { is PsiDocComment -> element.findSuperDocCommentOrWarn() is PsiDocTag -> element.findSuperDocTagOrWarn(parent) else -> null } } result ?: tag.text } else -> tag.text } private fun PsiDocTag.referenceElement(): PsiElement? = linkElement()?.let { if (it.node.elementType == JavaDocElementType.DOC_REFERENCE_HOLDER) { PsiTreeUtil.findChildOfType(it, PsiJavaCodeReferenceElement::class.java) } else { it } } private fun PsiDocTag.linkElement(): PsiElement? = valueElement ?: dataElements.firstOrNull { it !is PsiWhiteSpace } private fun resolveExternalLink(valueElement: PsiElement?): String? { val target = valueElement?.reference?.resolve() if (target != null) { return externalDocumentationLinkResolver.buildExternalDocumentationLink(target) } return null } private fun resolveInternalLink(valueElement: PsiElement?): String? { val target = valueElement?.reference?.resolve() if (target != null) { return signatureProvider.signature(target) } return null } fun PsiDocTag.getSubjectName(): String? { if (name == "param" || name == "throws" || name == "exception") { return valueElement?.text } return null } private fun PsiMethod.findSuperDocCommentOrWarn(): String { val method = findFirstSuperMethodWithDocumentation(this) if (method != null) { val descriptionElements = method.docComment?.descriptionElements?.dropWhile { it.text.trim().isEmpty() } ?: return "" return expandAllForElements(descriptionElements, method) } logger.warn("No docs found on supertype with {@inheritDoc} method ${this.name} in ${this.containingFile.name}:${this.lineNumber()}") return "" } private fun PsiMethod.findSuperDocTagOrWarn(elementToExpand: PsiDocTag): String { val result = findFirstSuperMethodWithDocumentationforTag(elementToExpand, this) if (result != null) { val (method, tag) = result val contentElements = tag.contentElements().dropWhile { it.text.trim().isEmpty() } val expandedString = expandAllForElements(contentElements, method) return expandedString } logger.warn("No docs found on supertype for @${elementToExpand.name} ${elementToExpand.getSubjectName()} with {@inheritDoc} method ${this.name} in ${this.containingFile.name}:${this.lineNumber()}") return "" } private fun findFirstSuperMethodWithDocumentation(current: PsiMethod): PsiMethod? { val superMethods = current.findSuperMethods() for (method in superMethods) { val docs = method.docComment?.descriptionElements?.dropWhile { it.text.trim().isEmpty() } if (!docs.isNullOrEmpty()) { return method } } for (method in superMethods) { val result = findFirstSuperMethodWithDocumentation(method) if (result != null) { return result } } return null } private fun findFirstSuperMethodWithDocumentationforTag(elementToExpand: PsiDocTag, current: PsiMethod): Pair? { val superMethods = current.findSuperMethods() val mappedFilteredTags = superMethods.map { it to it.docComment?.tags?.filter { it.name == elementToExpand.name } } for ((method, tags) in mappedFilteredTags) { tags ?: continue for (tag in tags) { val (tagSubject, elementSubject) = when (tag.name) { "throws" -> { // match class names only for throws, ignore possibly fully qualified path // TODO: Always match exactly here tag.getSubjectName()?.split(".")?.last() to elementToExpand.getSubjectName()?.split(".")?.last() } else -> { tag.getSubjectName() to elementToExpand.getSubjectName() } } if (tagSubject == elementSubject) { return method to tag } } } for (method in superMethods) { val result = findFirstSuperMethodWithDocumentationforTag(elementToExpand, method) if (result != null) { return result } } return null } }