package org.jetbrains.dokka.base.parsers import com.intellij.psi.PsiElement import org.intellij.markdown.MarkdownElementTypes import org.intellij.markdown.MarkdownTokenTypes import org.intellij.markdown.ast.ASTNode import org.intellij.markdown.ast.CompositeASTNode import org.intellij.markdown.ast.LeafASTNode import org.intellij.markdown.ast.impl.ListItemCompositeNode import org.intellij.markdown.flavours.gfm.GFMElementTypes import org.intellij.markdown.flavours.gfm.GFMFlavourDescriptor import org.intellij.markdown.flavours.gfm.GFMTokenTypes import org.jetbrains.dokka.base.parsers.factories.DocTagsFromIElementFactory import org.jetbrains.dokka.links.DRI import org.jetbrains.dokka.model.doc.* import org.jetbrains.dokka.model.doc.Suppress import org.jetbrains.kotlin.kdoc.parser.KDocKnownTag import org.jetbrains.kotlin.kdoc.psi.impl.KDocSection import org.jetbrains.kotlin.kdoc.psi.impl.KDocTag import java.net.MalformedURLException import java.net.URL import org.intellij.markdown.parser.MarkdownParser as IntellijMarkdownParser open class MarkdownParser( private val externalDri: (String) -> DRI? ) : Parser() { private lateinit var destinationLinksMap: Map private lateinit var text: String override fun parseStringToDocNode(extractedString: String): DocTag { val gfmFlavourDescriptor = GFMFlavourDescriptor() val markdownAstRoot = IntellijMarkdownParser(gfmFlavourDescriptor).buildMarkdownTreeFromString(extractedString) destinationLinksMap = getAllDestinationLinks(extractedString, markdownAstRoot).toMap() text = extractedString return visitNode(markdownAstRoot) } override fun preparse(text: String) = text private fun headersHandler(node: ASTNode) = DocTagsFromIElementFactory.getInstance( node.type, visitNode(node.children.find { it.type == MarkdownTokenTypes.ATX_CONTENT } ?: throw IllegalStateException("Wrong AST Tree. ATX Header does not contain expected content")).children ) private fun horizontalRulesHandler(node: ASTNode) = DocTagsFromIElementFactory.getInstance(MarkdownTokenTypes.HORIZONTAL_RULE) private fun emphasisHandler(node: ASTNode) = DocTagsFromIElementFactory.getInstance( node.type, children = node.children.evaluateChildrenWithDroppedEnclosingTokens(1) ) private fun strongHandler(node: ASTNode) = DocTagsFromIElementFactory.getInstance( node.type, children = node.children.evaluateChildrenWithDroppedEnclosingTokens(2) ) private fun List.evaluateChildrenWithDroppedEnclosingTokens(count: Int) = drop(count).dropLast(count).evaluateChildren() private fun blockquotesHandler(node: ASTNode) = DocTagsFromIElementFactory.getInstance( node.type, children = node.children .filterIsInstance() .evaluateChildren() ) private fun listsHandler(node: ASTNode): DocTag { val children = node.children.filterIsInstance().flatMap { if (it.children.last().type in listOf( MarkdownElementTypes.ORDERED_LIST, MarkdownElementTypes.UNORDERED_LIST ) ) { val nestedList = it.children.last() (it.children as MutableList).removeAt(it.children.lastIndex) listOf(it, nestedList) } else listOf(it) } return DocTagsFromIElementFactory.getInstance( node.type, children = children .map { if (it.type == MarkdownElementTypes.LIST_ITEM) DocTagsFromIElementFactory.getInstance( it.type, children = it .children .filterIsInstance() .evaluateChildren() ) else visitNode(it) }, params = if (node.type == MarkdownElementTypes.ORDERED_LIST) { val listNumberNode = node.children.first().children.first() mapOf( "start" to text.substring( listNumberNode.startOffset, listNumberNode.endOffset ).trim().dropLast(1) ) } else emptyMap() ) } private fun resolveDRI(mdLink: String): DRI? = mdLink .removePrefix("[") .removeSuffix("]") .let { link -> try { URL(link) null } catch (e: MalformedURLException) { externalDri(link) } } private fun getAllDestinationLinks(text: String, node: ASTNode): List> = node.children .filter { it.type == MarkdownElementTypes.LINK_DEFINITION } .map { text.substring(it.children[0].startOffset, it.children[0].endOffset).toLowerCase() to text.substring(it.children[2].startOffset, it.children[2].endOffset) } + node.children.filterIsInstance().flatMap { getAllDestinationLinks(text, it) } private fun referenceLinksHandler(node: ASTNode): DocTag { val linkLabel = node.children.find { it.type == MarkdownElementTypes.LINK_LABEL } ?: throw IllegalStateException("Wrong AST Tree. Reference link does not contain expected content") val linkText = node.children.findLast { it.type == MarkdownElementTypes.LINK_TEXT } ?: linkLabel val linkKey = text.substring(linkLabel.startOffset, linkLabel.endOffset) val link = destinationLinksMap[linkKey.toLowerCase()] ?: linkKey return linksHandler(linkText, link) } private fun inlineLinksHandler(node: ASTNode): DocTag { val linkText = node.children.find { it.type == MarkdownElementTypes.LINK_TEXT } ?: throw IllegalStateException("Wrong AST Tree. Inline link does not contain expected content") val linkDestination = node.children.find { it.type == MarkdownElementTypes.LINK_DESTINATION } ?: throw IllegalStateException("Wrong AST Tree. Inline link does not contain expected content") val linkTitle = node.children.find { it.type == MarkdownElementTypes.LINK_TITLE } val link = text.substring(linkDestination.startOffset, linkDestination.endOffset) return linksHandler(linkText, link, linkTitle) } private fun markdownFileHandler(node: ASTNode) = DocTagsFromIElementFactory.getInstance( node.type, children = node.children.evaluateChildren() ) private fun autoLinksHandler(node: ASTNode): DocTag { val link = text.substring(node.startOffset + 1, node.endOffset - 1) return linksHandler(node, link) } private fun linksHandler(linkText: ASTNode, link: String, linkTitle: ASTNode? = null): DocTag { val dri: DRI? = resolveDRI(link) val linkTextString = if (linkTitle == null) link else text.substring(linkTitle.startOffset + 1, linkTitle.endOffset - 1) val params = if (linkTitle == null) mapOf("href" to link) else mapOf("href" to link, "title" to linkTextString) return if (dri == null && !link.isRemoteLink()) { DocTagsFromIElementFactory.getInstance( MarkdownTokenTypes.TEXT, params = params, children = linkText.children.drop(1).dropLast(1).evaluateChildren(), body = linkTextString.removeSurrounding("[", "]") ) } else { DocTagsFromIElementFactory.getInstance( MarkdownElementTypes.INLINE_LINK, params = params, children = linkText.children.drop(1).dropLast(1).evaluateChildren(), dri = dri ) } } private fun codeLineHandler(node: ASTNode) = DocTagsFromIElementFactory.getInstance( MarkdownElementTypes.CODE_BLOCK, body = text.substring(node.startOffset, node.endOffset) ) private fun textHandler(node: ASTNode) = DocTagsFromIElementFactory.getInstance( MarkdownTokenTypes.TEXT, body = text.substring(node.startOffset, node.endOffset).transform() ) private fun strikeThroughHandler(node: ASTNode) = DocTagsFromIElementFactory.getInstance( node.type, children = node.children.evaluateChildrenWithDroppedEnclosingTokens(2) ) private fun tableHandler(node: ASTNode) = DocTagsFromIElementFactory.getInstance( GFMElementTypes.TABLE, children = node.children.filterTabSeparators().evaluateChildren() ) private fun headerHandler(node: ASTNode) = DocTagsFromIElementFactory.getInstance( GFMElementTypes.HEADER, children = node.children.filterTabSeparators().evaluateChildren() ) private fun rowHandler(node: ASTNode) = DocTagsFromIElementFactory.getInstance( GFMElementTypes.ROW, children = node.children.filterTabSeparators().evaluateChildren() ) private fun cellHandler(node: ASTNode) = DocTagsFromIElementFactory.getInstance( GFMTokenTypes.CELL, children = node.children.filterTabSeparators().evaluateChildren().trimSurroundingTokensIfText() ) private fun String.isRemoteLink() = try { URL(this) true } catch (e: MalformedURLException) { false } private fun imagesHandler(node: ASTNode): DocTag = with(node.children.last().children) { val destination = find { it.type == MarkdownElementTypes.LINK_DESTINATION } val description = find { it.type == MarkdownElementTypes.LINK_TEXT } val src = destination?.let { mapOf("href" to text.substring(it.startOffset, it.endOffset)) } ?: emptyMap() val alt = description?.let { mapOf("alt" to text.substring(it.startOffset + 1, it.endOffset - 1)) } ?: emptyMap() return DocTagsFromIElementFactory.getInstance( node.type, params = src + alt ) } private fun codeSpansHandler(node: ASTNode) = DocTagsFromIElementFactory.getInstance( node.type, children = listOf( DocTagsFromIElementFactory.getInstance( MarkdownTokenTypes.TEXT, body = text.substring(node.startOffset + 1, node.endOffset - 1).replace('\n', ' ').trimIndent() ) ) ) private fun codeFencesHandler(node: ASTNode) = DocTagsFromIElementFactory.getInstance( node.type, children = node .children .dropWhile { it.type != MarkdownTokenTypes.CODE_FENCE_CONTENT } .dropLastWhile { it.type != MarkdownTokenTypes.CODE_FENCE_CONTENT } .map { if (it.type == MarkdownTokenTypes.EOL) LeafASTNode(MarkdownTokenTypes.HARD_LINE_BREAK, 0, 0) else it }.evaluateChildren(), params = node .children .find { it.type == MarkdownTokenTypes.FENCE_LANG } ?.let { mapOf("lang" to text.substring(it.startOffset, it.endOffset)) } ?: emptyMap() ) private fun codeBlocksHandler(node: ASTNode) = DocTagsFromIElementFactory.getInstance(node.type, children = node.children.mergeLeafASTNodes().map { DocTagsFromIElementFactory.getInstance( MarkdownTokenTypes.TEXT, body = text.substring(it.startOffset, it.endOffset) ) }) private fun defaultHandler(node: ASTNode) = DocTagsFromIElementFactory.getInstance( MarkdownElementTypes.PARAGRAPH, children = node.children.evaluateChildren() ) private fun visitNode(node: ASTNode): DocTag = when (node.type) { MarkdownElementTypes.ATX_1, MarkdownElementTypes.ATX_2, MarkdownElementTypes.ATX_3, MarkdownElementTypes.ATX_4, MarkdownElementTypes.ATX_5, MarkdownElementTypes.ATX_6 -> headersHandler(node) MarkdownTokenTypes.HORIZONTAL_RULE -> horizontalRulesHandler(node) MarkdownElementTypes.STRONG -> strongHandler(node) MarkdownElementTypes.EMPH -> emphasisHandler(node) MarkdownElementTypes.FULL_REFERENCE_LINK, MarkdownElementTypes.SHORT_REFERENCE_LINK -> referenceLinksHandler(node) MarkdownElementTypes.INLINE_LINK -> inlineLinksHandler(node) MarkdownElementTypes.AUTOLINK -> autoLinksHandler(node) MarkdownElementTypes.BLOCK_QUOTE -> blockquotesHandler(node) MarkdownElementTypes.UNORDERED_LIST, MarkdownElementTypes.ORDERED_LIST -> listsHandler(node) MarkdownElementTypes.CODE_BLOCK -> codeBlocksHandler(node) MarkdownElementTypes.CODE_FENCE -> codeFencesHandler(node) MarkdownElementTypes.CODE_SPAN -> codeSpansHandler(node) MarkdownElementTypes.IMAGE -> imagesHandler(node) MarkdownTokenTypes.HARD_LINE_BREAK -> DocTagsFromIElementFactory.getInstance(node.type) MarkdownTokenTypes.CODE_FENCE_CONTENT, MarkdownTokenTypes.CODE_LINE -> codeLineHandler(node) MarkdownTokenTypes.TEXT -> textHandler(node) MarkdownElementTypes.MARKDOWN_FILE -> markdownFileHandler(node) GFMElementTypes.STRIKETHROUGH -> strikeThroughHandler(node) GFMElementTypes.TABLE -> tableHandler(node) GFMElementTypes.HEADER -> headerHandler(node) GFMElementTypes.ROW -> rowHandler(node) GFMTokenTypes.CELL -> cellHandler(node) else -> defaultHandler(node) } private fun List.filterTabSeparators() = this.filterNot { it.type == GFMTokenTypes.TABLE_SEPARATOR } private fun List.evaluateChildren(): List = this.removeUselessTokens().mergeLeafASTNodes().map { visitNode(it) } private fun List.removeUselessTokens(): List = this.filterIndexed { index, node -> !(node.type == MarkdownElementTypes.LINK_DEFINITION || ( node.type == MarkdownTokenTypes.EOL && this.getOrNull(index - 1)?.type == MarkdownTokenTypes.HARD_LINE_BREAK )) } private fun List.trimSurroundingTokensIfText() = mapIndexed { index, elem -> val elemTransformed = if (index == 0 && elem is Text) elem.copy(elem.body.trimStart()) else elem if (index == lastIndex && elemTransformed is Text) elemTransformed.copy(elemTransformed.body.trimEnd()) else elemTransformed } private val notLeafNodes = listOf(MarkdownTokenTypes.HORIZONTAL_RULE, MarkdownTokenTypes.HARD_LINE_BREAK) private fun List.isNotLeaf(index: Int): Boolean = if (index in 0..this.lastIndex) (this[index] is CompositeASTNode) || this[index].type in notLeafNodes else false private fun List.mergeLeafASTNodes(): List { val children: MutableList = mutableListOf() var index = 0 while (index <= this.lastIndex) { if (this.isNotLeaf(index)) { children += this[index] } else { val startOffset = this[index].startOffset val sIndex = index while (index < this.lastIndex) { if (this.isNotLeaf(index + 1) || this[index + 1].startOffset != this[index].endOffset) { mergedLeafNode(this, index, startOffset, sIndex)?.run { children += this } break } index++ } if (index == this.lastIndex) { mergedLeafNode(this, index, startOffset, sIndex)?.run { children += this } } } index++ } return children } private fun mergedLeafNode(nodes: List, index: Int, startOffset: Int, sIndex: Int): LeafASTNode? { val endOffset = nodes[index].endOffset if (text.substring(startOffset, endOffset).transform().trim().isNotEmpty()) { val type = if (nodes.subList(sIndex, index) .any { it.type == MarkdownTokenTypes.CODE_LINE } ) MarkdownTokenTypes.CODE_LINE else MarkdownTokenTypes.TEXT return LeafASTNode(type, startOffset, endOffset) } return null } private fun String.transform() = this .replace(Regex("\n\n+"), "") // Squashing new lines between paragraphs .replace(Regex("\n"), " ") .replace(Regex(" >+ +"), " ") // Replacement used in blockquotes, get rid of garbage companion object { fun parseFromKDocTag(kDocTag: KDocTag?, externalDri: (String) -> DRI?): DocumentationNode { return if (kDocTag == null) { DocumentationNode(emptyList()) } else { fun parseStringToDocNode(text: String) = MarkdownParser(externalDri).parseStringToDocNode(text) DocumentationNode( (listOf(kDocTag) + getAllKDocTags(findParent(kDocTag))).map { when (it.knownTag) { null -> if (it.name == null) Description(parseStringToDocNode(it.getContent())) else CustomTagWrapper( parseStringToDocNode(it.getContent()), it.name!! ) KDocKnownTag.AUTHOR -> Author(parseStringToDocNode(it.getContent())) KDocKnownTag.THROWS -> Throws( parseStringToDocNode(it.getContent()), it.getSubjectName().orEmpty() ) KDocKnownTag.EXCEPTION -> Throws( parseStringToDocNode(it.getContent()), it.getSubjectName().orEmpty() ) KDocKnownTag.PARAM -> Param( parseStringToDocNode(it.getContent()), it.getSubjectName().orEmpty() ) KDocKnownTag.RECEIVER -> Receiver(parseStringToDocNode(it.getContent())) KDocKnownTag.RETURN -> Return(parseStringToDocNode(it.getContent())) KDocKnownTag.SEE -> See( parseStringToDocNode(it.getContent()), it.getSubjectName().orEmpty(), (parseStringToDocNode("[${it.getSubjectName()}]")) .let { val link = it.children[0].children[0] if (link is DocumentationLink) link.dri else null } ) KDocKnownTag.SINCE -> Since(parseStringToDocNode(it.getContent())) KDocKnownTag.CONSTRUCTOR -> Constructor(parseStringToDocNode(it.getContent())) KDocKnownTag.PROPERTY -> Property( parseStringToDocNode(it.getContent()), it.getSubjectName().orEmpty() ) KDocKnownTag.SAMPLE -> Sample( parseStringToDocNode(it.getContent()), it.getSubjectName().orEmpty() ) KDocKnownTag.SUPPRESS -> Suppress(parseStringToDocNode(it.getContent())) } } ) } } private fun findParent(kDoc: PsiElement): PsiElement = if (kDoc is KDocSection) findParent(kDoc.parent) else kDoc private fun getAllKDocTags(kDocImpl: PsiElement): List = kDocImpl.children.filterIsInstance().filterNot { it is KDocSection } + kDocImpl.children.flatMap { getAllKDocTags(it) } } }