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/*
 * Copyright (c) 2012, 2016, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * This code is free software; you can redistribute it and/or modify it
 * under the terms of the GNU General Public License version 2 only, as
 * published by the Free Software Foundation.  Oracle designates this
 * particular file as subject to the "Classpath" exception as provided
 * by Oracle in the LICENSE file that accompanied this code.
 *
 * This code is distributed in the hope that it will be useful, but WITHOUT
 * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
 * FITNESS FOR A PARTICULAR PURPOSE.  See the GNU General Public License
 * version 2 for more details (a copy is included in the LICENSE file that
 * accompanied this code).
 *
 * You should have received a copy of the GNU General Public License version
 * 2 along with this work; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
 *
 * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
 * or visit www.oracle.com if you need additional information or have any
 * questions.
 */

package org.openjdk.tools.javac.parser;

import java.text.BreakIterator;
import java.util.HashMap;
import java.util.Map;

import org.openjdk.source.doctree.AttributeTree.ValueKind;
import org.openjdk.tools.javac.parser.DocCommentParser.TagParser.Kind;
import org.openjdk.tools.javac.parser.Tokens.Comment;
import org.openjdk.tools.javac.parser.Tokens.TokenKind;
import org.openjdk.tools.javac.tree.DCTree;
import org.openjdk.tools.javac.tree.DCTree.DCAttribute;
import org.openjdk.tools.javac.tree.DCTree.DCDocComment;
import org.openjdk.tools.javac.tree.DCTree.DCEndPosTree;
import org.openjdk.tools.javac.tree.DCTree.DCErroneous;
import org.openjdk.tools.javac.tree.DCTree.DCIdentifier;
import org.openjdk.tools.javac.tree.DCTree.DCReference;
import org.openjdk.tools.javac.tree.DCTree.DCText;
import org.openjdk.tools.javac.tree.DocTreeMaker;
import org.openjdk.tools.javac.tree.JCTree;
import org.openjdk.tools.javac.util.DiagnosticSource;
import org.openjdk.tools.javac.util.List;
import org.openjdk.tools.javac.util.ListBuffer;
import org.openjdk.tools.javac.util.Log;
import org.openjdk.tools.javac.util.Name;
import org.openjdk.tools.javac.util.Names;
import org.openjdk.tools.javac.util.Position;

import static org.openjdk.tools.javac.util.LayoutCharacters.*;

/**
 *
 *  

This is NOT part of any supported API. * If you write code that depends on this, you do so at your own risk. * This code and its internal interfaces are subject to change or * deletion without notice. */ public class DocCommentParser { static class ParseException extends Exception { private static final long serialVersionUID = 0; ParseException(String key) { super(key); } } final ParserFactory fac; final DiagnosticSource diagSource; final Comment comment; final DocTreeMaker m; final Names names; BreakIterator sentenceBreaker; /** The input buffer, index of most recent character read, * index of one past last character in buffer. */ protected char[] buf; protected int bp; protected int buflen; /** The current character. */ protected char ch; int textStart = -1; int lastNonWhite = -1; boolean newline = true; Map tagParsers; public DocCommentParser(ParserFactory fac, DiagnosticSource diagSource, Comment comment) { this.fac = fac; this.diagSource = diagSource; this.comment = comment; names = fac.names; m = fac.docTreeMaker; initTagParsers(); } public DocCommentParser(ParserFactory fac) { this(fac, null, null); } public DCDocComment parse() { String c = comment.getText(); buf = new char[c.length() + 1]; c.getChars(0, c.length(), buf, 0); buf[buf.length - 1] = EOI; buflen = buf.length - 1; bp = -1; nextChar(); List body = blockContent(); List tags = blockTags(); int pos = !body.isEmpty() ? body.head.pos : !tags.isEmpty() ? tags.head.pos : Position.NOPOS; DCDocComment dc = m.at(pos).newDocCommentTree(comment, body, tags); return dc; } void nextChar() { ch = buf[bp < buflen ? ++bp : buflen]; switch (ch) { case '\f': case '\n': case '\r': newline = true; } } /** * Read block content, consisting of text, html and inline tags. * Terminated by the end of input, or the beginning of the next block tag: * i.e. @ as the first non-whitespace character on a line. */ @SuppressWarnings("fallthrough") protected List blockContent() { ListBuffer trees = new ListBuffer<>(); textStart = -1; loop: while (bp < buflen) { switch (ch) { case '\n': case '\r': case '\f': newline = true; // fallthrough case ' ': case '\t': nextChar(); break; case '&': entity(trees); break; case '<': newline = false; addPendingText(trees, bp - 1); trees.add(html()); if (textStart == -1) { textStart = bp; lastNonWhite = -1; } break; case '>': newline = false; addPendingText(trees, bp - 1); trees.add(m.at(bp).newErroneousTree(newString(bp, bp + 1), diagSource, "dc.bad.gt")); nextChar(); if (textStart == -1) { textStart = bp; lastNonWhite = -1; } break; case '{': inlineTag(trees); break; case '@': if (newline) { addPendingText(trees, lastNonWhite); break loop; } // fallthrough default: newline = false; if (textStart == -1) textStart = bp; lastNonWhite = bp; nextChar(); } } if (lastNonWhite != -1) addPendingText(trees, lastNonWhite); return trees.toList(); } /** * Read a series of block tags, including their content. * Standard tags parse their content appropriately. * Non-standard tags are represented by {@link UnknownBlockTag}. */ protected List blockTags() { ListBuffer tags = new ListBuffer<>(); while (ch == '@') tags.add(blockTag()); return tags.toList(); } /** * Read a single block tag, including its content. * Standard tags parse their content appropriately. * Non-standard tags are represented by {@link UnknownBlockTag}. */ protected DCTree blockTag() { int p = bp; try { nextChar(); if (isIdentifierStart(ch)) { Name name = readTagName(); TagParser tp = tagParsers.get(name); if (tp == null) { List content = blockContent(); return m.at(p).newUnknownBlockTagTree(name, content); } else { switch (tp.getKind()) { case BLOCK: return tp.parse(p); case INLINE: return erroneous("dc.bad.inline.tag", p); } } } blockContent(); return erroneous("dc.no.tag.name", p); } catch (ParseException e) { blockContent(); return erroneous(e.getMessage(), p); } } protected void inlineTag(ListBuffer list) { newline = false; nextChar(); if (ch == '@') { addPendingText(list, bp - 2); list.add(inlineTag()); textStart = bp; lastNonWhite = -1; } else { if (textStart == -1) textStart = bp - 1; lastNonWhite = bp; } } /** * Read a single inline tag, including its content. * Standard tags parse their content appropriately. * Non-standard tags are represented by {@link UnknownBlockTag}. * Malformed tags may be returned as {@link Erroneous}. */ protected DCTree inlineTag() { int p = bp - 1; try { nextChar(); if (isIdentifierStart(ch)) { Name name = readTagName(); TagParser tp = tagParsers.get(name); if (tp == null) { skipWhitespace(); DCTree text = inlineText(WhitespaceRetentionPolicy.REMOVE_ALL); if (text != null) { nextChar(); return m.at(p).newUnknownInlineTagTree(name, List.of(text)).setEndPos(bp); } } else { if (!tp.retainWhiteSpace) { skipWhitespace(); } if (tp.getKind() == TagParser.Kind.INLINE) { DCEndPosTree tree = (DCEndPosTree) tp.parse(p); if (tree != null) { return tree.setEndPos(bp); } } else { // handle block tags (ex: @see) in inline content inlineText(WhitespaceRetentionPolicy.REMOVE_ALL); // skip content nextChar(); } } } return erroneous("dc.no.tag.name", p); } catch (ParseException e) { return erroneous(e.getMessage(), p); } } private static enum WhitespaceRetentionPolicy { RETAIN_ALL, REMOVE_FIRST_SPACE, REMOVE_ALL } /** * Read plain text content of an inline tag. * Matching pairs of { } are skipped; the text is terminated by the first * unmatched }. It is an error if the beginning of the next tag is detected. */ private DCTree inlineText(WhitespaceRetentionPolicy whitespacePolicy) throws ParseException { switch (whitespacePolicy) { case REMOVE_ALL: skipWhitespace(); break; case REMOVE_FIRST_SPACE: if (ch == ' ') nextChar(); break; case RETAIN_ALL: default: // do nothing break; } int pos = bp; int depth = 1; loop: while (bp < buflen) { switch (ch) { case '\n': case '\r': case '\f': newline = true; break; case ' ': case '\t': break; case '{': newline = false; lastNonWhite = bp; depth++; break; case '}': if (--depth == 0) { return m.at(pos).newTextTree(newString(pos, bp)); } newline = false; lastNonWhite = bp; break; case '@': if (newline) break loop; newline = false; lastNonWhite = bp; break; default: newline = false; lastNonWhite = bp; break; } nextChar(); } throw new ParseException("dc.unterminated.inline.tag"); } /** * Read Java class name, possibly followed by member * Matching pairs of {@literal < >} are skipped. The text is terminated by the first * unmatched }. It is an error if the beginning of the next tag is detected. */ // TODO: boolean allowMember should be enum FORBID, ALLOW, REQUIRE // TODO: improve quality of parse to forbid bad constructions. // TODO: update to use ReferenceParser @SuppressWarnings("fallthrough") protected DCReference reference(boolean allowMember) throws ParseException { int pos = bp; int depth = 0; // scan to find the end of the signature, by looking for the first // whitespace not enclosed in () or <>, or the end of the tag loop: while (bp < buflen) { switch (ch) { case '\n': case '\r': case '\f': newline = true; // fallthrough case ' ': case '\t': if (depth == 0) break loop; break; case '(': case '<': newline = false; depth++; break; case ')': case '>': newline = false; --depth; break; case '}': if (bp == pos) return null; newline = false; break loop; case '@': if (newline) break loop; // fallthrough default: newline = false; } nextChar(); } if (depth != 0) throw new ParseException("dc.unterminated.signature"); String sig = newString(pos, bp); // Break sig apart into qualifiedExpr member paramTypes. JCTree qualExpr; Name member; List paramTypes; Log.DeferredDiagnosticHandler deferredDiagnosticHandler = new Log.DeferredDiagnosticHandler(fac.log); try { int hash = sig.indexOf("#"); int lparen = sig.indexOf("(", hash + 1); if (hash == -1) { if (lparen == -1) { qualExpr = parseType(sig); member = null; } else { qualExpr = null; member = parseMember(sig.substring(0, lparen)); } } else { qualExpr = (hash == 0) ? null : parseType(sig.substring(0, hash)); if (lparen == -1) member = parseMember(sig.substring(hash + 1)); else member = parseMember(sig.substring(hash + 1, lparen)); } if (lparen < 0) { paramTypes = null; } else { int rparen = sig.indexOf(")", lparen); if (rparen != sig.length() - 1) throw new ParseException("dc.ref.bad.parens"); paramTypes = parseParams(sig.substring(lparen + 1, rparen)); } if (!deferredDiagnosticHandler.getDiagnostics().isEmpty()) throw new ParseException("dc.ref.syntax.error"); } finally { fac.log.popDiagnosticHandler(deferredDiagnosticHandler); } return m.at(pos).newReferenceTree(sig, qualExpr, member, paramTypes).setEndPos(bp); } JCTree parseType(String s) throws ParseException { JavacParser p = fac.newParser(s, false, false, false); JCTree tree = p.parseType(); if (p.token().kind != TokenKind.EOF) throw new ParseException("dc.ref.unexpected.input"); return tree; } Name parseMember(String s) throws ParseException { JavacParser p = fac.newParser(s, false, false, false); Name name = p.ident(); if (p.token().kind != TokenKind.EOF) throw new ParseException("dc.ref.unexpected.input"); return name; } List parseParams(String s) throws ParseException { if (s.trim().isEmpty()) return List.nil(); JavacParser p = fac.newParser(s.replace("...", "[]"), false, false, false); ListBuffer paramTypes = new ListBuffer<>(); paramTypes.add(p.parseType()); if (p.token().kind == TokenKind.IDENTIFIER) p.nextToken(); while (p.token().kind == TokenKind.COMMA) { p.nextToken(); paramTypes.add(p.parseType()); if (p.token().kind == TokenKind.IDENTIFIER) p.nextToken(); } if (p.token().kind != TokenKind.EOF) throw new ParseException("dc.ref.unexpected.input"); return paramTypes.toList(); } /** * Read Java identifier * Matching pairs of { } are skipped; the text is terminated by the first * unmatched }. It is an error if the beginning of the next tag is detected. */ @SuppressWarnings("fallthrough") protected DCIdentifier identifier() throws ParseException { skipWhitespace(); int pos = bp; if (isJavaIdentifierStart(ch)) { Name name = readJavaIdentifier(); return m.at(pos).newIdentifierTree(name); } throw new ParseException("dc.identifier.expected"); } /** * Read a quoted string. * It is an error if the beginning of the next tag is detected. */ @SuppressWarnings("fallthrough") protected DCText quotedString() { int pos = bp; nextChar(); loop: while (bp < buflen) { switch (ch) { case '\n': case '\r': case '\f': newline = true; break; case ' ': case '\t': break; case '"': nextChar(); // trim trailing white-space? return m.at(pos).newTextTree(newString(pos, bp)); case '@': if (newline) break loop; } nextChar(); } return null; } /** * Read a term ie. one word. * It is an error if the beginning of the next tag is detected. */ @SuppressWarnings("fallthrough") protected DCText inlineWord() { int pos = bp; int depth = 0; loop: while (bp < buflen) { switch (ch) { case '\n': newline = true; // fallthrough case '\r': case '\f': case ' ': case '\t': return m.at(pos).newTextTree(newString(pos, bp)); case '@': if (newline) break loop; case '{': depth++; break; case '}': if (depth == 0 || --depth == 0) return m.at(pos).newTextTree(newString(pos, bp)); break; } newline = false; nextChar(); } return null; } /** * Read general text content of an inline tag, including HTML entities and elements. * Matching pairs of { } are skipped; the text is terminated by the first * unmatched }. It is an error if the beginning of the next tag is detected. */ @SuppressWarnings("fallthrough") private List inlineContent() { ListBuffer trees = new ListBuffer<>(); skipWhitespace(); int pos = bp; int depth = 1; textStart = -1; loop: while (bp < buflen) { switch (ch) { case '\n': case '\r': case '\f': newline = true; // fall through case ' ': case '\t': nextChar(); break; case '&': entity(trees); break; case '<': newline = false; addPendingText(trees, bp - 1); trees.add(html()); break; case '{': if (textStart == -1) textStart = bp; newline = false; depth++; nextChar(); break; case '}': newline = false; if (--depth == 0) { addPendingText(trees, bp - 1); nextChar(); return trees.toList(); } nextChar(); break; case '@': if (newline) break loop; // fallthrough default: if (textStart == -1) textStart = bp; nextChar(); break; } } return List.of(erroneous("dc.unterminated.inline.tag", pos)); } protected void entity(ListBuffer list) { newline = false; addPendingText(list, bp - 1); list.add(entity()); if (textStart == -1) { textStart = bp; lastNonWhite = -1; } } /** * Read an HTML entity. * {@literal &identifier; } or {@literal &#digits; } or {@literal &#xhex-digits; } */ protected DCTree entity() { int p = bp; nextChar(); Name name = null; if (ch == '#') { int namep = bp; nextChar(); if (isDecimalDigit(ch)) { nextChar(); while (isDecimalDigit(ch)) nextChar(); name = names.fromChars(buf, namep, bp - namep); } else if (ch == 'x' || ch == 'X') { nextChar(); if (isHexDigit(ch)) { nextChar(); while (isHexDigit(ch)) nextChar(); name = names.fromChars(buf, namep, bp - namep); } } } else if (isIdentifierStart(ch)) { name = readIdentifier(); } if (name == null) return erroneous("dc.bad.entity", p); else { if (ch != ';') return erroneous("dc.missing.semicolon", p); nextChar(); return m.at(p).newEntityTree(name); } } /** * Read the start or end of an HTML tag, or an HTML comment * {@literal } or {@literal } */ protected DCTree html() { int p = bp; nextChar(); if (isIdentifierStart(ch)) { Name name = readIdentifier(); List attrs = htmlAttrs(); if (attrs != null) { boolean selfClosing = false; if (ch == '/') { nextChar(); selfClosing = true; } if (ch == '>') { nextChar(); DCTree dctree = m.at(p).newStartElementTree(name, attrs, selfClosing).setEndPos(bp); return dctree; } } } else if (ch == '/') { nextChar(); if (isIdentifierStart(ch)) { Name name = readIdentifier(); skipWhitespace(); if (ch == '>') { nextChar(); return m.at(p).newEndElementTree(name); } } } else if (ch == '!') { nextChar(); if (ch == '-') { nextChar(); if (ch == '-') { nextChar(); while (bp < buflen) { int dash = 0; while (ch == '-') { dash++; nextChar(); } // Strictly speaking, a comment should not contain "--" // so dash > 2 is an error, dash == 2 implies ch == '>' // See http://www.w3.org/TR/html-markup/syntax.html#syntax-comments // for more details. if (dash >= 2 && ch == '>') { nextChar(); return m.at(p).newCommentTree(newString(p, bp)); } nextChar(); } } } } bp = p + 1; ch = buf[bp]; return erroneous("dc.malformed.html", p); } /** * Read a series of HTML attributes, terminated by {@literal > }. * Each attribute is of the form {@literal identifier[=value] }. * "value" may be unquoted, single-quoted, or double-quoted. */ protected List htmlAttrs() { ListBuffer attrs = new ListBuffer<>(); skipWhitespace(); loop: while (isIdentifierStart(ch)) { int namePos = bp; Name name = readAttributeName(); skipWhitespace(); List value = null; ValueKind vkind = ValueKind.EMPTY; if (ch == '=') { ListBuffer v = new ListBuffer<>(); nextChar(); skipWhitespace(); if (ch == '\'' || ch == '"') { vkind = (ch == '\'') ? ValueKind.SINGLE : ValueKind.DOUBLE; char quote = ch; nextChar(); textStart = bp; while (bp < buflen && ch != quote) { if (newline && ch == '@') { attrs.add(erroneous("dc.unterminated.string", namePos)); // No point trying to read more. // In fact, all attrs get discarded by the caller // and superseded by a malformed.html node because // the html tag itself is not terminated correctly. break loop; } attrValueChar(v); } addPendingText(v, bp - 1); nextChar(); } else { vkind = ValueKind.UNQUOTED; textStart = bp; while (bp < buflen && !isUnquotedAttrValueTerminator(ch)) { attrValueChar(v); } addPendingText(v, bp - 1); } skipWhitespace(); value = v.toList(); } DCAttribute attr = m.at(namePos).newAttributeTree(name, vkind, value); attrs.add(attr); } return attrs.toList(); } protected void attrValueChar(ListBuffer list) { switch (ch) { case '&': entity(list); break; case '{': inlineTag(list); break; default: nextChar(); } } protected void addPendingText(ListBuffer list, int textEnd) { if (textStart != -1) { if (textStart <= textEnd) { list.add(m.at(textStart).newTextTree(newString(textStart, textEnd + 1))); } textStart = -1; } } protected DCErroneous erroneous(String code, int pos) { int i = bp - 1; loop: while (i > pos) { switch (buf[i]) { case '\f': case '\n': case '\r': newline = true; break; case '\t': case ' ': break; default: break loop; } i--; } textStart = -1; return m.at(pos).newErroneousTree(newString(pos, i + 1), diagSource, code); } protected boolean isIdentifierStart(char ch) { return Character.isUnicodeIdentifierStart(ch); } protected Name readIdentifier() { int start = bp; nextChar(); while (bp < buflen && Character.isUnicodeIdentifierPart(ch)) nextChar(); return names.fromChars(buf, start, bp - start); } protected Name readAttributeName() { int start = bp; nextChar(); while (bp < buflen && (Character.isUnicodeIdentifierPart(ch) || ch == '-')) nextChar(); return names.fromChars(buf, start, bp - start); } protected Name readTagName() { int start = bp; nextChar(); while (bp < buflen && (Character.isUnicodeIdentifierPart(ch) || ch == '.' || ch == '-' || ch == ':')) { nextChar(); } return names.fromChars(buf, start, bp - start); } protected boolean isJavaIdentifierStart(char ch) { return Character.isJavaIdentifierStart(ch); } protected Name readJavaIdentifier() { int start = bp; nextChar(); while (bp < buflen && Character.isJavaIdentifierPart(ch)) nextChar(); return names.fromChars(buf, start, bp - start); } protected boolean isDecimalDigit(char ch) { return ('0' <= ch && ch <= '9'); } protected boolean isHexDigit(char ch) { return ('0' <= ch && ch <= '9') || ('a' <= ch && ch <= 'f') || ('A' <= ch && ch <= 'F'); } protected boolean isUnquotedAttrValueTerminator(char ch) { switch (ch) { case '\f': case '\n': case '\r': case '\t': case ' ': case '"': case '\'': case '`': case '=': case '<': case '>': return true; default: return false; } } protected boolean isWhitespace(char ch) { return Character.isWhitespace(ch); } protected void skipWhitespace() { while (isWhitespace(ch)) { nextChar(); } } /** * @param start position of first character of string * @param end position of character beyond last character to be included */ String newString(int start, int end) { return new String(buf, start, end - start); } static abstract class TagParser { enum Kind { INLINE, BLOCK } final Kind kind; final DCTree.Kind treeKind; final boolean retainWhiteSpace; TagParser(Kind k, DCTree.Kind tk) { kind = k; treeKind = tk; retainWhiteSpace = false; } TagParser(Kind k, DCTree.Kind tk, boolean retainWhiteSpace) { kind = k; treeKind = tk; this.retainWhiteSpace = retainWhiteSpace; } Kind getKind() { return kind; } DCTree.Kind getTreeKind() { return treeKind; } abstract DCTree parse(int pos) throws ParseException; } /** * @see Javadoc Tags */ private void initTagParsers() { TagParser[] parsers = { // @author name-text new TagParser(Kind.BLOCK, DCTree.Kind.AUTHOR) { public DCTree parse(int pos) { List name = blockContent(); return m.at(pos).newAuthorTree(name); } }, // {@code text} new TagParser(Kind.INLINE, DCTree.Kind.CODE, true) { public DCTree parse(int pos) throws ParseException { DCTree text = inlineText(WhitespaceRetentionPolicy.REMOVE_FIRST_SPACE); nextChar(); return m.at(pos).newCodeTree((DCText) text); } }, // @deprecated deprecated-text new TagParser(Kind.BLOCK, DCTree.Kind.DEPRECATED) { public DCTree parse(int pos) { List reason = blockContent(); return m.at(pos).newDeprecatedTree(reason); } }, // {@docRoot} new TagParser(Kind.INLINE, DCTree.Kind.DOC_ROOT) { public DCTree parse(int pos) throws ParseException { if (ch == '}') { nextChar(); return m.at(pos).newDocRootTree(); } inlineText(WhitespaceRetentionPolicy.REMOVE_ALL); // skip unexpected content nextChar(); throw new ParseException("dc.unexpected.content"); } }, // @exception class-name description new TagParser(Kind.BLOCK, DCTree.Kind.EXCEPTION) { public DCTree parse(int pos) throws ParseException { skipWhitespace(); DCReference ref = reference(false); List description = blockContent(); return m.at(pos).newExceptionTree(ref, description); } }, // @hidden hidden-text new TagParser(Kind.BLOCK, DCTree.Kind.HIDDEN) { public DCTree parse(int pos) { List reason = blockContent(); return m.at(pos).newHiddenTree(reason); } }, // @index search-term options-description new TagParser(Kind.INLINE, DCTree.Kind.INDEX) { public DCTree parse(int pos) throws ParseException { skipWhitespace(); if (ch == '}') { throw new ParseException("dc.no.content"); } DCTree term = ch == '"' ? quotedString() : inlineWord(); if (term == null) { throw new ParseException("dc.no.content"); } skipWhitespace(); List description = List.nil(); if (ch != '}') { description = inlineContent(); } else { nextChar(); } return m.at(pos).newIndexTree(term, description); } }, // {@inheritDoc} new TagParser(Kind.INLINE, DCTree.Kind.INHERIT_DOC) { public DCTree parse(int pos) throws ParseException { if (ch == '}') { nextChar(); return m.at(pos).newInheritDocTree(); } inlineText(WhitespaceRetentionPolicy.REMOVE_ALL); // skip unexpected content nextChar(); throw new ParseException("dc.unexpected.content"); } }, // {@link package.class#member label} new TagParser(Kind.INLINE, DCTree.Kind.LINK) { public DCTree parse(int pos) throws ParseException { DCReference ref = reference(true); List label = inlineContent(); return m.at(pos).newLinkTree(ref, label); } }, // {@linkplain package.class#member label} new TagParser(Kind.INLINE, DCTree.Kind.LINK_PLAIN) { public DCTree parse(int pos) throws ParseException { DCReference ref = reference(true); List label = inlineContent(); return m.at(pos).newLinkPlainTree(ref, label); } }, // {@literal text} new TagParser(Kind.INLINE, DCTree.Kind.LITERAL, true) { public DCTree parse(int pos) throws ParseException { DCTree text = inlineText(WhitespaceRetentionPolicy.REMOVE_FIRST_SPACE); nextChar(); return m.at(pos).newLiteralTree((DCText) text); } }, // @param parameter-name description new TagParser(Kind.BLOCK, DCTree.Kind.PARAM) { public DCTree parse(int pos) throws ParseException { skipWhitespace(); boolean typaram = false; if (ch == '<') { typaram = true; nextChar(); } DCIdentifier id = identifier(); if (typaram) { if (ch != '>') throw new ParseException("dc.gt.expected"); nextChar(); } skipWhitespace(); List desc = blockContent(); return m.at(pos).newParamTree(typaram, id, desc); } }, // @provides service-name description new TagParser(Kind.BLOCK, DCTree.Kind.PROVIDES) { public DCTree parse(int pos) throws ParseException { skipWhitespace(); DCReference ref = reference(true); List description = blockContent(); return m.at(pos).newProvidesTree(ref, description); } }, // @return description new TagParser(Kind.BLOCK, DCTree.Kind.RETURN) { public DCTree parse(int pos) { List description = blockContent(); return m.at(pos).newReturnTree(description); } }, // @see reference | quoted-string | HTML new TagParser(Kind.BLOCK, DCTree.Kind.SEE) { public DCTree parse(int pos) throws ParseException { skipWhitespace(); switch (ch) { case '"': DCText string = quotedString(); if (string != null) { skipWhitespace(); if (ch == '@' || ch == EOI && bp == buf.length - 1) { return m.at(pos).newSeeTree(List.of(string)); } } break; case '<': List html = blockContent(); if (html != null) return m.at(pos).newSeeTree(html); break; case '@': if (newline) throw new ParseException("dc.no.content"); break; case EOI: if (bp == buf.length - 1) throw new ParseException("dc.no.content"); break; default: if (isJavaIdentifierStart(ch) || ch == '#') { DCReference ref = reference(true); List description = blockContent(); return m.at(pos).newSeeTree(description.prepend(ref)); } } throw new ParseException("dc.unexpected.content"); } }, // @serialData data-description new TagParser(Kind.BLOCK, DCTree.Kind.SERIAL_DATA) { public DCTree parse(int pos) { List description = blockContent(); return m.at(pos).newSerialDataTree(description); } }, // @serialField field-name field-type description new TagParser(Kind.BLOCK, DCTree.Kind.SERIAL_FIELD) { public DCTree parse(int pos) throws ParseException { skipWhitespace(); DCIdentifier name = identifier(); skipWhitespace(); DCReference type = reference(false); List description = null; if (isWhitespace(ch)) { skipWhitespace(); description = blockContent(); } return m.at(pos).newSerialFieldTree(name, type, description); } }, // @serial field-description | include | exclude new TagParser(Kind.BLOCK, DCTree.Kind.SERIAL) { public DCTree parse(int pos) { List description = blockContent(); return m.at(pos).newSerialTree(description); } }, // @since since-text new TagParser(Kind.BLOCK, DCTree.Kind.SINCE) { public DCTree parse(int pos) { List description = blockContent(); return m.at(pos).newSinceTree(description); } }, // @throws class-name description new TagParser(Kind.BLOCK, DCTree.Kind.THROWS) { public DCTree parse(int pos) throws ParseException { skipWhitespace(); DCReference ref = reference(false); List description = blockContent(); return m.at(pos).newThrowsTree(ref, description); } }, // @uses service-name description new TagParser(Kind.BLOCK, DCTree.Kind.USES) { public DCTree parse(int pos) throws ParseException { skipWhitespace(); DCReference ref = reference(true); List description = blockContent(); return m.at(pos).newUsesTree(ref, description); } }, // {@value package.class#field} new TagParser(Kind.INLINE, DCTree.Kind.VALUE) { public DCTree parse(int pos) throws ParseException { DCReference ref = reference(true); skipWhitespace(); if (ch == '}') { nextChar(); return m.at(pos).newValueTree(ref); } nextChar(); throw new ParseException("dc.unexpected.content"); } }, // @version version-text new TagParser(Kind.BLOCK, DCTree.Kind.VERSION) { public DCTree parse(int pos) { List description = blockContent(); return m.at(pos).newVersionTree(description); } }, }; tagParsers = new HashMap<>(); for (TagParser p: parsers) tagParsers.put(names.fromString(p.getTreeKind().tagName), p); } }





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