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/*
 * Copyright 2015 Google Inc.
 *
 * Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except
 * in compliance with the License. You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software distributed under the License
 * is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express
 * or implied. See the License for the specific language governing permissions and limitations under
 * the License.
 */

package com.google.googlejavaformat.java;

import static com.google.common.base.Preconditions.checkNotNull;
import static com.google.common.collect.Iterables.getLast;
import static java.nio.charset.StandardCharsets.UTF_8;

import com.google.common.base.MoreObjects;
import com.google.common.base.Verify;
import com.google.common.collect.DiscreteDomain;
import com.google.common.collect.ImmutableCollection;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.ImmutableMap;
import com.google.common.collect.ImmutableRangeMap;
import com.google.common.collect.ImmutableSet;
import com.google.common.collect.Iterators;
import com.google.common.collect.Range;
import com.google.common.collect.RangeSet;
import com.google.common.collect.TreeRangeSet;
import com.google.googlejavaformat.Input;
import com.google.googlejavaformat.Newlines;
import com.google.googlejavaformat.java.JavacTokens.RawTok;
import java.io.IOException;
import java.net.URI;
import java.util.ArrayList;
import java.util.Collection;
import java.util.Iterator;
import java.util.List;
import org.openjdk.javax.tools.Diagnostic;
import org.openjdk.javax.tools.DiagnosticCollector;
import org.openjdk.javax.tools.DiagnosticListener;
import org.openjdk.javax.tools.JavaFileObject;
import org.openjdk.javax.tools.JavaFileObject.Kind;
import org.openjdk.javax.tools.SimpleJavaFileObject;
import org.openjdk.tools.javac.file.JavacFileManager;
import org.openjdk.tools.javac.parser.Tokens.TokenKind;
import org.openjdk.tools.javac.tree.JCTree.JCCompilationUnit;
import org.openjdk.tools.javac.util.Context;
import org.openjdk.tools.javac.util.Log;
import org.openjdk.tools.javac.util.Log.DeferredDiagnosticHandler;

/** {@code JavaInput} extends {@link Input} to represent a Java input document. */
public final class JavaInput extends Input {
  /**
   * A {@code JavaInput} is a sequence of {@link Tok}s that cover the Java input. A {@link Tok} is
   * either a token (if {@code isToken()}), or a non-token, which is a comment (if {@code
   * isComment()}) or a newline (if {@code isNewline()}) or a maximal sequence of other whitespace
   * characters (if {@code isSpaces()}). Each {@link Tok} contains a sequence of characters, an
   * index (sequential starting at {@code 0} for tokens and comments, else {@code -1}), and a
   * ({@code 0}-origin) position in the input. The concatenation of the texts of all the {@link
   * Tok}s equals the input. Each Input ends with a token EOF {@link Tok}, with empty text.
   *
   * 

A {@code /*} comment possibly contains newlines; a {@code //} comment does not contain the * terminating newline character, but is followed by a newline {@link Tok}. */ static final class Tok implements Input.Tok { private final int index; private final String originalText; private final String text; private final int position; private final int columnI; private final boolean isToken; private final TokenKind kind; /** * The {@code Tok} constructor. * * @param index its index * @param originalText its original text, before removing Unicode escapes * @param text its text after removing Unicode escapes * @param position its {@code 0}-origin position in the input * @param columnI its {@code 0}-origin column number in the input * @param isToken whether the {@code Tok} is a token * @param kind the token kind */ Tok( int index, String originalText, String text, int position, int columnI, boolean isToken, TokenKind kind) { this.index = index; this.originalText = originalText; this.text = text; this.position = position; this.columnI = columnI; this.isToken = isToken; this.kind = kind; } @Override public int getIndex() { return index; } @Override public String getText() { return text; } @Override public String getOriginalText() { return originalText; } @Override public int length() { return originalText.length(); } @Override public int getPosition() { return position; } @Override public int getColumn() { return columnI; } boolean isToken() { return isToken; } @Override public boolean isNewline() { return Newlines.isNewline(text); } @Override public boolean isSlashSlashComment() { return text.startsWith("//"); } @Override public boolean isSlashStarComment() { return text.startsWith("/*"); } @Override public boolean isJavadocComment() { return text.startsWith("/**") && text.length() > 4; } @Override public boolean isComment() { return isSlashSlashComment() || isSlashStarComment(); } @Override public String toString() { return MoreObjects.toStringHelper(this) .add("index", index) .add("text", text) .add("position", position) .add("columnI", columnI) .add("isToken", isToken) .toString(); } public TokenKind kind() { return kind; } } /** * A {@link Token} contains a token {@link Tok} and its associated non-tokens; each non-token * {@link Tok} belongs to one {@link Token}. Each {@link Token} has an immutable list of its * non-tokens that appear before it, and another list of its non-tokens that appear after it. The * concatenation of the texts of all the {@link Token}s' {@link Tok}s, each preceded by the texts * of its {@code toksBefore} and followed by the texts of its {@code toksAfter}, equals the input. */ static final class Token implements Input.Token { private final Tok tok; private final ImmutableList toksBefore; private final ImmutableList toksAfter; /** * Token constructor. * * @param toksBefore the earlier non-token {link Tok}s assigned to this {@code Token} * @param tok this token {@link Tok} * @param toksAfter the later non-token {link Tok}s assigned to this {@code Token} */ Token(List toksBefore, Tok tok, List toksAfter) { this.toksBefore = ImmutableList.copyOf(toksBefore); this.tok = tok; this.toksAfter = ImmutableList.copyOf(toksAfter); } /** * Get the token's {@link Tok}. * * @return the token's {@link Tok} */ @Override public Tok getTok() { return tok; } /** * Get the earlier {@link Tok}s assigned to this {@code Token}. * * @return the earlier {@link Tok}s assigned to this {@code Token} */ @Override public ImmutableList getToksBefore() { return toksBefore; } /** * Get the later {@link Tok}s assigned to this {@code Token}. * * @return the later {@link Tok}s assigned to this {@code Token} */ @Override public ImmutableList getToksAfter() { return toksAfter; } @Override public String toString() { return MoreObjects.toStringHelper(this) .add("tok", tok) .add("toksBefore", toksBefore) .add("toksAfter", toksAfter) .toString(); } } private final String text; // The input. private int kN; // The number of numbered toks (tokens or comments), excluding the EOF. /* * The following lists record the sequential indices of the {@code Tok}s on each input line. (Only * tokens and comments have sequential indices.) Tokens and {@code //} comments lie on just one * line; {@code /*} comments can lie on multiple lines. These data structures (along with * equivalent ones for the formatted output) let us compute correspondences between the input and * output. */ private final ImmutableMap positionToColumnMap; // Map Tok position to column. private final ImmutableList tokens; // The Tokens for this input. private final ImmutableRangeMap positionTokenMap; // Map position to Token. /** Map from Tok index to the associated Token. */ private final Token[] kToToken; /** * Input constructor. * * @param text the input text * @throws FormatterException if the input cannot be parsed */ public JavaInput(String text) throws FormatterException { this.text = checkNotNull(text); setLines(ImmutableList.copyOf(Newlines.lineIterator(text))); ImmutableList toks = buildToks(text); positionToColumnMap = makePositionToColumnMap(toks); tokens = buildTokens(toks); ImmutableRangeMap.Builder tokenLocations = ImmutableRangeMap.builder(); for (Token token : tokens) { Input.Tok end = JavaOutput.endTok(token); int upper = end.getPosition(); if (!end.getText().isEmpty()) { upper += end.length() - 1; } tokenLocations.put(Range.closed(JavaOutput.startTok(token).getPosition(), upper), token); } positionTokenMap = tokenLocations.build(); // adjust kN for EOF kToToken = new Token[kN + 1]; for (Token token : tokens) { for (Input.Tok tok : token.getToksBefore()) { if (tok.getIndex() < 0) { continue; } kToToken[tok.getIndex()] = token; } kToToken[token.getTok().getIndex()] = token; for (Input.Tok tok : token.getToksAfter()) { if (tok.getIndex() < 0) { continue; } kToToken[tok.getIndex()] = token; } } } private static ImmutableMap makePositionToColumnMap(List toks) { ImmutableMap.Builder builder = ImmutableMap.builder(); for (Tok tok : toks) { builder.put(tok.getPosition(), tok.getColumn()); } return builder.build(); } /** * Get the input text. * * @return the input text */ @Override public String getText() { return text; } @Override public ImmutableMap getPositionToColumnMap() { return positionToColumnMap; } /** Lex the input and build the list of toks. */ private ImmutableList buildToks(String text) throws FormatterException { ImmutableList toks = buildToks(text, ImmutableSet.of()); kN = getLast(toks).getIndex(); computeRanges(toks); return toks; } /** * Lex the input and build the list of toks. * * @param text the text to be lexed. * @param stopTokens a set of tokens which should cause lexing to stop. If one of these is found, * the returned list will include tokens up to but not including that token. */ static ImmutableList buildToks(String text, ImmutableSet stopTokens) throws FormatterException { stopTokens = ImmutableSet.builder().addAll(stopTokens).add(TokenKind.EOF).build(); Context context = new Context(); new JavacFileManager(context, true, UTF_8); DiagnosticCollector diagnosticCollector = new DiagnosticCollector<>(); context.put(DiagnosticListener.class, diagnosticCollector); Log log = Log.instance(context); log.useSource( new SimpleJavaFileObject(URI.create("Source.java"), Kind.SOURCE) { @Override public CharSequence getCharContent(boolean ignoreEncodingErrors) throws IOException { return text; } }); DeferredDiagnosticHandler diagnostics = new DeferredDiagnosticHandler(log); ImmutableList rawToks = JavacTokens.getTokens(text, context, stopTokens); if (diagnostics.getDiagnostics().stream().anyMatch(d -> d.getKind() == Diagnostic.Kind.ERROR)) { return ImmutableList.of(new Tok(0, "", "", 0, 0, true, null)); // EOF } int kN = 0; List toks = new ArrayList<>(); int charI = 0; int columnI = 0; for (RawTok t : rawToks) { if (stopTokens.contains(t.kind())) { break; } int charI0 = t.pos(); // Get string, possibly with Unicode escapes. String originalTokText = text.substring(charI0, t.endPos()); String tokText = t.kind() == TokenKind.STRINGLITERAL ? t.stringVal() // Unicode escapes removed. : originalTokText; char tokText0 = tokText.charAt(0); // The token's first character. final boolean isToken; // Is this tok a token? final boolean isNumbered; // Is this tok numbered? (tokens and comments) String extraNewline = null; // Extra newline at end? List strings = new ArrayList<>(); if (Character.isWhitespace(tokText0)) { isToken = false; isNumbered = false; Iterator it = Newlines.lineIterator(originalTokText); while (it.hasNext()) { String line = it.next(); String newline = Newlines.getLineEnding(line); if (newline != null) { String spaces = line.substring(0, line.length() - newline.length()); if (!spaces.isEmpty()) { strings.add(spaces); } strings.add(newline); } else if (!line.isEmpty()) { strings.add(line); } } } else if (tokText.startsWith("'") || tokText.startsWith("\"")) { isToken = true; isNumbered = true; strings.add(originalTokText); } else if (tokText.startsWith("//") || tokText.startsWith("/*")) { // For compatibility with an earlier lexer, the newline after a // comment is its own tok. if (tokText.startsWith("//") && (originalTokText.endsWith("\n") || originalTokText.endsWith("\r"))) { extraNewline = Newlines.getLineEnding(originalTokText); tokText = tokText.substring(0, tokText.length() - extraNewline.length()); originalTokText = originalTokText.substring(0, originalTokText.length() - extraNewline.length()); } isToken = false; isNumbered = true; strings.add(originalTokText); } else if (Character.isJavaIdentifierStart(tokText0) || Character.isDigit(tokText0) || (tokText0 == '.' && tokText.length() > 1 && Character.isDigit(tokText.charAt(1)))) { // Identifier, keyword, or numeric literal (a dot may begin a number, as in .2D). isToken = true; isNumbered = true; strings.add(tokText); } else { // Other tokens ("+" or "++" or ">>" are broken into one-character toks, because ">>" // cannot be lexed without syntactic knowledge. This implementation fails if the token // contains Unicode escapes. isToken = true; isNumbered = true; for (char c : tokText.toCharArray()) { strings.add(String.valueOf(c)); } } if (strings.size() == 1) { toks.add( new Tok( isNumbered ? kN++ : -1, originalTokText, tokText, charI, columnI, isToken, t.kind())); charI += originalTokText.length(); columnI = updateColumn(columnI, originalTokText); } else { if (strings.size() != 1 && !tokText.equals(originalTokText)) { throw new FormatterException( "Unicode escapes not allowed in whitespace or multi-character operators"); } for (String str : strings) { toks.add(new Tok(isNumbered ? kN++ : -1, str, str, charI, columnI, isToken, null)); charI += str.length(); columnI = updateColumn(columnI, originalTokText); } } if (extraNewline != null) { toks.add(new Tok(-1, extraNewline, extraNewline, charI, columnI, false, null)); columnI = 0; charI += extraNewline.length(); } } toks.add(new Tok(kN, "", "", charI, columnI, true, null)); // EOF tok. return ImmutableList.copyOf(toks); } private static int updateColumn(int columnI, String originalTokText) { Integer last = Iterators.getLast(Newlines.lineOffsetIterator(originalTokText)); if (last > 0) { columnI = originalTokText.length() - last; } else { columnI += originalTokText.length(); } return columnI; } private static ImmutableList buildTokens(List toks) { ImmutableList.Builder tokens = ImmutableList.builder(); int k = 0; int kN = toks.size(); // Remaining non-tokens before the token go here. ImmutableList.Builder toksBefore = ImmutableList.builder(); OUTERMOST: while (k < kN) { while (!toks.get(k).isToken()) { Tok tok = toks.get(k++); toksBefore.add(tok); if (isParamComment(tok)) { while (toks.get(k).isNewline()) { // drop newlines after parameter comments k++; } } } Tok tok = toks.get(k++); // Non-tokens starting on the same line go here too. ImmutableList.Builder toksAfter = ImmutableList.builder(); OUTER: while (k < kN && !toks.get(k).isToken()) { // Don't attach inline comments to certain leading tokens, e.g. for `f(/*flag1=*/true). // // Attaching inline comments to the right token is hard, and this barely // scratches the surface. But it's enough to do a better job with parameter // name comments. // // TODO(cushon): find a better strategy. if (toks.get(k).isSlashStarComment()) { switch (tok.getText()) { case "(": case "<": case ".": break OUTER; default: break; } } if (toks.get(k).isJavadocComment()) { switch (tok.getText()) { case ";": break OUTER; default: break; } } if (isParamComment(toks.get(k))) { tokens.add(new Token(toksBefore.build(), tok, toksAfter.build())); toksBefore = ImmutableList.builder().add(toks.get(k++)); // drop newlines after parameter comments while (toks.get(k).isNewline()) { k++; } continue OUTERMOST; } Tok nonTokenAfter = toks.get(k++); toksAfter.add(nonTokenAfter); if (Newlines.containsBreaks(nonTokenAfter.getText())) { break; } } tokens.add(new Token(toksBefore.build(), tok, toksAfter.build())); toksBefore = ImmutableList.builder(); } return tokens.build(); } private static boolean isParamComment(Tok tok) { return tok.isSlashStarComment() && tok.getText().matches("\\/\\*[A-Za-z0-9\\s_\\-]+=\\s*\\*\\/"); } /** * Convert from an offset and length flag pair to a token range. * * @param offset the {@code 0}-based offset in characters * @param length the length in characters * @return the {@code 0}-based {@link Range} of tokens * @throws FormatterException */ Range characterRangeToTokenRange(int offset, int length) throws FormatterException { int requiredLength = offset + length; if (requiredLength > text.length()) { throw new FormatterException( String.format( "error: invalid length %d, offset + length (%d) is outside the file", length, requiredLength)); } if (length < 0) { return EMPTY_RANGE; } if (length == 0) { // 0 stands for "format the line under the cursor" length = 1; } ImmutableCollection enclosed = getPositionTokenMap() .subRangeMap(Range.closedOpen(offset, offset + length)) .asMapOfRanges() .values(); if (enclosed.isEmpty()) { return EMPTY_RANGE; } return Range.closedOpen( enclosed.iterator().next().getTok().getIndex(), getLast(enclosed).getTok().getIndex() + 1); } /** * Get the number of toks. * * @return the number of toks, including the EOF tok */ int getkN() { return kN; } /** * Get the Token by index. * * @param k the token index */ Token getToken(int k) { return kToToken[k]; } /** * Get the input tokens. * * @return the input tokens */ @Override public ImmutableList getTokens() { return tokens; } /** * Get the navigable map from position to {@link Token}. Used to look for tokens following a given * one, and to implement the --offset and --length flags to reformat a character range in the * input file. * * @return the navigable map from position to {@link Token} */ @Override public ImmutableRangeMap getPositionTokenMap() { return positionTokenMap; } @Override public String toString() { return MoreObjects.toStringHelper(this) .add("tokens", tokens) .add("super", super.toString()) .toString(); } private JCCompilationUnit unit; @Override public int getLineNumber(int inputPosition) { Verify.verifyNotNull(unit, "Expected compilation unit to be set."); return unit.getLineMap().getLineNumber(inputPosition); } @Override public int getColumnNumber(int inputPosition) { Verify.verifyNotNull(unit, "Expected compilation unit to be set."); return unit.getLineMap().getColumnNumber(inputPosition); } // TODO(cushon): refactor JavaInput so the CompilationUnit can be passed into // the constructor. public void setCompilationUnit(JCCompilationUnit unit) { this.unit = unit; } public RangeSet characterRangesToTokenRanges(Collection> characterRanges) throws FormatterException { RangeSet tokenRangeSet = TreeRangeSet.create(); for (Range characterRange0 : characterRanges) { Range characterRange = characterRange0.canonical(DiscreteDomain.integers()); tokenRangeSet.add( characterRangeToTokenRange( characterRange.lowerEndpoint(), characterRange.upperEndpoint() - characterRange.lowerEndpoint())); } return tokenRangeSet; } }





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