All Downloads are FREE. Search and download functionalities are using the official Maven repository.

com.google.gwt.regexp.shared.RegExp Maven / Gradle / Ivy

There is a newer version: 2.12.1
Show newest version
/*
 * Copyright 2010 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.gwt.regexp.shared;

import java.util.ArrayList;
import java.util.HashSet;
import java.util.List;
import java.util.Set;
import java.util.regex.Matcher;
import java.util.regex.Pattern;

/**
 * A class for regular expressions with features like Javascript's RegExp, plus
 * Javascript String's replace and split methods (which can take a RegExp
 * parameter). The pure Java implementation (for server-side use) uses Java's
 * Pattern class, unavailable under GWT. The super-sourced GWT implementation
 * simply calls on to the native Javascript classes.
 * 

* There are a few small incompatibilities between the two implementations. * Java-specific constructs in the regular expression syntax (e.g. [a-z&&[^bc]], * (?<=foo), \A, \Q) work only in the pure Java implementation, not the GWT * implementation, and are not rejected by either. Also, the Javascript-specific * constructs $` and $' in the replacement expression work only in the GWT * implementation, not the pure Java implementation, which rejects them. */ public class RegExp { // In JS syntax, a \ in the replacement string has no special meaning. // In Java syntax, a \ in the replacement string escapes the next character, // so we have to translate \ to \\ before passing it to Java. private static final Pattern REPLACEMENT_BACKSLASH = Pattern.compile("\\\\"); // To get \\, we have to say \\\\\\\\: // \\\\\\\\ --> Java string unescape --> \\\\ // \\\\ ---> Pattern replacement unescape in replacement preprocessing --> \\ private static final String REPLACEMENT_BACKSLASH_FOR_JAVA = "\\\\\\\\"; // In JS syntax, a $& in the replacement string stands for the whole match. // In Java syntax, the equivalent is $0, so we have to translate $& to // $0 before passing it to Java. However, we have to watch out for $$&, which // is actually a Javascript $$ (see below) followed by a & with no special // meaning, and must not get translated. private static final Pattern REPLACEMENT_DOLLAR_AMPERSAND = Pattern.compile("((?:^|\\G|[^$])(?:\\$\\$)*)\\$&"); private static final String REPLACEMENT_DOLLAR_AMPERSAND_FOR_JAVA = "$1\\$0"; // In JS syntax, a $` and $' in the replacement string stand for everything // before the match and everything after the match. // In Java syntax, there is no equivalent, so we detect and reject $` and $'. // However, we have to watch out for $$` and $$', which are actually a JS $$ // (see below) followed by a ` or ' with no special meaning, and must not be // rejected. private static final Pattern REPLACEMENT_DOLLAR_APOSTROPHE = Pattern.compile("(?:^|[^$])(?:\\$\\$)*\\$[`']"); // In JS syntax, a $$ in the replacement string stands for a (single) dollar // sign, $. // In Java syntax, the equivalent is \$, so we have to translate $$ to \$ // before passing it to Java. private static final Pattern REPLACEMENT_DOLLAR_DOLLAR = Pattern.compile("\\$\\$"); // To get \$, we have to say \\\\\\$: // \\\\\\$ --> Java string unescape --> \\\$ // \\\$ ---> Pattern replacement unescape in replacement preprocessing --> \$ private static final String REPLACEMENT_DOLLAR_DOLLAR_FOR_JAVA = "\\\\\\$"; /** * Creates a regular expression object from a pattern with no flags. * * @param pattern the Javascript regular expression pattern to compile * @return a new regular expression * @throws RuntimeException if the pattern is invalid */ public static RegExp compile(String pattern) { return compile(pattern, ""); } /** * Creates a regular expression object from a pattern using the given flags. * * @param pattern the Javascript regular expression pattern to compile * @param flags the flags string, containing at most one occurrence of {@code * 'g'} ({@link #getGlobal()}), {@code 'i'} ({@link #getIgnoreCase()}), * or {@code 'm'} ({@link #getMultiline()}). * @return a new regular expression * @throws RuntimeException if the pattern or the flags are invalid */ public static RegExp compile(String pattern, String flags) { // Parse flags boolean globalFlag = false; int javaPatternFlags = Pattern.UNIX_LINES; for (char flag : parseFlags(flags)) { switch (flag) { case 'g': globalFlag = true; break; case 'i': javaPatternFlags |= Pattern.CASE_INSENSITIVE | Pattern.UNICODE_CASE; break; case 'm': javaPatternFlags |= Pattern.MULTILINE; break; default: throw new IllegalArgumentException("Unknown regexp flag: '" + flag + "'"); } } Pattern javaPattern = Pattern.compile(pattern, javaPatternFlags); return new RegExp(pattern, javaPattern, globalFlag); } /** * Returns a literal pattern String for the specified * String. * *

This method produces a String that can be used to * create a RegExp that would match the string * s as if it were a literal pattern.

Metacharacters * or escape sequences in the input sequence will be given no special * meaning. * * @param input The string to be literalized * @return A literal string replacement */ public static String quote(String input) { return Pattern.quote(input); } /** * Parses a flags string as a set of characters. Does not reject unknown * flags. * * @param flags the flag string to parse * @return a set of flags * @throws IllegalArgumentException if a flag is duplicated */ private static Set parseFlags(String flags) { Set flagsSet = new HashSet(flags.length()); for (int flagIndex = 0; flagIndex < flags.length(); flagIndex++) { char flag = flags.charAt(flagIndex); if (!flagsSet.add(flag)) { throw new IllegalArgumentException("Flag cannot be specified twice: '" + flag + "'"); } } return flagsSet; } private final boolean globalFlag; private int lastIndex; private final Pattern pattern; private final String source; private RegExp(String source, Pattern pattern, boolean globalFlag) { this.source = source; this.pattern = pattern; this.globalFlag = globalFlag; lastIndex = 0; } /** * Applies the regular expression to the given string. This call affects the * value returned by {@link #getLastIndex()} if the global flag is set. * * @param input the string to apply the regular expression to * @return a match result if the string matches, else {@code null} */ public MatchResult exec(String input) { // Start the search at lastIndex if the global flag is true. int searchStartIndex = (globalFlag) ? lastIndex : 0; Matcher matcher; if (input == null || searchStartIndex < 0 || searchStartIndex > input.length()) { // Avoid exceptions: Javascript is more tolerant than Java matcher = null; } else { matcher = pattern.matcher(input); if (!matcher.find(searchStartIndex)) { matcher = null; } } if (matcher != null) { // Match: create a result // Retrieve the matched groups. int groupCount = matcher.groupCount(); List groups = new ArrayList(1 + groupCount); for (int group = 0; group <= groupCount; group++) { groups.add(matcher.group(group)); } if (globalFlag) { lastIndex = matcher.end(); } return new MatchResult(matcher.start(), input, groups); } else { // No match if (globalFlag) { lastIndex = 0; } return null; } } /** * Returns whether the regular expression captures all occurrences of the * pattern. */ public boolean getGlobal() { return globalFlag; } /** * Returns whether the regular expression ignores case. */ public boolean getIgnoreCase() { return (pattern.flags() & Pattern.CASE_INSENSITIVE) != 0; } /** * Returns the zero-based position at which to start the next match. The * return value is not defined if the global flag is not set. After a call * to {@link #exec(String)} or {@link #test(String)}, this method returns * the next position following the most recent match. * * @see #getGlobal() */ public int getLastIndex() { return lastIndex; } /** * Returns whether '$' and '^' match line returns ('\n' and '\r') in addition * to the beginning or end of the string. */ public boolean getMultiline() { return (pattern.flags() & Pattern.MULTILINE) != 0; } /** * Returns the pattern string of the regular expression. */ public String getSource() { return source; } /** * Returns the input string with the part(s) matching the regular expression * replaced with the replacement string. If the global flag is set, replaces * all matches of the regular expression. Otherwise, replaces the first match * of the regular expression. As per Javascript semantics, backslashes in the * replacement string get no special treatment, but the replacement string can * use the following special patterns: *
    *
  • $1, $2, ... $99 - inserts the n'th group matched by the regular * expression. *
  • $& - inserts the entire string matched by the regular expression. *
  • $$ - inserts a $. *
* Note: $` and $' are *not* supported in the pure Java implementation, and * throw an exception. * * @param input the string in which the regular expression is to be searched. * @param replacement the replacement string. * @return the input string with the regular expression replaced by the * replacement string. * @throws RuntimeException if {@code replacement} is invalid */ public String replace(String input, String replacement) { // Replace \ in the replacement with \\ to escape it for Java replace. replacement = REPLACEMENT_BACKSLASH.matcher(replacement).replaceAll( REPLACEMENT_BACKSLASH_FOR_JAVA); // Replace the Javascript-ese $& in the replacement with Java-ese $0, but // watch out for $$&, which should stay $$&, to be changed to \$& below. replacement = REPLACEMENT_DOLLAR_AMPERSAND.matcher(replacement).replaceAll( REPLACEMENT_DOLLAR_AMPERSAND_FOR_JAVA); // Test for Javascript-ese $` and $', which we do not support in the pure // Java version. if (REPLACEMENT_DOLLAR_APOSTROPHE.matcher(replacement).find()) { throw new UnsupportedOperationException( "$` and $' replacements are not supported"); } // Replace the Javascript-ese $$ in the replacement with Java-ese \$. replacement = REPLACEMENT_DOLLAR_DOLLAR.matcher(replacement).replaceAll( REPLACEMENT_DOLLAR_DOLLAR_FOR_JAVA); return globalFlag ? pattern.matcher(input).replaceAll(replacement) : pattern.matcher(input).replaceFirst(replacement); } /** * Sets the zero-based position at which to start the next match. */ public void setLastIndex(int lastIndex) { this.lastIndex = lastIndex; } /** * Splits the input string around matches of the regular expression. If the * regular expression is completely empty, splits the input string into its * constituent characters. If the regular expression is not empty but matches * an empty string, the results are not well defined. * * @param input the string to be split. * @return the strings split off, any of which may be empty. */ public SplitResult split(String input) { return split(input, -1); } /** * Splits the input string around matches of the regular expression. If the * regular expression is completely empty, splits the input string into its * constituent characters. If the regular expression is not empty but matches * an empty string, the results are not well defined. * * Note: There are some browser inconsistencies with this implementation, as * it is delegated to the browser, and no browser follows the spec completely. * A major difference is that IE will exclude empty strings in the result. * * @param input the string to be split. * @param limit the maximum number of strings to split off and return, * ignoring the rest of the input string. If negative, there is no * limit. * @return the strings split off, any of which may be empty. */ public SplitResult split(String input, int limit) { String[] result; if (source.length() == 0) { // Javascript split using a completely empty regular expression splits the // string into its constituent characters. int resultLength = input.length(); if (resultLength > limit && limit >= 0) { resultLength = limit; } result = new String[resultLength]; for (int i = 0; i < resultLength; i++) { result[i] = input.substring(i, i + 1); } } else { result = pattern.split(input, limit < 0 ? -1 : (limit + 1)); if (result.length > limit && limit >= 0) { // Chop off the unsplit part of the string which has been put in // result[limit]. Javascript split does not return it. String[] realResult = new String[limit]; for (int i = 0; i < limit; i++) { realResult[i] = result[i]; } result = realResult; } } return new SplitResult(result); } /** * Determines if the regular expression matches the given string. This call * affects the value returned by {@link #getLastIndex()} if the global flag is * set. Equivalent to: {@code exec(input) != null} * * @param input the string to apply the regular expression to * @return whether the regular expression matches the given string. */ public boolean test(String input) { return exec(input) != null; } }




© 2015 - 2024 Weber Informatics LLC | Privacy Policy