/* * Copyright (C) 2007 The Android Open Source Project * * 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 java.util.regex; /** * The result of applying a {@code Pattern} to a given input. See {@link Pattern} for * example uses. */ public final class Matcher implements MatchResult { /** * Holds the pattern, that is, the compiled regular expression. */ private Pattern pattern; /** * Holds the handle for the native version of the pattern. */ private int address; /** * Holds the input text. */ private String input; /** * Holds the start of the region, or 0 if the matching should start at the * beginning of the text. */ private int regionStart; /** * Holds the end of the region, or input.length() if the matching should * go until the end of the input. */ private int regionEnd; /** * Holds the position where the next find operation will take place. */ private int findPos; /** * Holds the position where the next append operation will take place. */ private int appendPos; /** * Reflects whether a match has been found during the most recent find * operation. */ private boolean matchFound; /** * Holds the offsets for the most recent match. */ private int[] matchOffsets; /** * Reflects whether the bounds of the region are anchoring. */ private boolean anchoringBounds = true; /** * Reflects whether the bounds of the region are transparent. */ private boolean transparentBounds; /** * Creates a matcher for a given combination of pattern and input. Both * elements can be changed later on. * * @param pattern * the pattern to use. * @param input * the input to use. */ Matcher(Pattern pattern, CharSequence input) { usePattern(pattern); reset(input); } /** * Appends a literal part of the input plus a replacement for the current * match to a given {@link StringBuffer}. The literal part is exactly the * part of the input between the previous match and the current match. The * method can be used in conjunction with {@link #find()} and * {@link #appendTail(StringBuffer)} to walk through the input and replace * all occurrences of the {@code Pattern} with something else. * * @param buffer * the {@code StringBuffer} to append to. * @param replacement * the replacement text. * @return the {@code Matcher} itself. * @throws IllegalStateException * if no successful match has been made. */ public Matcher appendReplacement(StringBuffer buffer, String replacement) { buffer.append(input.substring(appendPos, start())); appendEvaluated(buffer, replacement); appendPos = end(); return this; } /** * Internal helper method to append a given string to a given string buffer. * If the string contains any references to groups, these are replaced by * the corresponding group's contents. * * @param buffer * the string buffer. * @param s * the string to append. */ private void appendEvaluated(StringBuffer buffer, String s) { boolean escape = false; boolean dollar = false; for (int i = 0; i < s.length(); i++) { char c = s.charAt(i); if (c == '\\' && !escape) { escape = true; } else if (c == '$' && !escape) { dollar = true; } else if (c >= '0' && c <= '9' && dollar) { buffer.append(group(c - '0')); dollar = false; } else { buffer.append(c); dollar = false; escape = false; } } // This seemingly stupid piece of code reproduces a JDK bug. if (escape) { throw new ArrayIndexOutOfBoundsException(s.length()); } } /** * Resets the {@code Matcher}. This results in the region being set to the * whole input. Results of a previous find get lost. The next attempt to * find an occurrence of the {@link Pattern} in the string will start at the * beginning of the input. * * @return the {@code Matcher} itself. */ public Matcher reset() { return reset(input, 0, input.length()); } /** * Provides a new input and resets the {@code Matcher}. This results in the * region being set to the whole input. Results of a previous find get lost. * The next attempt to find an occurrence of the {@link Pattern} in the * string will start at the beginning of the input. * * @param input * the new input sequence. * * @return the {@code Matcher} itself. */ public Matcher reset(CharSequence input) { return reset(input, 0, input.length()); } /** * Resets the Matcher. A new input sequence and a new region can be * specified. Results of a previous find get lost. The next attempt to find * an occurrence of the Pattern in the string will start at the beginning of * the region. This is the internal version of reset() to which the several * public versions delegate. * * @param input * the input sequence. * @param start * the start of the region. * @param end * the end of the region. * * @return the matcher itself. */ private Matcher reset(CharSequence input, int start, int end) { if (input == null) { throw new IllegalArgumentException(); } if (start < 0 || end < 0 || start > input.length() || end > input.length() || start > end) { throw new IndexOutOfBoundsException(); } this.input = input.toString(); this.regionStart = start; this.regionEnd = end; resetForInput(); matchFound = false; findPos = regionStart; appendPos = 0; return this; } /** * Sets a new pattern for the {@code Matcher}. Results of a previous find * get lost. The next attempt to find an occurrence of the {@link Pattern} * in the string will start at the beginning of the input. * * @param pattern * the new {@code Pattern}. * * @return the {@code Matcher} itself. */ public Matcher usePattern(Pattern pattern) { if (pattern == null) { throw new IllegalArgumentException(); } this.pattern = pattern; if (address != 0) { closeImpl(address); address = 0; } address = openImpl(pattern.address); if (input != null) { resetForInput(); } matchOffsets = new int[(groupCount() + 1) * 2]; matchFound = false; return this; } private void resetForInput() { setInputImpl(address, input, regionStart, regionEnd); useAnchoringBoundsImpl(address, anchoringBounds); useTransparentBoundsImpl(address, transparentBounds); } /** * Resets this matcher and sets a region. Only characters inside the region * are considered for a match. * * @param start * the first character of the region. * @param end * the first character after the end of the region. * @return the {@code Matcher} itself. */ public Matcher region(int start, int end) { return reset(input, start, end); } /** * Appends the (unmatched) remainder of the input to the given * {@link StringBuffer}. The method can be used in conjunction with * {@link #find()} and {@link #appendReplacement(StringBuffer, String)} to * walk through the input and replace all matches of the {@code Pattern} * with something else. * * @param buffer * the {@code StringBuffer} to append to. * @return the {@code StringBuffer}. * @throws IllegalStateException * if no successful match has been made. */ public StringBuffer appendTail(StringBuffer buffer) { if (appendPos < regionEnd) { buffer.append(input.substring(appendPos, regionEnd)); } return buffer; } /** * Replaces the first occurrence of this matcher's pattern in the input with * a given string. * * @param replacement * the replacement text. * @return the modified input string. */ public String replaceFirst(String replacement) { reset(); StringBuffer buffer = new StringBuffer(input.length()); if (find()) { appendReplacement(buffer, replacement); } return appendTail(buffer).toString(); } /** * Replaces all occurrences of this matcher's pattern in the input with a * given string. * * @param replacement * the replacement text. * @return the modified input string. */ public String replaceAll(String replacement) { reset(); StringBuffer buffer = new StringBuffer(input.length()); while (find()) { appendReplacement(buffer, replacement); } return appendTail(buffer).toString(); } /** * Returns the {@link Pattern} instance used inside this matcher. * * @return the {@code Pattern} instance. */ public Pattern pattern() { return pattern; } /** * Returns the text that matched a given group of the regular expression. * Explicit capturing groups in the pattern are numbered left to right in order * of their opening parenthesis, starting at 1. * The special group 0 represents the entire match (as if the entire pattern is surrounded * by an implicit capturing group). * For example, "a((b)c)" matching "abc" would give the following groups: *
* 0 "abc" * 1 "bc" * 2 "b" ** *
An optional capturing group that failed to match as part of an overall * successful match (for example, "a(b)?c" matching "ac") returns null. * A capturing group that matched the empty string (for example, "a(b?)c" matching "ac") * returns the empty string. * * @throws IllegalStateException * if no successful match has been made. */ public String group(int group) { ensureMatch(); int from = matchOffsets[group * 2]; int to = matchOffsets[(group * 2) + 1]; if (from == -1 || to == -1) { return null; } else { return input.substring(from, to); } } /** * Returns the text that matched the whole regular expression. * * @return the text. * @throws IllegalStateException * if no successful match has been made. */ public String group() { return group(0); } /** * Returns the next occurrence of the {@link Pattern} in the input. The * method starts the search from the given character in the input. * * @param start * The index in the input at which the find operation is to * begin. If this is less than the start of the region, it is * automatically adjusted to that value. If it is beyond the end * of the region, the method will fail. * @return true if (and only if) a match has been found. */ public boolean find(int start) { findPos = start; if (findPos < regionStart) { findPos = regionStart; } else if (findPos >= regionEnd) { matchFound = false; return false; } matchFound = findImpl(address, input, findPos, matchOffsets); if (matchFound) { findPos = matchOffsets[1]; } return matchFound; } /** * Returns the next occurrence of the {@link Pattern} in the input. If a * previous match was successful, the method continues the search from the * first character following that match in the input. Otherwise it searches * either from the region start (if one has been set), or from position 0. * * @return true if (and only if) a match has been found. */ public boolean find() { matchFound = findNextImpl(address, input, matchOffsets); if (matchFound) { findPos = matchOffsets[1]; } return matchFound; } /** * Tries to match the {@link Pattern}, starting from the beginning of the * region (or the beginning of the input, if no region has been set). * Doesn't require the {@code Pattern} to match against the whole region. * * @return true if (and only if) the {@code Pattern} matches. */ public boolean lookingAt() { matchFound = lookingAtImpl(address, input, matchOffsets); if (matchFound) { findPos = matchOffsets[1]; } return matchFound; } /** * Tries to match the {@link Pattern} against the entire region (or the * entire input, if no region has been set). * * @return true if (and only if) the {@code Pattern} matches the entire * region. */ public boolean matches() { matchFound = matchesImpl(address, input, matchOffsets); if (matchFound) { findPos = matchOffsets[1]; } return matchFound; } /** * Returns the index of the first character of the text that matched a given * group. * * @param group * the group, ranging from 0 to groupCount() - 1, with 0 * representing the whole pattern. * @return the character index. * @throws IllegalStateException * if no successful match has been made. */ public int start(int group) throws IllegalStateException { ensureMatch(); return matchOffsets[group * 2]; } /** * Returns the index of the first character following the text that matched * a given group. * * @param group * the group, ranging from 0 to groupCount() - 1, with 0 * representing the whole pattern. * @return the character index. * @throws IllegalStateException * if no successful match has been made. */ public int end(int group) { ensureMatch(); return matchOffsets[(group * 2) + 1]; } /** * Returns a replacement string for the given one that has all backslashes * and dollar signs escaped. * * @param s * the input string. * @return the input string, with all backslashes and dollar signs having * been escaped. */ public static String quoteReplacement(String s) { StringBuilder result = new StringBuilder(s.length()); for (int i = 0; i < s.length(); i++) { char c = s.charAt(i); if (c == '\\' || c == '$') { result.append('\\'); } result.append(c); } return result.toString(); } /** * Returns the index of the first character of the text that matched the * whole regular expression. * * @return the character index. * @throws IllegalStateException * if no successful match has been made. */ public int start() { return start(0); } /** * Returns the number of groups in the results, which is always equal to * the number of groups in the original regular expression. * * @return the number of groups. */ public int groupCount() { return groupCountImpl(address); } /** * Returns the index of the first character following the text that matched * the whole regular expression. * * @return the character index. * @throws IllegalStateException * if no successful match has been made. */ public int end() { return end(0); } /** * Converts the current match into a separate {@link MatchResult} instance * that is independent from this matcher. The new object is unaffected when * the state of this matcher changes. * * @return the new {@code MatchResult}. * @throws IllegalStateException * if no successful match has been made. */ public MatchResult toMatchResult() { ensureMatch(); return new MatchResultImpl(input, matchOffsets); } /** * Determines whether this matcher has anchoring bounds enabled or not. When * anchoring bounds are enabled, the start and end of the input match the * '^' and '$' meta-characters, otherwise not. Anchoring bounds are enabled * by default. * * @param value * the new value for anchoring bounds. * @return the {@code Matcher} itself. */ public Matcher useAnchoringBounds(boolean value) { anchoringBounds = value; useAnchoringBoundsImpl(address, value); return this; } /** * Indicates whether this matcher has anchoring bounds enabled. When * anchoring bounds are enabled, the start and end of the input match the * '^' and '$' meta-characters, otherwise not. Anchoring bounds are enabled * by default. * * @return true if (and only if) the {@code Matcher} uses anchoring bounds. */ public boolean hasAnchoringBounds() { return anchoringBounds; } /** * Determines whether this matcher has transparent bounds enabled or not. * When transparent bounds are enabled, the parts of the input outside the * region are subject to lookahead and lookbehind, otherwise they are not. * Transparent bounds are disabled by default. * * @param value * the new value for transparent bounds. * @return the {@code Matcher} itself. */ public Matcher useTransparentBounds(boolean value) { transparentBounds = value; useTransparentBoundsImpl(address, value); return this; } /** * Makes sure that a successful match has been made. Is invoked internally * from various places in the class. * * @throws IllegalStateException * if no successful match has been made. */ private void ensureMatch() { if (!matchFound) { throw new IllegalStateException("No successful match so far"); } } /** * Indicates whether this matcher has transparent bounds enabled. When * transparent bounds are enabled, the parts of the input outside the region * are subject to lookahead and lookbehind, otherwise they are not. * Transparent bounds are disabled by default. * * @return true if (and only if) the {@code Matcher} uses anchoring bounds. */ public boolean hasTransparentBounds() { return transparentBounds; } /** * Returns this matcher's region start, that is, the first character that is * considered for a match. * * @return the start of the region. */ public int regionStart() { return regionStart; } /** * Returns this matcher's region end, that is, the first character that is * not considered for a match. * * @return the end of the region. */ public int regionEnd() { return regionEnd; } /** * Indicates whether more input might change a successful match into an * unsuccessful one. * * @return true if (and only if) more input might change a successful match * into an unsuccessful one. */ public boolean requireEnd() { return requireEndImpl(address); } /** * Indicates whether the last match hit the end of the input. * * @return true if (and only if) the last match hit the end of the input. */ public boolean hitEnd() { return hitEndImpl(address); } @Override protected void finalize() throws Throwable { try { closeImpl(address); } finally { super.finalize(); } } private static native void closeImpl(int addr); private static native boolean findImpl(int addr, String s, int startIndex, int[] offsets); private static native boolean findNextImpl(int addr, String s, int[] offsets); private static native int groupCountImpl(int addr); private static native boolean hitEndImpl(int addr); private static native boolean lookingAtImpl(int addr, String s, int[] offsets); private static native boolean matchesImpl(int addr, String s, int[] offsets); private static native int openImpl(int patternAddr); private static native boolean requireEndImpl(int addr); private static native void setInputImpl(int addr, String s, int start, int end); private static native void useAnchoringBoundsImpl(int addr, boolean value); private static native void useTransparentBoundsImpl(int addr, boolean value); }