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RSyntaxTextArea is the syntax highlighting text editor for Swing applications. Features include syntax highlighting for 40+ languages, code folding, code completion, regex find and replace, macros, code templates, undo/redo, line numbering and bracket matching.

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/*
 * 02/19/2006
 *
 * SearchEngine.java - Handles find/replace operations in an RTextArea.
 *
 * This library is distributed under a modified BSD license.  See the included
 * LICENSE file for details.
 */
package org.fife.ui.rtextarea;

import java.awt.Point;
import java.util.ArrayList;
import java.util.Collections;
import java.util.List;
import java.util.regex.Matcher;
import java.util.regex.Pattern;
import java.util.regex.PatternSyntaxException;

import javax.swing.JTextArea;
import javax.swing.text.BadLocationException;
import javax.swing.text.Caret;

import org.fife.ui.rsyntaxtextarea.DocumentRange;
import org.fife.ui.rsyntaxtextarea.RSyntaxUtilities;


/**
 * A singleton class that can perform advanced find/replace operations
 * in an {@link RTextArea}.  Simply create a {@link SearchContext} and call
 * one of the following methods:
 *
 * 
    *
  • {@link #find(JTextArea, SearchContext)} *
  • {@link #replace(RTextArea, SearchContext)} *
  • {@link #replaceAll(RTextArea, SearchContext)} *
  • {@link #markAll(RTextArea, SearchContext)} *
* * @author Robert Futrell * @version 1.0 * @see SearchContext */ public final class SearchEngine { /** * Private constructor to prevent instantiation. */ private SearchEngine() { } /** * Finds the next instance of the string/regular expression specified * from the caret position. If a match is found, it is selected in this * text area. * * @param textArea The text area in which to search. * @param context What to search for and all search options. * @return The result of the operation. * @throws PatternSyntaxException If this is a regular expression search * but the search text is an invalid regular expression. * @see #replace(RTextArea, SearchContext) * @see #replaceAll(RTextArea, SearchContext) */ public static SearchResult find(JTextArea textArea, SearchContext context) { // Always clear previous "mark all" highlights if (textArea instanceof RTextArea || context.getMarkAll()) { ((RTextArea)textArea).clearMarkAllHighlights(); } boolean doMarkAll = textArea instanceof RTextArea && context.getMarkAll(); String text = context.getSearchFor(); if (text == null || text.isEmpty() || textArea.getDocument().getLength() == 0) { if (doMarkAll) { // Force "mark all" event to be broadcast so listeners know to // clear their mark-all markers. The RSTA already cleared its // highlights above, but clearMarkAllHighlights() doesn't fire // an event itself for performance reasons. List emptyRangeList = Collections.emptyList(); ((RTextArea)textArea).markAll(emptyRangeList); } return new SearchResult(); } // Be smart about what position we're "starting" at. We don't want // to find a match in the currently selected text (if any), so we // start searching AFTER the selection if searching forward, and // BEFORE the selection if searching backward. Caret c = textArea.getCaret(); boolean forward = context.getSearchForward(); int start = forward ? Math.max(c.getDot(), c.getMark()) : Math.min(c.getDot(), c.getMark()); int markAllCount = 0; if (doMarkAll) { markAllCount = markAllImpl((RTextArea)textArea, context). getMarkedCount(); } String findIn = getFindInText(textArea, start, forward); if (!context.getSearchWrap() && (findIn == null || findIn.isEmpty())) { return new SearchResult(); } SearchResult result = SearchEngine.findImpl(findIn == null ? "" : findIn, context); if (result.wasFound() && !result.getMatchRange().isZeroLength()) { // Without this, if JTextArea isn't in focus, selection // won't appear selected. textArea.getCaret().setSelectionVisible(true); if (forward && start>-1) { result.getMatchRange().translate(start); } RSyntaxUtilities.selectAndPossiblyCenter(textArea, result.getMatchRange(), true); } else if (context.getSearchWrap() && !result.wasFound()) { if (forward) { start = 0; } else { start = textArea.getDocument().getLength() - 1; } findIn = getFindInText(textArea, start, forward); if (findIn == null || findIn.isEmpty()) { SearchResult emptyResult = new SearchResult(); emptyResult.setWrapped(true); return emptyResult; } if (doMarkAll) { markAllCount = markAllImpl((RTextArea) textArea, context). getMarkedCount(); } result = SearchEngine.findImpl(findIn, context); result.setWrapped(true); if (result.wasFound() && !result.getMatchRange().isZeroLength()) { // Without this, if JTextArea isn't in focus, selection // won't appear selected. textArea.getCaret().setSelectionVisible(true); if (forward) { result.getMatchRange().translate(start); } RSyntaxUtilities.selectAndPossiblyCenter(textArea, result.getMatchRange(), true ); } } result.setMarkedCount(markAllCount); return result; } /** * Finds the next instance of the string/regular expression specified * from the caret position. If a match is found, it is selected in this * text area. * * @param findIn The text to search in. * @param context The search context. * @return The result of the operation. "Mark all" will always be zero, * since this method does not perform that operation. * @throws PatternSyntaxException If this is a regular expression search * but the search text is an invalid regular expression. */ private static SearchResult findImpl(String findIn, SearchContext context) { String text = context.getSearchFor(); boolean forward = context.getSearchForward(); // Find the next location of the text we're searching for. DocumentRange range = null; if (!context.isRegularExpression()) { int pos = getNextMatchPos(text, findIn, forward, context.getMatchCase(), context.getWholeWord()); findIn = null; // May help garbage collecting. if (pos!=-1) { range = new DocumentRange(pos, pos+text.length()); } } else { // Regex matches can have varying widths. The returned point's // x- and y-values represent the start and end indices of the // match in findIn. Point regExPos; int start = 0; do { regExPos = getNextMatchPosRegEx(text, findIn.substring(start), forward, context.getMatchCase(), context.getWholeWord()); if (regExPos!=null) { if (regExPos.x!=regExPos.y) { regExPos.translate(start, start); range = new DocumentRange(regExPos.x, regExPos.y); } else { start += regExPos.x + 1; } } } while (startCharSequence
for a text area that doesn't make a * copy of its contents for iteration. This conserves memory but is likely * just a tad slower. * * @param textArea The text area whose document is the basis for the * CharSequence. * @param start The starting offset of the sequence (or ending offset if * forward is false). * @param forward Whether we're searching forward or backward. * @return The character sequence. */ private static CharSequence getFindInCharSequence(RTextArea textArea, int start, boolean forward) { RDocument doc = (RDocument)textArea.getDocument(); int csStart; int csEnd; if (forward) { csStart = start; csEnd = doc.getLength(); } else { csStart = 0; csEnd = start; } return new RDocumentCharSequence(doc, csStart, csEnd); } /** * Returns the text in which to search, as a string. This is used * internally to grab the smallest buffer possible in which to search. */ private static String getFindInText(JTextArea textArea, int start, boolean forward) { // Be smart about the text we grab to search in. We grab more than // a single line because our searches can return multi-line results. // We copy only the chars that will be searched through. String findIn = null; try { if (forward) { findIn = textArea.getText(start, textArea.getDocument().getLength()-start); } else { // backward findIn = textArea.getText(0, start); } } catch (BadLocationException ble) { // Never happens; findIn will be null anyway. ble.printStackTrace(); } return findIn; } /** * This method is called internally by * getNextMatchPosRegExImpl and is used to get the locations * of all regular-expression matches, and possibly their replacement * strings.

* * Returns either: *

    *
  • A list of points representing the starting and ending positions * of all matches returned by the specified matcher, or *
  • A list of RegExReplaceInfos describing the matches * found by the matcher and the replacement strings for each. *
* * If replacement is null, this method call is * assumed to be part of a "find" operation and points are returned. If * it is non-null, it is assumed to be part of a "replace" * operation and the RegExReplaceInfos are returned.

* * @param m The matcher. * @param replaceStr The string to replace matches with. This is a * "template" string and can contain captured group references in * the form "${digit}". * @return A list of result objects. * @throws IndexOutOfBoundsException If replaceStr references * an invalid group (less than zero or greater than the number of * groups matched). */ @SuppressWarnings({ "rawtypes", "unchecked" }) private static List getMatches(Matcher m, String replaceStr) { ArrayList matches = new ArrayList(); while (m.find()) { Point loc = new Point(m.start(), m.end()); if (replaceStr==null) { // Find, not replace. matches.add(loc); } else { // Replace. matches.add(new RegExReplaceInfo(m.group(0), loc.x, loc.y, getReplacementText(m, replaceStr))); } } return matches; } /** * Searches searchIn for an occurrence of * searchFor either forwards or backwards, matching * case or not.

* * Most clients will have no need to call this method directly. * * @param searchFor The string to look for. * @param searchIn The string to search in. * @param forward Whether to search forward or backward in * searchIn. * @param matchCase If true, do a case-sensitive search for * searchFor. * @param wholeWord If true, searchFor * occurrences embedded in longer words in searchIn * don't count as matches. * @return The starting position of a match, or -1 if no * match was found. */ public static int getNextMatchPos(String searchFor, String searchIn, boolean forward, boolean matchCase, boolean wholeWord) { // Make our variables lower case if we're ignoring case. if (!matchCase) { searchFor = searchFor.toLowerCase(); searchIn = searchIn.toLowerCase(); } if (wholeWord) { int len = searchFor.length(); int temp = forward ? 0 : searchIn.length(); int tempChange = forward ? 1 : -1; while (true) { if (forward) { temp = searchIn.indexOf(searchFor, temp); } else { temp = searchIn.lastIndexOf(searchFor, temp); } if (temp!=-1) { if (isWholeWord(searchIn, temp, len)) { return temp; } else { temp += tempChange; continue; } } return temp; // Always -1. } } else { return forward ? searchIn.indexOf(searchFor) : searchIn.lastIndexOf(searchFor); } } /** * Searches searchIn for an occurrence of regEx * either forwards or backwards, matching case or not. * * @param regEx The regular expression to look for. * @param searchIn The string to search in. * @param goForward Whether to search forward. If false, * search backward. * @param matchCase Whether to do a case-sensitive search for * regEx. * @param wholeWord If true, regEx * occurrences embedded in longer words in searchIn * don't count as matches. * @return A Point representing the starting and ending * position of the match, or null if no match was * found. * @throws PatternSyntaxException If regEx is an invalid * regular expression. * @see #getNextMatchPos */ private static Point getNextMatchPosRegEx(String regEx, CharSequence searchIn, boolean goForward, boolean matchCase, boolean wholeWord) { return (Point)getNextMatchPosRegExImpl(regEx, searchIn, goForward, matchCase, wholeWord, null); } /** * Searches searchIn for an occurrence of regEx * either forwards or backwards, matching case or not. * * @param regEx The regular expression to look for. * @param searchIn The string to search in. * @param goForward Whether to search forward. If false, * search backward. * @param matchCase Whether to do a case-sensitive search for * regEx. * @param wholeWord If true, regEx * occurrences embedded in longer words in searchIn * don't count as matches. * @param replaceStr The string that will replace the match found (if * a match is found). The object returned will contain the * replacement string with matched groups substituted. If this * value is null, it is assumed this call is part of a * "find" instead of a "replace" operation. * @return If replaceStr is null, a * Point representing the starting and ending points * of the match. If it is non-null, an object with * information about the match and the morphed string to replace * it with. If no match is found, null is returned. * @throws PatternSyntaxException If regEx is an invalid * regular expression. * @throws IndexOutOfBoundsException If replaceStr references * an invalid group (less than zero or greater than the number of * groups matched). * @see #getNextMatchPos */ private static Object getNextMatchPosRegExImpl(String regEx, CharSequence searchIn, boolean goForward, boolean matchCase, boolean wholeWord, String replaceStr) { if (wholeWord) { regEx = "\\b" + regEx + "\\b"; } // Make a pattern that takes into account whether to match case. int flags = Pattern.MULTILINE; // '^' and '$' are done per line. flags = RSyntaxUtilities.getPatternFlags(matchCase, flags); Pattern pattern; try { pattern = Pattern.compile(regEx, flags); } catch (PatternSyntaxException pse) { return null; // e.g. a "mark all" request with incomplete regex } // Make a Matcher to find the regEx instances. Matcher m = pattern.matcher(searchIn); // Search forwards if (goForward) { if (m.find()) { if (replaceStr==null) { // Find, not replace. return new Point(m.start(), m.end()); } // Otherwise, replace return new RegExReplaceInfo(m.group(0), m.start(), m.end(), getReplacementText(m, replaceStr)); } } // Search backwards else { List matches = getMatches(m, replaceStr); if (!matches.isEmpty()) { return matches.get(matches.size()-1); } } return null; // No match found } /** * Returns information on how to implement a regular expression "replace" * action in the specified text with the specified replacement string. * * @param searchIn The string to search in. * @param context The search options. * @return A RegExReplaceInfo object describing how to * implement the replace. * @throws PatternSyntaxException If the search text is an invalid regular * expression. * @throws IndexOutOfBoundsException If the replacement text references an * invalid group (less than zero or greater than the number of * groups matched). * @see #getNextMatchPos */ private static RegExReplaceInfo getRegExReplaceInfo(CharSequence searchIn, SearchContext context) { // Can't pass null to getNextMatchPosRegExImpl or it'll think // you're doing a "find" operation instead of "replace", and return a // Point. String replacement = context.getReplaceWith(); if (replacement==null) { replacement = ""; } String regex = context.getSearchFor(); boolean goForward = context.getSearchForward(); boolean matchCase = context.getMatchCase(); boolean wholeWord = context.getWholeWord(); return (RegExReplaceInfo)getNextMatchPosRegExImpl(regex, searchIn, goForward, matchCase, wholeWord, replacement); } /** * Called internally by getMatches(). This method assumes * that the specified matcher has just found a match, and that you want * to get the string with which to replace that match.

* * Escapes simply insert the escaped character, except for \n * and \t, which insert a newline and tab respectively. * Substrings of the form $\d+ are considered to be matched * groups. To include a literal dollar sign in your template, escape it * (i.e. \$).

* * Most clients will have no need to call this method directly. * * @param m The matcher. * @param template The template for the replacement string. For example, * "foo" would yield the replacement string * "foo", while "$1 is the greatest" * would yield different values depending on the value of the first * captured group in the match. * @return The string to replace the match with. * @throws IndexOutOfBoundsException If template references * an invalid group (less than zero or greater than the number of * groups matched). */ public static String getReplacementText(Matcher m, CharSequence template) { // NOTE: This code was mostly ripped off from J2SE's Matcher // class. // Process substitution string to replace group references with groups int cursor = 0; StringBuilder result = new StringBuilder(); while (cursor < template.length()) { char nextChar = template.charAt(cursor); if (nextChar == '\\') { // Escape character. nextChar = template.charAt(++cursor); switch (nextChar) { // Special cases. case 'n': nextChar = '\n'; break; case 't': nextChar = '\t'; break; } result.append(nextChar); cursor++; } else if (nextChar == '$') { // Group reference. cursor++; // Skip the '$'. // The first number is always a group int refNum = template.charAt(cursor) - '0'; if ((refNum < 0)||(refNum > 9)) { // This should really be an IllegalArgumentException, // but we cheat to keep all "group" errors throwing // the same exception type. throw new IndexOutOfBoundsException( "No group " + template.charAt(cursor)); } cursor++; // Capture the largest legal group string boolean done = false; while (!done) { if (cursor >= template.length()) { break; } int nextDigit = template.charAt(cursor) - '0'; if ((nextDigit < 0)||(nextDigit > 9)) { // not a number break; } int newRefNum = (refNum * 10) + nextDigit; if (m.groupCount() < newRefNum) { done = true; } else { refNum = newRefNum; cursor++; } } // Append group if (m.group(refNum) != null) { result.append(m.group(refNum)); } } else { result.append(nextChar); cursor++; } } return result.toString(); } /** * Returns whether the characters on either side of * substr(searchIn, startPos, startPos+searchStringLength) * are not letters or digits. */ private static boolean isWholeWord(CharSequence searchIn, int offset, int len) { boolean wsBefore; boolean wsAfter; try { wsBefore = !Character.isLetterOrDigit(searchIn.charAt(offset - 1)); } catch (IndexOutOfBoundsException e) { wsBefore = true; } try { wsAfter = !Character.isLetterOrDigit(searchIn.charAt(offset + len)); } catch (IndexOutOfBoundsException e) { wsAfter = true; } return wsBefore && wsAfter; } /** * Makes the caret's dot and mark the same location so that, for the * next search in the specified direction, a match will be found even * if it was within the original dot and mark's selection. * * @param textArea The text area. * @param forward Whether the search will be forward through the * document (false means backward). * @return The new dot and mark position. */ private static int makeMarkAndDotEqual(JTextArea textArea, boolean forward) { Caret c = textArea.getCaret(); int val = forward ? Math.min(c.getDot(), c.getMark()) : Math.max(c.getDot(), c.getMark()); c.setDot(val); return val; } /** * Marks all instances of the specified text in this text area. This * method is typically only called directly in response to search events * of type SearchEvent.Type.MARK_ALL. "Mark all" behavior * is automatically performed when {@link #find(JTextArea, SearchContext)} * or {@link #replace(RTextArea, SearchContext)} is called. * * @param textArea The text area in which to mark occurrences. * @param context The search context specifying the text to search for. * It is assumed that context.getMarkAll() has already * been checked and returns true. * @return The results of the operation. */ public static SearchResult markAll(RTextArea textArea, SearchContext context) { textArea.clearMarkAllHighlights(); return markAllImpl(textArea, context); } /** * Marks all instances of the specified text in this text area. This * method is typically only called directly in response to search events * of type SearchEvent.Type.MARK_ALL. "Mark all" behavior * is automatically performed when {@link #find(JTextArea, SearchContext)} * or #replace(RTextArea, SearchContext) is called. * * @param textArea The text area in which to mark occurrences. * @param context The search context specifying the text to search for. * It is assumed that context.getMarkAll() has already * been checked and returns true. * @return The results of the operation. */ private static SearchResult markAllImpl(RTextArea textArea, SearchContext context) { String toMark = context.getSearchFor(); int markAllCount = 0; // context.getMarkAll()==false => clear "mark all" highlights if (context.getMarkAll() && toMark!=null && toMark.length()>0 /*&& !toMark.equals(markedWord)*/) { List highlights = new ArrayList<>(); context = context.clone(); context.setSearchForward(true); context.setMarkAll(false); String findIn = textArea.getText(); int start = 0; // Optimization for pedantic worst-case of thousands of matches // while doing a case-insensitive search. Go ahead and normalize // case just once, so that toLowerCase() isn't done for toMark and // findIn for each match found. if (!context.getMatchCase()) { context.setMatchCase(true); context.setSearchFor(toMark.toLowerCase()); findIn = findIn.toLowerCase(); } SearchResult res = SearchEngine.findImpl(findIn, context); while (res.wasFound()) { DocumentRange match = res.getMatchRange().translate(start); if (match.isZeroLength()) { // Searched for a regex like "foo|". The "empty string" // part of the regex matches space between chars. We want // to skip these in the case of mark-all. start = match.getEndOffset() + 1; if (start>findIn.length()) { break; } } else { highlights.add(match); start = match.getEndOffset(); } res = SearchEngine.findImpl(findIn.substring(start), context); } textArea.markAll(highlights); markAllCount = highlights.size(); } else { // Force a repaint of "mark all" highlights so ErrorStrips can // get updated // Force "mark all" event to be broadcast so listeners like // ErrorStrip know to clear their mark-all markers. Note that // clearMarkAllHighlights() doesn't fire an event itself for // performance reasons. List empty = Collections.emptyList(); textArea.markAll(empty); } return new SearchResult(null, 0, markAllCount); } /** * Finds the next instance of the regular expression specified from * the caret position. If a match is found, it is replaced with * the specified replacement string. * * @param textArea The text area in which to search. * @param context What to search for and all search options. * @return The result of the operation. * @throws PatternSyntaxException If this is a regular expression search * but the search text is an invalid regular expression. * @throws IndexOutOfBoundsException If this is a regular expression search * but the replacement text references an invalid group (less than * zero or greater than the number of groups matched). * @see #replace(RTextArea, SearchContext) * @see #find(JTextArea, SearchContext) */ private static SearchResult regexReplace(RTextArea textArea, SearchContext context) { // Be smart about what position we're "starting" at. For example, // if they are searching backwards and there is a selection such that // the dot is past the mark, and the selection is the text for which // you're searching, this search will find and return the current // selection. So, in that case we start at the beginning of the // selection. Caret c = textArea.getCaret(); boolean forward = context.getSearchForward(); int start = makeMarkAndDotEqual(textArea, forward); CharSequence findIn = getFindInCharSequence(textArea, start, forward); if (findIn==null) { return new SearchResult(); } int markAllCount = 0; if (context.getMarkAll()) { markAllCount = markAllImpl(textArea, context).getMarkedCount(); } // Find the next location of the text we're searching for. RegExReplaceInfo info = getRegExReplaceInfo(findIn, context); // If a match was found, do the replace and return! DocumentRange range = null; if (info!=null) { // Without this, if JTextArea isn't in focus, selection won't // appear selected. c.setSelectionVisible(true); int matchStart = info.getStartIndex(); int matchEnd = info.getEndIndex(); if (forward) { matchStart += start; matchEnd += start; } textArea.setSelectionStart(matchStart); textArea.setSelectionEnd(matchEnd); String replacement = info.getReplacement(); textArea.replaceSelection(replacement); // If there is another match, find and select it. int dot = matchStart + replacement.length(); findIn = getFindInCharSequence(textArea, dot, forward); info = getRegExReplaceInfo(findIn, context); if (info!=null) { matchStart = info.getStartIndex(); matchEnd = info.getEndIndex(); if (forward) { matchStart += dot; matchEnd += dot; } range = new DocumentRange(matchStart, matchEnd); } else { range = new DocumentRange(dot, dot); } RSyntaxUtilities.selectAndPossiblyCenter(textArea, range, true); } int count = range!=null ? 1 : 0; return new SearchResult(range, count, markAllCount); } /** * Finds the next instance of the text/regular expression specified from * the caret position. If a match is found, it is replaced with the * specified replacement string. * * @param textArea The text area in which to search. * @param context What to search for and all search options. * @return The result of the operation. * @throws PatternSyntaxException If this is a regular expression search * but the search text is an invalid regular expression. * @throws IndexOutOfBoundsException If this is a regular expression search * but the replacement text references an invalid group (less than * zero or greater than the number of groups matched). * @see #replaceAll(RTextArea, SearchContext) * @see #find(JTextArea, SearchContext) */ public static SearchResult replace(RTextArea textArea, SearchContext context) { // Always clear previous "mark all" highlights if (context.getMarkAll()) { textArea.clearMarkAllHighlights(); } String toFind = context.getSearchFor(); if (toFind==null || toFind.isEmpty()) { return new SearchResult(); } textArea.beginAtomicEdit(); try { // Regular expression replacements have their own method. if (context.isRegularExpression()) { return regexReplace(textArea, context); } // Plain text search. If we find it, replace it! // First make the dot and mark equal (get rid of any selection), as // a common use-case is the user will use "Find" to select the text // to replace, then click "Replace" to replace the current // selection. Since our find() method searches from an endpoint of // the selection, we must remove the selection to work properly. makeMarkAndDotEqual(textArea, context.getSearchForward()); SearchResult res = find(textArea, context); if (res.wasFound() && !res.getMatchRange().isZeroLength()) { // Do the replacement String replacement = context.getReplaceWith(); textArea.replaceSelection(replacement); // Move the caret to the right position. int dot = res.getMatchRange().getStartOffset(); if (context.getSearchForward()) { int length = replacement==null ? 0 : replacement.length(); dot += length; } textArea.setCaretPosition(dot); SearchResult next = find(textArea, context); DocumentRange range; if (next.wasFound()) { range = next.getMatchRange(); res.setWrapped(next.isWrapped()); } else { range = new DocumentRange(dot, dot); } res.setMatchRange(range); RSyntaxUtilities.selectAndPossiblyCenter(textArea, range, true); } return res; } finally { textArea.endAtomicEdit(); } } /** * Replaces all instances of the text/regular expression specified in * the specified document with the specified replacement. * * @param textArea The text area in which to search. * @param context What to search for and all search options. * @return The result of the operation. * @throws PatternSyntaxException If this is a regular expression search * but the replacement text is an invalid regular expression. * @throws IndexOutOfBoundsException If this is a regular expression search * but the replacement text references an invalid group (less than * zero or greater than the number of groups matched). * @see #replace(RTextArea, SearchContext) * @see #find(JTextArea, SearchContext) */ public static SearchResult replaceAll(RTextArea textArea, SearchContext context) { // Always clear previous "mark all" highlights if (context.getMarkAll()) { textArea.clearMarkAllHighlights(); } context.setSearchForward(true); // Replace all always searches forward String toFind = context.getSearchFor(); if (toFind==null || toFind.isEmpty()) { return new SearchResult(); } // We call into SearchEngine.replace() multiple times, but we don't // want to perform a "mark all" ever. if (context.getMarkAll()) { context = context.clone(); context.setMarkAll(false); } // We also don't want to enable wrapping, since that can lead to // infinite loops when replacing content e.g. replace "foo" with // "foobar". This is OK to do since the Replace All always scans // the entire document. if (context.getSearchWrap()) { context = context.clone(); context.setSearchWrap(false); } SearchResult lastFound = null; int count = 0; textArea.beginAtomicEdit(); try { int oldOffs = textArea.getCaretPosition(); textArea.setCaretPosition(0); SearchResult res = SearchEngine.replace(textArea, context); while (res.wasFound()) { lastFound = res; count++; // Protect against regexes that can match 0-length strings, // such as ".*" and "(?=a). See: // https://github.com/bobbylight/RSyntaxTextArea/issues/107 if (res.getMatchRange().isZeroLength()) { if (res.getMatchRange().getStartOffset() == textArea.getDocument().getLength()) { break; } else { // End of a line textArea.setCaretPosition(textArea.getCaretPosition() + 1); } } res = SearchEngine.replace(textArea, context); } if (lastFound==null) { // If nothing was found, don't move the caret textArea.setCaretPosition(oldOffs); lastFound = new SearchResult(); } } finally { textArea.endAtomicEdit(); } lastFound.setCount(count); return lastFound; } }





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