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/*
 * JEditTextArea.java - jEdit's text component
 * Copyright (C) 1999 Slava Pestov
 *
 * You may use and modify this package for any purpose. Redistribution is
 * permitted, in both source and binary form, provided that this notice
 * remains intact in all source distributions of this package.
 */

package org.syntax.jedit;

import org.syntax.jedit.tokenmarker.*;  
import javax.swing.event.*;
import javax.swing.text.*;
import javax.swing.undo.*;
import javax.swing.*;
import java.awt.datatransfer.*;
import java.awt.event.*;
import java.awt.*;
import java.util.Enumeration;
import java.util.Vector;

/**
 * jEdit's text area component. It is more suited for editing program
 * source code than JEditorPane, because it drops the unnecessary features
 * (images, variable-width lines, and so on) and adds a whole bunch of
 * useful goodies such as:
 * 
    *
  • More flexible key binding scheme *
  • Supports macro recorders *
  • Rectangular selection *
  • Bracket highlighting *
  • Syntax highlighting *
  • Command repetition *
  • Block caret can be enabled *
* It is also faster and doesn't have as many problems. It can be used * in other applications; the only other part of jEdit it depends on is * the syntax package.

* * To use it in your app, treat it like any other component, for example: *

JEditTextArea ta = new JEditTextArea();
 * ta.setTokenMarker(new JavaTokenMarker());
 * ta.setText("public class Test {\n"
 *     + "    public static void main(String[] args) {\n"
 *     + "        System.out.println(\"Hello World\");\n"
 *     + "    }\n"
 *     + "}");
* * @author Slava Pestov * @version $Id: JEditTextArea.java,v 1.36 1999/12/13 03:40:30 sp Exp $ */ public class JEditTextArea extends JComponent { /** * Adding components with this name to the text area will place * them left of the horizontal scroll bar. In jEdit, the status * bar is added this way. */ public static String LEFT_OF_SCROLLBAR = "los"; /** * Creates a new JEditTextArea with the default settings. */ public JEditTextArea() { this(TextAreaDefaults.getDefaults()); } /** * Creates a new JEditTextArea with the specified settings. * @param defaults The default settings */ public JEditTextArea(TextAreaDefaults defaults) { // Enable the necessary events enableEvents(AWTEvent.KEY_EVENT_MASK); // Initialize some misc. stuff painter = new TextAreaPainter(this,defaults); documentHandler = new DocumentHandler(); listenerList = new EventListenerList(); caretEvent = new MutableCaretEvent(); lineSegment = new Segment(); bracketLine = bracketPosition = -1; blink = true; // Initialize the GUI setLayout(new ScrollLayout()); add(CENTER,painter); add(RIGHT,vertical = new JScrollBar(JScrollBar.VERTICAL)); add(BOTTOM,horizontal = new JScrollBar(JScrollBar.HORIZONTAL)); // Add some event listeners vertical.addAdjustmentListener(new AdjustHandler()); horizontal.addAdjustmentListener(new AdjustHandler()); painter.addComponentListener(new ComponentHandler()); painter.addMouseListener(new MouseHandler()); painter.addMouseMotionListener(new DragHandler()); addFocusListener(new FocusHandler()); // Load the defaults setInputHandler(defaults.inputHandler); setDocument(defaults.document); editable = defaults.editable; caretVisible = defaults.caretVisible; caretBlinks = defaults.caretBlinks; electricScroll = defaults.electricScroll; popup = defaults.popup; // We don't seem to get the initial focus event? focusedComponent = this; } /** * Returns if this component can be traversed by pressing * the Tab key. This returns false. */ public final boolean isManagingFocus() { return true; } /** * Returns the object responsible for painting this text area. */ public final TextAreaPainter getPainter() { return painter; } /** * Returns the input handler. */ public final InputHandler getInputHandler() { return inputHandler; } /** * Sets the input handler. * @param inputHandler The new input handler */ public void setInputHandler(InputHandler inputHandler) { this.inputHandler = inputHandler; } /** * Returns true if the caret is blinking, false otherwise. */ public final boolean isCaretBlinkEnabled() { return caretBlinks; } /** * Toggles caret blinking. * @param caretBlinks True if the caret should blink, false otherwise */ public void setCaretBlinkEnabled(boolean caretBlinks) { this.caretBlinks = caretBlinks; if(!caretBlinks) blink = false; painter.invalidateSelectedLines(); } /** * Returns true if the caret is visible, false otherwise. */ public final boolean isCaretVisible() { return (!caretBlinks || blink) && caretVisible; } /** * Sets if the caret should be visible. * @param caretVisible True if the caret should be visible, false * otherwise */ public void setCaretVisible(boolean caretVisible) { this.caretVisible = caretVisible; blink = true; painter.invalidateSelectedLines(); } /** * Blinks the caret. */ public final void blinkCaret() { if(caretBlinks) { blink = !blink; painter.invalidateSelectedLines(); } else blink = true; } /** * Returns the number of lines from the top and button of the * text area that are always visible. */ public final int getElectricScroll() { return electricScroll; } /** * Sets the number of lines from the top and bottom of the text * area that are always visible * @param electricScroll The number of lines always visible from * the top or bottom */ public final void setElectricScroll(int electricScroll) { this.electricScroll = electricScroll; } /** * Updates the state of the scroll bars. This should be called * if the number of lines in the document changes, or when the * size of the text are changes. */ public void updateScrollBars() { if(vertical != null && visibleLines != 0) { vertical.setValues(firstLine,visibleLines,0,getLineCount()); vertical.setUnitIncrement(2); vertical.setBlockIncrement(visibleLines); } int width = painter.getWidth(); if(horizontal != null && width != 0) { horizontal.setValues(-horizontalOffset,width,0,width * 5); horizontal.setUnitIncrement(painter.getFontMetrics() .charWidth('w')); horizontal.setBlockIncrement(width / 2); } } /** * Returns the line displayed at the text area's origin. */ public final int getFirstLine() { return firstLine; } /** * Sets the line displayed at the text area's origin without * updating the scroll bars. */ public void setFirstLine(int firstLine) { if(firstLine == this.firstLine) return; int oldFirstLine = this.firstLine; this.firstLine = firstLine; if(firstLine != vertical.getValue()) updateScrollBars(); painter.repaint(); } /** * Returns the number of lines visible in this text area. */ public final int getVisibleLines() { return visibleLines; } /** * Recalculates the number of visible lines. This should not * be called directly. */ public final void recalculateVisibleLines() { if(painter == null) return; int height = painter.getHeight(); int lineHeight = painter.getFontMetrics().getHeight(); int oldVisibleLines = visibleLines; visibleLines = height / lineHeight; updateScrollBars(); } /** * Returns the horizontal offset of drawn lines. */ public final int getHorizontalOffset() { return horizontalOffset; } /** * Sets the horizontal offset of drawn lines. This can be used to * implement horizontal scrolling. * @param horizontalOffset offset The new horizontal offset */ public void setHorizontalOffset(int horizontalOffset) { if(horizontalOffset == this.horizontalOffset) return; this.horizontalOffset = horizontalOffset; if(horizontalOffset != horizontal.getValue()) updateScrollBars(); painter.repaint(); } /** * A fast way of changing both the first line and horizontal * offset. * @param firstLine The new first line * @param horizontalOffset The new horizontal offset * @return True if any of the values were changed, false otherwise */ public boolean setOrigin(int firstLine, int horizontalOffset) { boolean changed = false; int oldFirstLine = this.firstLine; if(horizontalOffset != this.horizontalOffset) { this.horizontalOffset = horizontalOffset; changed = true; } if(firstLine != this.firstLine) { this.firstLine = firstLine; changed = true; } if(changed) { updateScrollBars(); painter.repaint(); } return changed; } /** * Ensures that the caret is visible by scrolling the text area if * necessary. * @return True if scrolling was actually performed, false if the * caret was already visible */ public boolean scrollToCaret() { int line = getCaretLine(); int lineStart = getLineStartOffset(line); int offset = Math.max(0,Math.min(getLineLength(line) - 1, getCaretPosition() - lineStart)); return scrollTo(line,offset); } /** * Ensures that the specified line and offset is visible by scrolling * the text area if necessary. * @param line The line to scroll to * @param offset The offset in the line to scroll to * @return True if scrolling was actually performed, false if the * line and offset was already visible */ public boolean scrollTo(int line, int offset) { // visibleLines == 0 before the component is realized // we can't do any proper scrolling then, so we have // this hack... if(visibleLines == 0) { setFirstLine(Math.max(0,line - electricScroll)); return true; } int newFirstLine = firstLine; int newHorizontalOffset = horizontalOffset; if(line < firstLine + electricScroll) { newFirstLine = Math.max(0,line - electricScroll); } else if(line + electricScroll >= firstLine + visibleLines) { newFirstLine = (line - visibleLines) + electricScroll + 1; if(newFirstLine + visibleLines >= getLineCount()) newFirstLine = getLineCount() - visibleLines; if(newFirstLine < 0) newFirstLine = 0; } int x = _offsetToX(line,offset); int width = painter.getFontMetrics().charWidth('w'); if(x < 0) { newHorizontalOffset = Math.min(0,horizontalOffset - x + width + 5); } else if(x + width >= painter.getWidth()) { newHorizontalOffset = horizontalOffset + (painter.getWidth() - x) - width - 5; } return setOrigin(newFirstLine,newHorizontalOffset); } /** * Converts a line index to a y co-ordinate. * @param line The line */ public int lineToY(int line) { FontMetrics fm = painter.getFontMetrics(); return (line - firstLine) * fm.getHeight() - (fm.getLeading() + fm.getMaxDescent()); } /** * Converts a y co-ordinate to a line index. * @param y The y co-ordinate */ public int yToLine(int y) { FontMetrics fm = painter.getFontMetrics(); int height = fm.getHeight(); return Math.max(0,Math.min(getLineCount() - 1, y / height + firstLine)); } /** * Converts an offset in a line into an x co-ordinate. This is a * slow version that can be used any time. * @param line The line * @param offset The offset, from the start of the line */ public final int offsetToX(int line, int offset) { // don't use cached tokens painter.currentLineTokens = null; return _offsetToX(line,offset); } /** * Converts an offset in a line into an x co-ordinate. This is a * fast version that should only be used if no changes were made * to the text since the last repaint. * @param line The line * @param offset The offset, from the start of the line */ public int _offsetToX(int line, int offset) { TokenMarker tokenMarker = getTokenMarker(); /* Use painter's cached info for speed */ FontMetrics fm = painter.getFontMetrics(); getLineText(line,lineSegment); int segmentOffset = lineSegment.offset; int x = horizontalOffset; /* If syntax coloring is disabled, do simple translation */ if(tokenMarker == null) { lineSegment.count = offset; return x + Utilities.getTabbedTextWidth(lineSegment, fm,x,painter,0); } /* If syntax coloring is enabled, we have to do this because * tokens can vary in width */ else { Token tokens; if(painter.currentLineIndex == line && painter.currentLineTokens != null) tokens = painter.currentLineTokens; else { painter.currentLineIndex = line; tokens = painter.currentLineTokens = tokenMarker.markTokens(lineSegment,line); } Toolkit toolkit = painter.getToolkit(); Font defaultFont = painter.getFont(); SyntaxStyle[] styles = painter.getStyles(); for(;;) { byte id = tokens.id; if(id == Token.END) { return x; } if(id == Token.NULL) fm = painter.getFontMetrics(); else fm = styles[id].getFontMetrics(defaultFont); int length = tokens.length; if(offset + segmentOffset < lineSegment.offset + length) { lineSegment.count = offset - (lineSegment.offset - segmentOffset); return x + Utilities.getTabbedTextWidth( lineSegment,fm,x,painter,0); } else { lineSegment.count = length; x += Utilities.getTabbedTextWidth( lineSegment,fm,x,painter,0); lineSegment.offset += length; } tokens = tokens.next; } } } /** * Converts an x co-ordinate to an offset within a line. * @param line The line * @param x The x co-ordinate */ public int xToOffset(int line, int x) { TokenMarker tokenMarker = getTokenMarker(); /* Use painter's cached info for speed */ FontMetrics fm = painter.getFontMetrics(); getLineText(line,lineSegment); char[] segmentArray = lineSegment.array; int segmentOffset = lineSegment.offset; int segmentCount = lineSegment.count; int width = horizontalOffset; if(tokenMarker == null) { for(int i = 0; i < segmentCount; i++) { char c = segmentArray[i + segmentOffset]; int charWidth; if(c == '\t') charWidth = (int)painter.nextTabStop(width,i) - width; else charWidth = fm.charWidth(c); if(painter.isBlockCaretEnabled()) { if(x - charWidth <= width) return i; } else { if(x - charWidth / 2 <= width) return i; } width += charWidth; } return segmentCount; } else { Token tokens; if(painter.currentLineIndex == line && painter .currentLineTokens != null) tokens = painter.currentLineTokens; else { painter.currentLineIndex = line; tokens = painter.currentLineTokens = tokenMarker.markTokens(lineSegment,line); } int offset = 0; Toolkit toolkit = painter.getToolkit(); Font defaultFont = painter.getFont(); SyntaxStyle[] styles = painter.getStyles(); for(;;) { byte id = tokens.id; if(id == Token.END) return offset; if(id == Token.NULL) fm = painter.getFontMetrics(); else fm = styles[id].getFontMetrics(defaultFont); int length = tokens.length; for(int i = 0; i < length; i++) { char c = segmentArray[segmentOffset + offset + i]; int charWidth; if(c == '\t') charWidth = (int)painter.nextTabStop(width,offset + i) - width; else charWidth = fm.charWidth(c); if(painter.isBlockCaretEnabled()) { if(x - charWidth <= width) return offset + i; } else { if(x - charWidth / 2 <= width) return offset + i; } width += charWidth; } offset += length; tokens = tokens.next; } } } /** * Converts a point to an offset, from the start of the text. * @param x The x co-ordinate of the point * @param y The y co-ordinate of the point */ public int xyToOffset(int x, int y) { int line = yToLine(y); int start = getLineStartOffset(line); return start + xToOffset(line,x); } /** * Returns the document this text area is editing. */ public final SyntaxDocument getDocument() { return document; } /** * Sets the document this text area is editing. * @param document The document */ public void setDocument(SyntaxDocument document) { if(this.document == document) return; if(this.document != null) this.document.removeDocumentListener(documentHandler); this.document = document; document.addDocumentListener(documentHandler); select(0,0); updateScrollBars(); painter.repaint(); } /** * Returns the document's token marker. Equivalent to calling * getDocument().getTokenMarker(). */ public final TokenMarker getTokenMarker() { return document.getTokenMarker(); } /** * Sets the document's token marker. Equivalent to caling * getDocument().setTokenMarker(). * @param tokenMarker The token marker */ public final void setTokenMarker(TokenMarker tokenMarker) { document.setTokenMarker(tokenMarker); } /** * Returns the length of the document. Equivalent to calling * getDocument().getLength(). */ public final int getDocumentLength() { return document.getLength(); } /** * Returns the number of lines in the document. */ public final int getLineCount() { return document.getDefaultRootElement().getElementCount(); } /** * Returns the line containing the specified offset. * @param offset The offset */ public final int getLineOfOffset(int offset) { return document.getDefaultRootElement().getElementIndex(offset); } /** * Returns the start offset of the specified line. * @param line The line * @return The start offset of the specified line, or -1 if the line is * invalid */ public int getLineStartOffset(int line) { Element lineElement = document.getDefaultRootElement() .getElement(line); if(lineElement == null) return -1; else return lineElement.getStartOffset(); } /** * Returns the end offset of the specified line. * @param line The line * @return The end offset of the specified line, or -1 if the line is * invalid. */ public int getLineEndOffset(int line) { Element lineElement = document.getDefaultRootElement() .getElement(line); if(lineElement == null) return -1; else return lineElement.getEndOffset(); } /** * Returns the length of the specified line. * @param line The line */ public int getLineLength(int line) { Element lineElement = document.getDefaultRootElement() .getElement(line); if(lineElement == null) return -1; else return lineElement.getEndOffset() - lineElement.getStartOffset() - 1; } /** * Returns the entire text of this text area. */ public String getText() { try { return document.getText(0,document.getLength()); } catch(BadLocationException bl) { bl.printStackTrace(); return null; } } /** * Sets the entire text of this text area. */ public void setText(String text) { try { document.beginCompoundEdit(); document.remove(0,document.getLength()); document.insertString(0,text,null); } catch(BadLocationException bl) { bl.printStackTrace(); } finally { document.endCompoundEdit(); } } /** * Returns the specified substring of the document. * @param start The start offset * @param len The length of the substring * @return The substring, or null if the offsets are invalid */ public final String getText(int start, int len) { try { return document.getText(start,len); } catch(BadLocationException bl) { bl.printStackTrace(); return null; } } /** * Copies the specified substring of the document into a segment. * If the offsets are invalid, the segment will contain a null string. * @param start The start offset * @param len The length of the substring * @param segment The segment */ public final void getText(int start, int len, Segment segment) { try { document.getText(start,len,segment); } catch(BadLocationException bl) { bl.printStackTrace(); segment.offset = segment.count = 0; } } /** * Returns the text on the specified line. * @param lineIndex The line * @return The text, or null if the line is invalid */ public final String getLineText(int lineIndex) { int start = getLineStartOffset(lineIndex); return getText(start,getLineEndOffset(lineIndex) - start - 1); } /** * Copies the text on the specified line into a segment. If the line * is invalid, the segment will contain a null string. * @param lineIndex The line */ public final void getLineText(int lineIndex, Segment segment) { int start = getLineStartOffset(lineIndex); getText(start,getLineEndOffset(lineIndex) - start - 1,segment); } /** * Returns the selection start offset. */ public final int getSelectionStart() { return selectionStart; } /** * Returns the offset where the selection starts on the specified * line. */ public int getSelectionStart(int line) { if(line == selectionStartLine) return selectionStart; else if(rectSelect) { Element map = document.getDefaultRootElement(); int start = selectionStart - map.getElement(selectionStartLine) .getStartOffset(); Element lineElement = map.getElement(line); int lineStart = lineElement.getStartOffset(); int lineEnd = lineElement.getEndOffset() - 1; return Math.min(lineEnd,lineStart + start); } else return getLineStartOffset(line); } /** * Returns the selection start line. */ public final int getSelectionStartLine() { return selectionStartLine; } /** * Sets the selection start. The new selection will be the new * selection start and the old selection end. * @param selectionStart The selection start * @see #select(int,int) */ public final void setSelectionStart(int selectionStart) { select(selectionStart,selectionEnd); } /** * Returns the selection end offset. */ public final int getSelectionEnd() { return selectionEnd; } /** * Returns the offset where the selection ends on the specified * line. */ public int getSelectionEnd(int line) { if(line == selectionEndLine) return selectionEnd; else if(rectSelect) { Element map = document.getDefaultRootElement(); int end = selectionEnd - map.getElement(selectionEndLine) .getStartOffset(); Element lineElement = map.getElement(line); int lineStart = lineElement.getStartOffset(); int lineEnd = lineElement.getEndOffset() - 1; return Math.min(lineEnd,lineStart + end); } else return getLineEndOffset(line) - 1; } /** * Returns the selection end line. */ public final int getSelectionEndLine() { return selectionEndLine; } /** * Sets the selection end. The new selection will be the old * selection start and the bew selection end. * @param selectionEnd The selection end * @see #select(int,int) */ public final void setSelectionEnd(int selectionEnd) { select(selectionStart,selectionEnd); } /** * Returns the caret position. This will either be the selection * start or the selection end, depending on which direction the * selection was made in. */ public final int getCaretPosition() { return (biasLeft ? selectionStart : selectionEnd); } /** * Returns the caret line. */ public final int getCaretLine() { return (biasLeft ? selectionStartLine : selectionEndLine); } /** * Returns the mark position. This will be the opposite selection * bound to the caret position. * @see #getCaretPosition() */ public final int getMarkPosition() { return (biasLeft ? selectionEnd : selectionStart); } /** * Returns the mark line. */ public final int getMarkLine() { return (biasLeft ? selectionEndLine : selectionStartLine); } /** * Sets the caret position. The new selection will consist of the * caret position only (hence no text will be selected) * @param caret The caret position * @see #select(int,int) */ public final void setCaretPosition(int caret) { select(caret,caret); } /** * Selects all text in the document. */ public final void selectAll() { select(0,getDocumentLength()); } /** * Moves the mark to the caret position. */ public final void selectNone() { select(getCaretPosition(),getCaretPosition()); } /** * Selects from the start offset to the end offset. This is the * general selection method used by all other selecting methods. * The caret position will be start if start < end, and end * if end > start. * @param start The start offset * @param end The end offset */ public void select(int start, int end) { int newStart, newEnd; boolean newBias; if(start <= end) { newStart = start; newEnd = end; newBias = false; } else { newStart = end; newEnd = start; newBias = true; } if(newStart < 0 || newEnd > getDocumentLength()) { throw new IllegalArgumentException("Bounds out of" + " range: " + newStart + "," + newEnd); } // If the new position is the same as the old, we don't // do all this crap, however we still do the stuff at // the end (clearing magic position, scrolling) if(newStart != selectionStart || newEnd != selectionEnd || newBias != biasLeft) { int newStartLine = getLineOfOffset(newStart); int newEndLine = getLineOfOffset(newEnd); if(painter.isBracketHighlightEnabled()) { if(bracketLine != -1) painter.invalidateLine(bracketLine); updateBracketHighlight(end); if(bracketLine != -1) painter.invalidateLine(bracketLine); } painter.invalidateLineRange(selectionStartLine,selectionEndLine); painter.invalidateLineRange(newStartLine,newEndLine); document.addUndoableEdit(new CaretUndo( selectionStart,selectionEnd)); selectionStart = newStart; selectionEnd = newEnd; selectionStartLine = newStartLine; selectionEndLine = newEndLine; biasLeft = newBias; fireCaretEvent(); } // When the user is typing, etc, we don't want the caret // to blink blink = true; caretTimer.restart(); // Disable rectangle select if selection start = selection end if(selectionStart == selectionEnd) rectSelect = false; // Clear the `magic' caret position used by up/down magicCaret = -1; scrollToCaret(); } /** * Returns the selected text, or null if no selection is active. */ public final String getSelectedText() { if(selectionStart == selectionEnd) return null; if(rectSelect) { // Return each row of the selection on a new line Element map = document.getDefaultRootElement(); int start = selectionStart - map.getElement(selectionStartLine) .getStartOffset(); int end = selectionEnd - map.getElement(selectionEndLine) .getStartOffset(); // Certain rectangles satisfy this condition... if(end < start) { int tmp = end; end = start; start = tmp; } StringBuffer buf = new StringBuffer(); Segment seg = new Segment(); for(int i = selectionStartLine; i <= selectionEndLine; i++) { Element lineElement = map.getElement(i); int lineStart = lineElement.getStartOffset(); int lineEnd = lineElement.getEndOffset() - 1; int lineLen = lineEnd - lineStart; lineStart = Math.min(lineStart + start,lineEnd); lineLen = Math.min(end - start,lineEnd - lineStart); getText(lineStart,lineLen,seg); buf.append(seg.array,seg.offset,seg.count); if(i != selectionEndLine) buf.append('\n'); } return buf.toString(); } else { return getText(selectionStart, selectionEnd - selectionStart); } } /** * Replaces the selection with the specified text. * @param selectedText The replacement text for the selection */ public void setSelectedText(String selectedText) { if(!editable) { throw new InternalError("Text component" + " read only"); } document.beginCompoundEdit(); try { if(rectSelect) { Element map = document.getDefaultRootElement(); int start = selectionStart - map.getElement(selectionStartLine) .getStartOffset(); int end = selectionEnd - map.getElement(selectionEndLine) .getStartOffset(); // Certain rectangles satisfy this condition... if(end < start) { int tmp = end; end = start; start = tmp; } int lastNewline = 0; int currNewline = 0; for(int i = selectionStartLine; i <= selectionEndLine; i++) { Element lineElement = map.getElement(i); int lineStart = lineElement.getStartOffset(); int lineEnd = lineElement.getEndOffset() - 1; int rectStart = Math.min(lineEnd,lineStart + start); document.remove(rectStart,Math.min(lineEnd - rectStart, end - start)); if(selectedText == null) continue; currNewline = selectedText.indexOf('\n',lastNewline); if(currNewline == -1) currNewline = selectedText.length(); document.insertString(rectStart,selectedText .substring(lastNewline,currNewline),null); lastNewline = Math.min(selectedText.length(), currNewline + 1); } if(selectedText != null && currNewline != selectedText.length()) { int offset = map.getElement(selectionEndLine) .getEndOffset() - 1; document.insertString(offset,"\n",null); document.insertString(offset + 1,selectedText .substring(currNewline + 1),null); } } else { document.remove(selectionStart, selectionEnd - selectionStart); if(selectedText != null) { document.insertString(selectionStart, selectedText,null); } } } catch(BadLocationException bl) { bl.printStackTrace(); throw new InternalError("Cannot replace" + " selection"); } // No matter what happends... stops us from leaving document // in a bad state finally { document.endCompoundEdit(); } setCaretPosition(selectionEnd); } /** * Returns true if this text area is editable, false otherwise. */ public final boolean isEditable() { return editable; } /** * Sets if this component is editable. * @param editable True if this text area should be editable, * false otherwise */ public final void setEditable(boolean editable) { this.editable = editable; } /** * Returns the right click popup menu. */ public final JPopupMenu getRightClickPopup() { return popup; } /** * Sets the right click popup menu. * @param popup The popup */ public final void setRightClickPopup(JPopupMenu popup) { this.popup = popup; } /** * Returns the `magic' caret position. This can be used to preserve * the column position when moving up and down lines. */ public final int getMagicCaretPosition() { return magicCaret; } /** * Sets the `magic' caret position. This can be used to preserve * the column position when moving up and down lines. * @param magicCaret The magic caret position */ public final void setMagicCaretPosition(int magicCaret) { this.magicCaret = magicCaret; } /** * Similar to setSelectedText(), but overstrikes the * appropriate number of characters if overwrite mode is enabled. * @param str The string * @see #setSelectedText(String) * @see #isOverwriteEnabled() */ public void overwriteSetSelectedText(String str) { // Don't overstrike if there is a selection if(!overwrite || selectionStart != selectionEnd) { setSelectedText(str); return; } // Don't overstrike if we're on the end of // the line int caret = getCaretPosition(); int caretLineEnd = getLineEndOffset(getCaretLine()); if(caretLineEnd - caret <= str.length()) { setSelectedText(str); return; } document.beginCompoundEdit(); try { document.remove(caret,str.length()); document.insertString(caret,str,null); } catch(BadLocationException bl) { bl.printStackTrace(); } finally { document.endCompoundEdit(); } } /** * Returns true if overwrite mode is enabled, false otherwise. */ public final boolean isOverwriteEnabled() { return overwrite; } /** * Sets if overwrite mode should be enabled. * @param overwrite True if overwrite mode should be enabled, * false otherwise. */ public final void setOverwriteEnabled(boolean overwrite) { this.overwrite = overwrite; painter.invalidateSelectedLines(); } /** * Returns true if the selection is rectangular, false otherwise. */ public final boolean isSelectionRectangular() { return rectSelect; } /** * Sets if the selection should be rectangular. * @param overwrite True if the selection should be rectangular, * false otherwise. */ public final void setSelectionRectangular(boolean rectSelect) { this.rectSelect = rectSelect; painter.invalidateSelectedLines(); } /** * Returns the position of the highlighted bracket (the bracket * matching the one before the caret) */ public final int getBracketPosition() { return bracketPosition; } /** * Returns the line of the highlighted bracket (the bracket * matching the one before the caret) */ public final int getBracketLine() { return bracketLine; } /** * Adds a caret change listener to this text area. * @param listener The listener */ public final void addCaretListener(CaretListener listener) { listenerList.add(CaretListener.class,listener); } /** * Removes a caret change listener from this text area. * @param listener The listener */ public final void removeCaretListener(CaretListener listener) { listenerList.remove(CaretListener.class,listener); } /** * Deletes the selected text from the text area and places it * into the clipboard. */ public void cut() { if(editable) { copy(); setSelectedText(""); } } /** * Places the selected text into the clipboard. */ public void copy() { if(selectionStart != selectionEnd) { Clipboard clipboard = getToolkit().getSystemClipboard(); String selection = getSelectedText(); int repeatCount = inputHandler.getRepeatCount(); StringBuffer buf = new StringBuffer(); for(int i = 0; i < repeatCount; i++) buf.append(selection); clipboard.setContents(new StringSelection(buf.toString()),null); } } /** * Inserts the clipboard contents into the text. */ public void paste() { if(editable) { Clipboard clipboard = getToolkit().getSystemClipboard(); try { // The MacOS MRJ doesn't convert \r to \n, // so do it here String selection = ((String)clipboard .getContents(this).getTransferData( DataFlavor.stringFlavor)) .replace('\r','\n'); int repeatCount = inputHandler.getRepeatCount(); StringBuffer buf = new StringBuffer(); for(int i = 0; i < repeatCount; i++) buf.append(selection); selection = buf.toString(); setSelectedText(selection); } catch(Exception e) { getToolkit().beep(); System.err.println("Clipboard does not" + " contain a string"); } } } /** * Called by the AWT when this component is removed from it's parent. * This stops clears the currently focused component. */ public void removeNotify() { super.removeNotify(); if(focusedComponent == this) focusedComponent = null; } /** * Forwards key events directly to the input handler. * This is slightly faster than using a KeyListener * because some Swing overhead is avoided. */ public void processKeyEvent(KeyEvent evt) { if(inputHandler == null) return; switch(evt.getID()) { case KeyEvent.KEY_TYPED: inputHandler.keyTyped(evt); break; case KeyEvent.KEY_PRESSED: inputHandler.keyPressed(evt); break; case KeyEvent.KEY_RELEASED: inputHandler.keyReleased(evt); break; } } // protected members protected static String CENTER = "center"; protected static String RIGHT = "right"; protected static String BOTTOM = "bottom"; protected static JEditTextArea focusedComponent; protected static Timer caretTimer; protected TextAreaPainter painter; protected JPopupMenu popup; protected EventListenerList listenerList; protected MutableCaretEvent caretEvent; protected boolean caretBlinks; protected boolean caretVisible; protected boolean blink; protected boolean editable; protected int firstLine; protected int visibleLines; protected int electricScroll; protected int horizontalOffset; protected JScrollBar vertical; protected JScrollBar horizontal; protected boolean scrollBarsInitialized; protected InputHandler inputHandler; protected SyntaxDocument document; protected DocumentHandler documentHandler; protected Segment lineSegment; protected int selectionStart; protected int selectionStartLine; protected int selectionEnd; protected int selectionEndLine; protected boolean biasLeft; protected int bracketPosition; protected int bracketLine; protected int magicCaret; protected boolean overwrite; protected boolean rectSelect; protected void fireCaretEvent() { Object[] listeners = listenerList.getListenerList(); for(int i = listeners.length - 2; i >= 0; i--) { if(listeners[i] == CaretListener.class) { ((CaretListener)listeners[i+1]).caretUpdate(caretEvent); } } } protected void updateBracketHighlight(int newCaretPosition) { if(newCaretPosition == 0) { bracketPosition = bracketLine = -1; return; } try { int offset = TextUtilities.findMatchingBracket( document,newCaretPosition - 1); if(offset != -1) { bracketLine = getLineOfOffset(offset); bracketPosition = offset - getLineStartOffset(bracketLine); return; } } catch(BadLocationException bl) { bl.printStackTrace(); } bracketLine = bracketPosition = -1; } protected void documentChanged(DocumentEvent evt) { DocumentEvent.ElementChange ch = evt.getChange( document.getDefaultRootElement()); int count; if(ch == null) count = 0; else count = ch.getChildrenAdded().length - ch.getChildrenRemoved().length; int line = getLineOfOffset(evt.getOffset()); if(count == 0) { painter.invalidateLine(line); } // do magic stuff else if(line < firstLine) { setFirstLine(firstLine + count); } // end of magic stuff else { painter.invalidateLineRange(line,firstLine + visibleLines); updateScrollBars(); } } class ScrollLayout implements LayoutManager { public void addLayoutComponent(String name, Component comp) { if(name.equals(CENTER)) center = comp; else if(name.equals(RIGHT)) right = comp; else if(name.equals(BOTTOM)) bottom = comp; else if(name.equals(LEFT_OF_SCROLLBAR)) leftOfScrollBar.addElement(comp); } public void removeLayoutComponent(Component comp) { if(center == comp) center = null; if(right == comp) right = null; if(bottom == comp) bottom = null; else leftOfScrollBar.removeElement(comp); } public Dimension preferredLayoutSize(Container parent) { Dimension dim = new Dimension(); Insets insets = getInsets(); dim.width = insets.left + insets.right; dim.height = insets.top + insets.bottom; Dimension centerPref = center.getPreferredSize(); dim.width += centerPref.width; dim.height += centerPref.height; Dimension rightPref = right.getPreferredSize(); dim.width += rightPref.width; Dimension bottomPref = bottom.getPreferredSize(); dim.height += bottomPref.height; return dim; } public Dimension minimumLayoutSize(Container parent) { Dimension dim = new Dimension(); Insets insets = getInsets(); dim.width = insets.left + insets.right; dim.height = insets.top + insets.bottom; Dimension centerPref = center.getMinimumSize(); dim.width += centerPref.width; dim.height += centerPref.height; Dimension rightPref = right.getMinimumSize(); dim.width += rightPref.width; Dimension bottomPref = bottom.getMinimumSize(); dim.height += bottomPref.height; return dim; } public void layoutContainer(Container parent) { Dimension size = parent.getSize(); Insets insets = parent.getInsets(); int itop = insets.top; int ileft = insets.left; int ibottom = insets.bottom; int iright = insets.right; int rightWidth = right.getPreferredSize().width; int bottomHeight = bottom.getPreferredSize().height; int centerWidth = size.width - rightWidth - ileft - iright; int centerHeight = size.height - bottomHeight - itop - ibottom; center.setBounds( ileft, itop, centerWidth, centerHeight); right.setBounds( ileft + centerWidth, itop, rightWidth, centerHeight); // Lay out all status components, in order Enumeration status = leftOfScrollBar.elements(); while(status.hasMoreElements()) { Component comp = (Component)status.nextElement(); Dimension dim = comp.getPreferredSize(); comp.setBounds(ileft, itop + centerHeight, dim.width, bottomHeight); ileft += dim.width; } bottom.setBounds( ileft, itop + centerHeight, size.width - rightWidth - ileft - iright, bottomHeight); } // private members private Component center; private Component right; private Component bottom; private Vector leftOfScrollBar = new Vector(); } static class CaretBlinker implements ActionListener { public void actionPerformed(ActionEvent evt) { if(focusedComponent != null && focusedComponent.hasFocus()) focusedComponent.blinkCaret(); } } class MutableCaretEvent extends CaretEvent { MutableCaretEvent() { super(JEditTextArea.this); } public int getDot() { return getCaretPosition(); } public int getMark() { return getMarkPosition(); } } class AdjustHandler implements AdjustmentListener { public void adjustmentValueChanged(final AdjustmentEvent evt) { if(!scrollBarsInitialized) return; // If this is not done, mousePressed events accumilate // and the result is that scrolling doesn't stop after // the mouse is released SwingUtilities.invokeLater(new Runnable() { public void run() { if(evt.getAdjustable() == vertical) setFirstLine(vertical.getValue()); else setHorizontalOffset(-horizontal.getValue()); } }); } } class ComponentHandler extends ComponentAdapter { public void componentResized(ComponentEvent evt) { recalculateVisibleLines(); scrollBarsInitialized = true; } } class DocumentHandler implements DocumentListener { public void insertUpdate(DocumentEvent evt) { documentChanged(evt); int offset = evt.getOffset(); int length = evt.getLength(); int newStart; int newEnd; if(selectionStart > offset || (selectionStart == selectionEnd && selectionStart == offset)) newStart = selectionStart + length; else newStart = selectionStart; if(selectionEnd >= offset) newEnd = selectionEnd + length; else newEnd = selectionEnd; select(newStart,newEnd); } public void removeUpdate(DocumentEvent evt) { documentChanged(evt); int offset = evt.getOffset(); int length = evt.getLength(); int newStart; int newEnd; if(selectionStart > offset) { if(selectionStart > offset + length) newStart = selectionStart - length; else newStart = offset; } else newStart = selectionStart; if(selectionEnd > offset) { if(selectionEnd > offset + length) newEnd = selectionEnd - length; else newEnd = offset; } else newEnd = selectionEnd; select(newStart,newEnd); } public void changedUpdate(DocumentEvent evt) { } } class DragHandler implements MouseMotionListener { public void mouseDragged(MouseEvent evt) { if(popup != null && popup.isVisible()) return; setSelectionRectangular((evt.getModifiers() & InputEvent.CTRL_MASK) != 0); select(getMarkPosition(),xyToOffset(evt.getX(),evt.getY())); } public void mouseMoved(MouseEvent evt) {} } class FocusHandler implements FocusListener { public void focusGained(FocusEvent evt) { setCaretVisible(true); focusedComponent = JEditTextArea.this; } public void focusLost(FocusEvent evt) { setCaretVisible(false); focusedComponent = null; } } class MouseHandler extends MouseAdapter { public void mousePressed(MouseEvent evt) { requestFocus(); // Focus events not fired sometimes? setCaretVisible(true); focusedComponent = JEditTextArea.this; if((evt.getModifiers() & InputEvent.BUTTON3_MASK) != 0 && popup != null) { popup.show(painter,evt.getX(),evt.getY()); return; } int line = yToLine(evt.getY()); int offset = xToOffset(line,evt.getX()); int dot = getLineStartOffset(line) + offset; switch(evt.getClickCount()) { case 1: doSingleClick(evt,line,offset,dot); break; case 2: // It uses the bracket matching stuff, so // it can throw a BLE try { doDoubleClick(evt,line,offset,dot); } catch(BadLocationException bl) { bl.printStackTrace(); } break; case 3: doTripleClick(evt,line,offset,dot); break; } } private void doSingleClick(MouseEvent evt, int line, int offset, int dot) { if((evt.getModifiers() & InputEvent.SHIFT_MASK) != 0) { rectSelect = (evt.getModifiers() & InputEvent.CTRL_MASK) != 0; select(getMarkPosition(),dot); } else setCaretPosition(dot); } private void doDoubleClick(MouseEvent evt, int line, int offset, int dot) throws BadLocationException { // Ignore empty lines if(getLineLength(line) == 0) return; try { int bracket = TextUtilities.findMatchingBracket( document,Math.max(0,dot - 1)); if(bracket != -1) { int mark = getMarkPosition(); // Hack if(bracket > mark) { bracket++; mark--; } select(mark,bracket); return; } } catch(BadLocationException bl) { bl.printStackTrace(); } // Ok, it's not a bracket... select the word String lineText = getLineText(line); char ch = lineText.charAt(Math.max(0,offset - 1)); String noWordSep = (String)document.getProperty("noWordSep"); if(noWordSep == null) noWordSep = ""; // If the user clicked on a non-letter char, // we select the surrounding non-letters boolean selectNoLetter = (!Character .isLetterOrDigit(ch) && noWordSep.indexOf(ch) == -1); int wordStart = 0; for(int i = offset - 1; i >= 0; i--) { ch = lineText.charAt(i); if(selectNoLetter ^ (!Character .isLetterOrDigit(ch) && noWordSep.indexOf(ch) == -1)) { wordStart = i + 1; break; } } int wordEnd = lineText.length(); for(int i = offset; i < lineText.length(); i++) { ch = lineText.charAt(i); if(selectNoLetter ^ (!Character .isLetterOrDigit(ch) && noWordSep.indexOf(ch) == -1)) { wordEnd = i; break; } } int lineStart = getLineStartOffset(line); select(lineStart + wordStart,lineStart + wordEnd); /* String lineText = getLineText(line); String noWordSep = (String)document.getProperty("noWordSep"); int wordStart = TextUtilities.findWordStart(lineText,offset,noWordSep); int wordEnd = TextUtilities.findWordEnd(lineText,offset,noWordSep); int lineStart = getLineStartOffset(line); select(lineStart + wordStart,lineStart + wordEnd); */ } private void doTripleClick(MouseEvent evt, int line, int offset, int dot) { select(getLineStartOffset(line),getLineEndOffset(line)-1); } } class CaretUndo extends AbstractUndoableEdit { private int start; private int end; CaretUndo(int start, int end) { this.start = start; this.end = end; } public boolean isSignificant() { return false; } public String getPresentationName() { return "caret move"; } public void undo() throws CannotUndoException { super.undo(); select(start,end); } public void redo() throws CannotRedoException { super.redo(); select(start,end); } public boolean addEdit(UndoableEdit edit) { if(edit instanceof CaretUndo) { CaretUndo cedit = (CaretUndo)edit; start = cedit.start; end = cedit.end; cedit.die(); return true; } else return false; } } static { caretTimer = new Timer(500,new CaretBlinker()); caretTimer.setInitialDelay(500); caretTimer.start(); } }




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