/*******************************************************************************
* Copyright (c) 2000, 2011 IBM Corporation and others.
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v1.0
* which accompanies this distribution, and is available at
* http://www.eclipse.org/legal/epl-v10.html
*
* Contributors:
* IBM Corporation - initial API and implementation
*******************************************************************************/
package org.eclipse.swt.custom;
import org.eclipse.swt.*;
import org.eclipse.swt.internal.Compatibility;
import org.eclipse.swt.widgets.*;
import java.util.Vector;
@SuppressWarnings({"rawtypes", "unchecked"})
class DefaultContent implements StyledTextContent {
private final static String LineDelimiter = System.getProperty("line.separator");
Vector textListeners = new Vector(); // stores text listeners for event sending
char[] textStore = new char[0]; // stores the actual text
int gapStart = -1; // the character position start of the gap
int gapEnd = -1; // the character position after the end of the gap
int gapLine = -1; // the line on which the gap exists, the gap will always be associated with one line
int highWatermark = 300;
int lowWatermark = 50;
int[][] lines = new int[50][2]; // array of character positions and lengths representing the lines of text
int lineCount = 0; // the number of lines of text
int expandExp = 1; // the expansion exponent, used to increase the lines array exponentially
int replaceExpandExp = 1; // the expansion exponent, used to increase the lines array exponentially
/**
* Creates a new DefaultContent and initializes it. A <code>StyledTextContent</> will always have
* at least one empty line.
*/
DefaultContent() {
super();
setText("");
}
/**
* Adds a line to the end of the line indexes array. Increases the size of the array if necessary.
* <code>lineCount</code> is updated to reflect the new entry.
* <p>
*
* @param start the start of the line
* @param length the length of the line
*/
void addLineIndex(int start, int length) {
int size = lines.length;
if (lineCount == size) {
// expand the lines by powers of 2
int[][] newLines = new int[size+Compatibility.pow2(expandExp)][2];
System.arraycopy(lines, 0, newLines, 0, size);
lines = newLines;
expandExp++;
}
int[] range = new int[] {start, length};
lines[lineCount] = range;
lineCount++;
}
/**
* Adds a line index to the end of <code>linesArray</code>. Increases the
* size of the array if necessary and returns a new array.
* <p>
*
* @param start the start of the line
* @param length the length of the line
* @param linesArray the array to which to add the line index
* @param count the position at which to add the line
* @return a new array of line indexes
*/
int[][] addLineIndex(int start, int length, int[][] linesArray, int count) {
int size = linesArray.length;
int[][] newLines = linesArray;
if (count == size) {
newLines = new int[size+Compatibility.pow2(replaceExpandExp)][2];
replaceExpandExp++;
System.arraycopy(linesArray, 0, newLines, 0, size);
}
int[] range = new int[] {start, length};
newLines[count] = range;
return newLines;
}
/**
* Adds a <code>TextChangeListener</code> listening for
* <code>TextChangingEvent</code> and <code>TextChangedEvent</code>. A
* <code>TextChangingEvent</code> is sent before changes to the text occur.
* A <code>TextChangedEvent</code> is sent after changes to the text
* occurred.
* <p>
*
* @param listener the listener
* @exception IllegalArgumentException <ul>
* <li>ERROR_NULL_ARGUMENT when listener is null</li>
* </ul>
*/
public void addTextChangeListener(TextChangeListener listener) {
if (listener == null) error(SWT.ERROR_NULL_ARGUMENT);
StyledTextListener typedListener = new StyledTextListener(listener);
textListeners.addElement(typedListener);
}
/**
* Adjusts the gap to accommodate a text change that is occurring.
* <p>
*
* @param position the position at which a change is occurring
* @param sizeHint the size of the change
* @param line the line where the gap will go
*/
void adjustGap(int position, int sizeHint, int line) {
if (position == gapStart) {
// text is being inserted at the gap position
int size = (gapEnd - gapStart) - sizeHint;
if (lowWatermark <= size && size <= highWatermark)
return;
} else if ((position + sizeHint == gapStart) && (sizeHint < 0)) {
// text is being deleted at the gap position
int size = (gapEnd - gapStart) - sizeHint;
if (lowWatermark <= size && size <= highWatermark)
return;
}
moveAndResizeGap(position, sizeHint, line);
}
/**
* Calculates the indexes of each line in the text store. Assumes no gap exists.
* Optimized to do less checking.
*/
void indexLines(){
int start = 0;
lineCount = 0;
int textLength = textStore.length;
int i;
for (i = start; i < textLength; i++) {
char ch = textStore[i];
if (ch == SWT.CR) {
// see if the next character is a LF
if (i + 1 < textLength) {
ch = textStore[i+1];
if (ch == SWT.LF) {
i++;
}
}
addLineIndex(start, i - start + 1);
start = i + 1;
} else if (ch == SWT.LF) {
addLineIndex(start, i - start + 1);
start = i + 1;
}
}
addLineIndex(start, i - start);
}
/**
* Returns whether or not the given character is a line delimiter. Both CR and LF
* are valid line delimiters.
* <p>
*
* @param ch the character to test
* @return true if ch is a delimiter, false otherwise
*/
boolean isDelimiter(char ch) {
if (ch == SWT.CR) return true;
if (ch == SWT.LF) return true;
return false;
}
/**
* Determine whether or not the replace operation is valid. DefaultContent will not allow
* the /r/n line delimiter to be split or partially deleted.
* <p>
*
* @param start start offset of text to replace
* @param replaceLength start offset of text to replace
* @param newText start offset of text to replace
* @return a boolean specifying whether or not the replace operation is valid
*/
protected boolean isValidReplace(int start, int replaceLength, String newText){
if (replaceLength == 0) {
// inserting text, see if the \r\n line delimiter is being split
if (start == 0) return true;
if (start == getCharCount()) return true;
char before = getTextRange(start - 1, 1).charAt(0);
if (before == '\r') {
char after = getTextRange(start, 1).charAt(0);
if (after == '\n') return false;
}
} else {
// deleting text, see if part of a \r\n line delimiter is being deleted
char startChar = getTextRange(start, 1).charAt(0);
if (startChar == '\n') {
// see if char before delete position is \r
if (start != 0) {
char before = getTextRange(start - 1, 1).charAt(0);
if (before == '\r') return false;
}
}
char endChar = getTextRange(start + replaceLength - 1, 1).charAt(0);
if (endChar == '\r') {
// see if char after delete position is \n
if (start + replaceLength != getCharCount()) {
char after = getTextRange(start + replaceLength, 1).charAt(0);
if (after == '\n') return false;
}
}
}
return true;
}
/**
* Calculates the indexes of each line of text in the given range.
* <p>
*
* @param offset the logical start offset of the text lineate
* @param length the length of the text to lineate, includes gap
* @param numLines the number of lines to initially allocate for the line index array,
* passed in for efficiency (the exact number of lines may be known)
* @return a line indexes array where each line is identified by a start offset and
* a length
*/
int[][] indexLines(int offset, int length, int numLines){
int[][] indexedLines = new int[numLines][2];
int start = 0;
int lineCount = 0;
int i;
replaceExpandExp = 1;
for (i = start; i < length; i++) {
int location = i + offset;
if ((location >= gapStart) && (location < gapEnd)) {
// ignore the gap
} else {
char ch = textStore[location];
if (ch == SWT.CR) {
// see if the next character is a LF
if (location+1 < textStore.length) {
ch = textStore[location+1];
if (ch == SWT.LF) {
i++;
}
}
indexedLines = addLineIndex(start, i - start + 1, indexedLines, lineCount);
lineCount++;
start = i + 1;
} else if (ch == SWT.LF) {
indexedLines = addLineIndex(start, i - start + 1, indexedLines, lineCount);
lineCount++;
start = i + 1;
}
}
}
int[][] newLines = new int[lineCount+1][2];
System.arraycopy(indexedLines, 0, newLines, 0, lineCount);
int[] range = new int[] {start, i - start};
newLines[lineCount] = range;
return newLines;
}
/**
* Inserts text.
* <p>
*
* @param position the position at which to insert the text
* @param text the text to insert
*/
void insert(int position, String text) {
if (text.length() == 0) return;
int startLine = getLineAtOffset(position);
int change = text.length();
boolean endInsert = position == getCharCount();
adjustGap(position, change, startLine);
// during an insert the gap will be adjusted to start at
// position and it will be associated with startline, the
// inserted text will be placed in the gap
int startLineOffset = getOffsetAtLine(startLine);
// at this point, startLineLength will include the start line
// and all of the newly inserted text
int startLineLength = getPhysicalLine(startLine).length();
if (change > 0) {
// shrink gap
gapStart += (change);
for (int i = 0; i < text.length(); i++) {
textStore[position + i]= text.charAt(i);
}
}
// figure out the number of new lines that have been inserted
int [][] newLines = indexLines(startLineOffset, startLineLength, 10);
// only insert an empty line if it is the last line in the text
int numNewLines = newLines.length - 1;
if (newLines[numNewLines][1] == 0) {
// last inserted line is a new line
if (endInsert) {
// insert happening at end of the text, leave numNewLines as
// is since the last new line will not be concatenated with another
// line
numNewLines += 1;
} else {
numNewLines -= 1;
}
}
// make room for the new lines
expandLinesBy(numNewLines);
// shift down the lines after the replace line
for (int i = lineCount - 1; i > startLine; i--) {
lines[i + numNewLines]=lines[i];
}
// insert the new lines
for (int i = 0; i < numNewLines; i++) {
newLines[i][0] += startLineOffset;
lines[startLine + i]=newLines[i];
}
// update the last inserted line
if (numNewLines < newLines.length) {
newLines[numNewLines][0] += startLineOffset;
lines[startLine + numNewLines] = newLines[numNewLines];
}
lineCount += numNewLines;
gapLine = getLineAtPhysicalOffset(gapStart);
}
/**
* Moves the gap and adjusts its size in anticipation of a text change.
* The gap is resized to actual size + the specified size and moved to the given
* position.
* <p>
*
* @param position the position at which a change is occurring
* @param size the size of the change
* @param newGapLine the line where the gap should be put
*/
void moveAndResizeGap(int position, int size, int newGapLine) {
char[] content = null;
int oldSize = gapEnd - gapStart;
int newSize;
if (size > 0) {
newSize = highWatermark + size;
} else {
newSize = lowWatermark - size;
}
// remove the old gap from the lines information
if (gapExists()) {
// adjust the line length
lines[gapLine][1] = lines[gapLine][1] - oldSize;
// adjust the offsets of the lines after the gapLine
for (int i = gapLine + 1; i < lineCount; i++) {
lines[i][0] = lines[i][0] - oldSize;
}
}
if (newSize < 0) {
if (oldSize > 0) {
// removing the gap
content = new char[textStore.length - oldSize];
System.arraycopy(textStore, 0, content, 0, gapStart);
System.arraycopy(textStore, gapEnd, content, gapStart, content.length - gapStart);
textStore = content;
}
gapStart = gapEnd = position;
return;
}
content = new char[textStore.length + (newSize - oldSize)];
int newGapStart = position;
int newGapEnd = newGapStart + newSize;
if (oldSize == 0) {
System.arraycopy(textStore, 0, content, 0, newGapStart);
System.arraycopy(textStore, newGapStart, content, newGapEnd, content.length - newGapEnd);
} else if (newGapStart < gapStart) {
int delta = gapStart - newGapStart;
System.arraycopy(textStore, 0, content, 0, newGapStart);
System.arraycopy(textStore, newGapStart, content, newGapEnd, delta);
System.arraycopy(textStore, gapEnd, content, newGapEnd + delta, textStore.length - gapEnd);
} else {
int delta = newGapStart - gapStart;
System.arraycopy(textStore, 0, content, 0, gapStart);
System.arraycopy(textStore, gapEnd, content, gapStart, delta);
System.arraycopy(textStore, gapEnd + delta, content, newGapEnd, content.length - newGapEnd);
}
textStore = content;
gapStart = newGapStart;
gapEnd = newGapEnd;
// add the new gap to the lines information
if (gapExists()) {
gapLine = newGapLine;
// adjust the line length
int gapLength = gapEnd - gapStart;
lines[gapLine][1] = lines[gapLine][1] + (gapLength);
// adjust the offsets of the lines after the gapLine
for (int i = gapLine + 1; i < lineCount; i++) {
lines[i][0] = lines[i][0] + gapLength;
}
}
}
/**
* Returns the number of lines that are in the specified text.
* <p>
*
* @param startOffset the start of the text to lineate
* @param length the length of the text to lineate
* @return number of lines
*/
int lineCount(int startOffset, int length){
if (length == 0) {
return 0;
}
int lineCount = 0;
int count = 0;
int i = startOffset;
if (i >= gapStart) {
i += gapEnd - gapStart;
}
while (count < length) {
if ((i >= gapStart) && (i < gapEnd)) {
// ignore the gap
} else {
char ch = textStore[i];
if (ch == SWT.CR) {
// see if the next character is a LF
if (i + 1 < textStore.length) {
ch = textStore[i+1];
if (ch == SWT.LF) {
i++;
count++;
}
}
lineCount++;
} else if (ch == SWT.LF) {
lineCount++;
}
count++;
}
i++;
}
return lineCount;
}
/**
* Returns the number of lines that are in the specified text.
* <p>
*
* @param text the text to lineate
* @return number of lines in the text
*/
int lineCount(String text){
int lineCount = 0;
int length = text.length();
for (int i = 0; i < length; i++) {
char ch = text.charAt(i);
if (ch == SWT.CR) {
if (i + 1 < length && text.charAt(i + 1) == SWT.LF) {
i++;
}
lineCount++;
} else if (ch == SWT.LF) {
lineCount++;
}
}
return lineCount;
}
/**
* @return the logical length of the text store
*/
public int getCharCount() {
int length = gapEnd - gapStart;
return (textStore.length - length);
}
/**
* Returns the line at <code>index</code> without delimiters.
* <p>
*
* @param index the index of the line to return
* @return the logical line text (i.e., without the gap)
* @exception IllegalArgumentException <ul>
* <li>ERROR_INVALID_ARGUMENT when index is out of range</li>
* </ul>
*/
public String getLine(int index) {
if ((index >= lineCount) || (index < 0)) error(SWT.ERROR_INVALID_ARGUMENT);
int start = lines[index][0];
int length = lines[index][1];
int end = start + length - 1;
if (!gapExists() || (end < gapStart) || (start >= gapEnd)) {
// line is before or after the gap
while ((length - 1 >= 0) && isDelimiter(textStore[start+length-1])) {
length--;
}
return new String(textStore, start, length);
} else {
// gap is in the specified range, strip out the gap
StringBuffer buf = new StringBuffer();
int gapLength = gapEnd - gapStart;
buf.append(textStore, start, gapStart - start);
buf.append(textStore, gapEnd, length - gapLength - (gapStart - start));
length = buf.length();
while ((length - 1 >=0) && isDelimiter(buf.charAt(length - 1))) {
length--;
}
return buf.toString().substring(0, length);
}
}
/**
* Returns the line delimiter that should be used by the StyledText
* widget when inserting new lines. This delimiter may be different than the
* delimiter that is used by the <code>StyledTextContent</code> interface.
* <p>
*
* @return the platform line delimiter as specified in the line.separator
* system property.
*/
public String getLineDelimiter() {
return LineDelimiter;
}
/**
* Returns the line at the given index with delimiters.
* <p>
* @param index the index of the line to return
* @return the logical line text (i.e., without the gap) with delimiters
*/
String getFullLine(int index) {
int start = lines[index][0];
int length = lines[index][1];
int end = start + length - 1;
if (!gapExists() || (end < gapStart) || (start >= gapEnd)) {
// line is before or after the gap
return new String(textStore, start, length);
} else {
// gap is in the specified range, strip out the gap
StringBuffer buffer = new StringBuffer();
int gapLength = gapEnd - gapStart;
buffer.append(textStore, start, gapStart - start);
buffer.append(textStore, gapEnd, length - gapLength - (gapStart - start));
return buffer.toString();
}
}
/**
* Returns the physical line at the given index (i.e., with delimiters and the gap).
* <p>
*
* @param index the line index
* @return the physical line
*/
String getPhysicalLine(int index) {
int start = lines[index][0];
int length = lines[index][1];
return getPhysicalText(start, length);
}
/**
* @return the number of lines in the text store
*/
public int getLineCount(){
return lineCount;
}
/**
* Returns the line at the given offset.
* <p>
*
* @param charPosition logical character offset (i.e., does not include gap)
* @return the line index
* @exception IllegalArgumentException <ul>
* <li>ERROR_INVALID_ARGUMENT when charPosition is out of range</li>
* </ul>
*/
public int getLineAtOffset(int charPosition){
if ((charPosition > getCharCount()) || (charPosition < 0)) error(SWT.ERROR_INVALID_ARGUMENT);
int position;
if (charPosition < gapStart) {
// position is before the gap
position = charPosition;
} else {
// position includes the gap
position = charPosition + (gapEnd - gapStart);
}
// if last line and the line is not empty you can ask for
// a position that doesn't exist (the one to the right of the
// last character) - for inserting
if (lineCount > 0) {
int lastLine = lineCount - 1;
if (position == lines[lastLine][0] + lines[lastLine][1])
return lastLine;
}
int high = lineCount;
int low = -1;
int index = lineCount;
while (high - low > 1) {
index = (high + low) / 2;
int lineStart = lines[index][0];
int lineEnd = lineStart + lines[index][1] - 1;
if (position <= lineStart) {
high = index;
} else if (position <= lineEnd) {
high = index;
break;
} else {
low = index;
}
}
return high;
}
/**
* Returns the line index at the given physical offset.
* <p>
*
* @param position physical character offset (i.e., includes gap)
* @return the line index
*/
int getLineAtPhysicalOffset(int position){
int high = lineCount;
int low = -1;
int index = lineCount;
while (high - low > 1) {
index = (high + low) / 2;
int lineStart = lines[index][0];
int lineEnd = lineStart + lines[index][1] - 1;
if (position <= lineStart) {
high = index;
} else if (position <= lineEnd) {
high = index;
break;
} else {
low = index;
}
}
return high;
}
/**
* Returns the logical offset of the given line.
* <p>
*
* @param lineIndex index of line
* @return the logical starting offset of the line. When there are not any lines,
* getOffsetAtLine(0) is a valid call that should answer 0.
* @exception IllegalArgumentException <ul>
* <li>ERROR_INVALID_ARGUMENT when lineIndex is out of range</li>
* </ul>
*/
public int getOffsetAtLine(int lineIndex) {
if (lineIndex == 0) return 0;
if ((lineIndex >= lineCount) || (lineIndex < 0)) error(SWT.ERROR_INVALID_ARGUMENT);
int start = lines[lineIndex][0];
if (start > gapEnd) {
return start - (gapEnd - gapStart);
} else {
return start;
}
}
/**
* Increases the line indexes array to accommodate more lines.
* <p>
*
* @param numLines the number to increase the array by
*/
void expandLinesBy(int numLines) {
int size = lines.length;
if (size - lineCount >= numLines) {
return;
}
int[][] newLines = new int[size+Math.max(10, numLines)][2];
System.arraycopy(lines, 0, newLines, 0, size);
lines = newLines;
}
/**
* Reports an SWT error.
* <p>
*
* @param code the error code
*/
void error (int code) {
SWT.error(code);
}
/**
* Returns whether or not a gap exists in the text store.
* <p>
*
* @return true if gap exists, false otherwise
*/
boolean gapExists() {
return gapStart != gapEnd;
}
/**
* Returns a string representing the continuous content of
* the text store.
* <p>
*
* @param start the physical start offset of the text to return
* @param length the physical length of the text to return
* @return the text
*/
String getPhysicalText(int start, int length) {
return new String(textStore, start, length);
}
/**
* Returns a string representing the logical content of
* the text store (i.e., gap stripped out).
* <p>
*
* @param start the logical start offset of the text to return
* @param length the logical length of the text to return
* @return the text
*/
public String getTextRange(int start, int length) {
if (textStore == null)
return "";
if (length == 0)
return "";
int end= start + length;
if (!gapExists() || (end < gapStart))
return new String(textStore, start, length);
if (gapStart < start) {
int gapLength= gapEnd - gapStart;
return new String(textStore, start + gapLength , length);
}
StringBuffer buf = new StringBuffer();
buf.append(textStore, start, gapStart - start);
buf.append(textStore, gapEnd, end - gapStart);
return buf.toString();
}
/**
* Removes the specified <code>TextChangeListener</code>.
* <p>
*
* @param listener the listener which should no longer be notified
*
* @exception IllegalArgumentException <ul>
* <li>ERROR_NULL_ARGUMENT when listener is null</li>
* </ul>
*/
public void removeTextChangeListener(TextChangeListener listener){
if (listener == null) error(SWT.ERROR_NULL_ARGUMENT);
for (int i = 0; i < textListeners.size(); i++) {
TypedListener typedListener = (TypedListener) textListeners.elementAt(i);
if (typedListener.getEventListener () == listener) {
textListeners.removeElementAt(i);
break;
}
}
}
/**
* Replaces the text with <code>newText</code> starting at position <code>start</code>
* for a length of <code>replaceLength</code>. Notifies the appropriate listeners.
* <p>
*
* When sending the TextChangingEvent, <code>newLineCount</code> is the number of
* lines that are going to be inserted and <code>replaceLineCount</code> is
* the number of lines that are going to be deleted, based on the change
* that occurs visually. For example:
* <ul>
* <li>(replaceText,newText) ==> (replaceLineCount,newLineCount)
* <li>("","\n") ==> (0,1)
* <li>("\n\n","a") ==> (2,0)
* </ul>
* </p>
*
* @param start start offset of text to replace
* @param replaceLength start offset of text to replace
* @param newText start offset of text to replace
*
* @exception SWTException <ul>
* <li>ERROR_INVALID_ARGUMENT when the text change results in a multi byte
* line delimiter being split or partially deleted. Splitting a line
* delimiter by inserting text between the CR and LF characters of the
* \r\n delimiter or deleting part of this line delimiter is not supported</li>
* </ul>
*/
public void replaceTextRange(int start, int replaceLength, String newText){
// check for invalid replace operations
if (!isValidReplace(start, replaceLength, newText)) SWT.error(SWT.ERROR_INVALID_ARGUMENT);
// inform listeners
StyledTextEvent event = new StyledTextEvent(this);
event.type = ST.TextChanging;
event.start = start;
event.replaceLineCount = lineCount(start, replaceLength);
event.text = newText;
event.newLineCount = lineCount(newText);
event.replaceCharCount = replaceLength;
event.newCharCount = newText.length();
sendTextEvent(event);
// first delete the text to be replaced
delete(start, replaceLength, event.replaceLineCount + 1);
// then insert the new text
insert(start, newText);
// inform listeners
event = new StyledTextEvent(this);
event.type = ST.TextChanged;
sendTextEvent(event);
}
/**
* Sends the text listeners the TextChanged event.
*/
void sendTextEvent(StyledTextEvent event) {
for (int i = 0; i < textListeners.size(); i++) {
((StyledTextListener)textListeners.elementAt(i)).handleEvent(event);
}
}
/**
* Sets the content to text and removes the gap since there are no sensible predictions
* about where the next change will occur.
* <p>
*
* @param text the text
*/
public void setText (String text){
textStore = text.toCharArray();
gapStart = -1;
gapEnd = -1;
expandExp = 1;
indexLines();
StyledTextEvent event = new StyledTextEvent(this);
event.type = ST.TextSet;
event.text = "";
sendTextEvent(event);
}
/**
* Deletes text.
* <p>
* @param position the position at which the text to delete starts
* @param length the length of the text to delete
* @param numLines the number of lines that are being deleted
*/
void delete(int position, int length, int numLines) {
if (length == 0) return;
int startLine = getLineAtOffset(position);
int startLineOffset = getOffsetAtLine(startLine);
int endLine = getLineAtOffset(position + length);
String endText = "";
boolean splittingDelimiter = false;
if (position + length < getCharCount()) {
endText = getTextRange(position + length - 1, 2);
if ((endText.charAt(0) == SWT.CR) && (endText.charAt(1) == SWT.LF)) {
splittingDelimiter = true;
}
}
adjustGap(position + length, -length, startLine);
int [][] oldLines = indexLines(position, length + (gapEnd - gapStart), numLines);
// enlarge the gap - the gap can be enlarged either to the
// right or left
if (position + length == gapStart) {
gapStart -= length;
} else {
gapEnd += length;
}
// figure out the length of the new concatenated line, do so by
// finding the first line delimiter after position
int j = position;
boolean eol = false;
while (j < textStore.length && !eol) {
if (j < gapStart || j >= gapEnd) {
char ch = textStore[j];
if (isDelimiter(ch)) {
if (j + 1 < textStore.length) {
if (ch == SWT.CR && (textStore[j+1] == SWT.LF)) {
j++;
}
}
eol = true;
}
}
j++;
}
// update the line where the deletion started
lines[startLine][1] = (position - startLineOffset) + (j - position);
// figure out the number of lines that have been deleted
int numOldLines = oldLines.length - 1;
if (splittingDelimiter) numOldLines -= 1;
// shift up the lines after the last deleted line, no need to update
// the offset or length of the lines
for (int i = endLine + 1; i < lineCount; i++) {
lines[i - numOldLines] = lines[i];
}
lineCount -= numOldLines;
gapLine = getLineAtPhysicalOffset(gapStart);
}
}