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* particular file as subject to the "Classpath" exception as provided
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* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
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package javax.swing.text;
import java.text.BreakIterator;
import java.text.CharacterIterator;
import java.text.StringCharacterIterator;
import java.util.Arrays;
A simple whitespace-based BreakIterator implementation.
Author: Sergey Groznyh
/**
* A simple whitespace-based BreakIterator implementation.
*
* @author Sergey Groznyh
*/
class WhitespaceBasedBreakIterator extends BreakIterator {
private char[] text = new char[0];
private int[] breaks = new int[] { 0 } ;
private int pos = 0;
Calculate break positions eagerly parallel to reading text.
/**
* Calculate break positions eagerly parallel to reading text.
*/
public void setText(CharacterIterator ci) {
int begin = ci.getBeginIndex();
text = new char[ci.getEndIndex() - begin];
int[] breaks0 = new int[text.length + 1];
int brIx = 0;
breaks0[brIx++] = begin;
int charIx = 0;
boolean inWs = false;
for (char c = ci.first(); c != CharacterIterator.DONE; c = ci.next()) {
text[charIx] = c;
boolean ws = Character.isWhitespace(c);
if (inWs && !ws) {
breaks0[brIx++] = charIx + begin;
}
inWs = ws;
charIx++;
}
if (text.length > 0) {
breaks0[brIx++] = text.length + begin;
}
System.arraycopy(breaks0, 0, breaks = new int[brIx], 0, brIx);
}
public CharacterIterator getText() {
return new StringCharacterIterator(new String(text));
}
public int first() {
return breaks[pos = 0];
}
public int last() {
return breaks[pos = breaks.length - 1];
}
public int current() {
return breaks[pos];
}
public int next() {
return (pos == breaks.length - 1 ? DONE : breaks[++pos]);
}
public int previous() {
return (pos == 0 ? DONE : breaks[--pos]);
}
public int next(int n) {
return checkhit(pos + n);
}
public int following(int n) {
return adjacent(n, 1);
}
public int preceding(int n) {
return adjacent(n, -1);
}
private int checkhit(int hit) {
if ((hit < 0) || (hit >= breaks.length)) {
return DONE;
} else {
return breaks[pos = hit];
}
}
private int adjacent(int n, int bias) {
int hit = Arrays.binarySearch(breaks, n);
int offset = (hit < 0 ? (bias < 0 ? -1 : -2) : 0);
return checkhit(Math.abs(hit) + bias + offset);
}
}