TextMeasurerpublic final class TextMeasurer extends Object implements CloneableThe TextMeasurer class provides the primitive operations
needed for line break: measuring up to a given advance, determining the
advance of a range of characters, and generating a
TextLayout for a range of characters. It also provides
methods for incremental editing of paragraphs.
A TextMeasurer object is constructed with an
{@link java.text.AttributedCharacterIterator AttributedCharacterIterator}
representing a single paragraph of text. The value returned by the
{@link AttributedCharacterIterator#getBeginIndex() getBeginIndex}
method of AttributedCharacterIterator
defines the absolute index of the first character. The value
returned by the
{@link AttributedCharacterIterator#getEndIndex() getEndIndex}
method of AttributedCharacterIterator defines the index
past the last character. These values define the range of indexes to
use in calls to the TextMeasurer . For example, calls to
get the advance of a range of text or the line break of a range of text
must use indexes between the beginning and end index values. Calls to
{@link #insertChar(java.text.AttributedCharacterIterator, int) insertChar}
and
{@link #deleteChar(java.text.AttributedCharacterIterator, int) deleteChar}
reset the TextMeasurer to use the beginning index and end
index of the AttributedCharacterIterator passed in those calls.
Most clients will use the more convenient LineBreakMeasurer ,
which implements the standard line break policy (placing as many words
as will fit on each line). |
Fields Summary |
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private static float | EST_LINES | private FontRenderContext | fFrc | private int | fStart | private char[] | fChars | private Bidi | fBidi | private byte[] | fLevels | private TextLineComponent[] | fComponents | private int | fComponentStart | private int | fComponentLimit | private boolean | haveLayoutWindow | private BreakIterator | fLineBreak | private CharArrayIterator | charIter | int | layoutCount | int | layoutCharCount | private StyledParagraph | fParagraph | private boolean | fIsDirectionLTR | private byte | fBaseline | private float[] | fBaselineOffsets | private float | fJustifyRatio | private int | formattedChars | private static boolean | wantStats | private boolean | collectStats |
Constructors Summary |
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public TextMeasurer(AttributedCharacterIterator text, FontRenderContext frc)Constructs a TextMeasurer from the source text.
The source text should be a single entire paragraph.
fFrc = frc;
initAll(text);
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Methods Summary |
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private int | calcLineBreak(int pos, float maxAdvance)
// either of these statements removes the bug:
//generateComponents(0, fChars.length);
//generateComponents(pos, fChars.length);
int startPos = pos;
float width = maxAdvance;
int tlcIndex;
int tlcStart = fComponentStart;
for (tlcIndex = 0; tlcIndex < fComponents.length; tlcIndex++) {
int gaLimit = tlcStart + fComponents[tlcIndex].getNumCharacters();
if (gaLimit > startPos) {
break;
}
else {
tlcStart = gaLimit;
}
}
// tlcStart is now the start of the tlc at tlcIndex
for (; tlcIndex < fComponents.length; tlcIndex++) {
TextLineComponent tlc = fComponents[tlcIndex];
int numCharsInGa = tlc.getNumCharacters();
int lineBreak = tlc.getLineBreakIndex(startPos - tlcStart, width);
if (lineBreak == numCharsInGa && tlcIndex < fComponents.length) {
width -= tlc.getAdvanceBetween(startPos - tlcStart, lineBreak);
tlcStart += numCharsInGa;
startPos = tlcStart;
}
else {
return tlcStart + lineBreak;
}
}
if (fComponentLimit < fChars.length) {
// format more text and try again
//if (haveLayoutWindow) {
// outOfWindow++;
//}
generateComponents(pos, fChars.length);
return calcLineBreak(pos, maxAdvance);
}
return fChars.length;
| protected java.lang.Object | clone()
TextMeasurer other;
try {
other = (TextMeasurer) super.clone();
}
catch(CloneNotSupportedException e) {
throw new Error();
}
if (fComponents != null) {
other.fComponents = (TextLineComponent[]) fComponents.clone();
}
return other;
| public void | deleteChar(java.text.AttributedCharacterIterator newParagraph, int deletePos)Updates the TextMeasurer after a single character has
been deleted
from the paragraph currently represented by this
TextMeasurer . After this call, this
TextMeasurer is equivalent to a new TextMeasurer
created from the text; however, it will usually be more efficient
to update an existing TextMeasurer than to create a new one
from scratch.
fStart = newParagraph.getBeginIndex();
int end = newParagraph.getEndIndex();
if (end - fStart != fChars.length-1) {
initAll(newParagraph);
}
char[] newChars = new char[end-fStart];
int changedIndex = deletePos-fStart;
System.arraycopy(fChars, 0, newChars, 0, deletePos-fStart);
System.arraycopy(fChars, changedIndex+1, newChars, changedIndex, end-deletePos);
fChars = newChars;
if (fBidi != null) {
fBidi = new Bidi(newParagraph);
if (fBidi.isLeftToRight()) {
fBidi = null;
}
}
fParagraph = StyledParagraph.deleteChar(newParagraph,
fChars,
deletePos,
fParagraph);
invalidateComponents();
| private void | ensureComponents(int start, int limit)
if (start < fComponentStart || limit > fComponentLimit) {
generateComponents(start, limit);
}
| private void | generateComponents(int startingAt, int endingAt)Generate components for the paragraph. fChars, fBidi should have been
initialized already.
if (collectStats) {
formattedChars += (endingAt-startingAt);
}
int layoutFlags = 0; // no extra info yet, bidi determines run and line direction
TextLabelFactory factory = new TextLabelFactory(fFrc, fChars, fBidi, layoutFlags);
int[] charsLtoV = null;
if (fBidi != null) {
fLevels = BidiUtils.getLevels(fBidi);
int[] charsVtoL = BidiUtils.createVisualToLogicalMap(fLevels);
charsLtoV = BidiUtils.createInverseMap(charsVtoL);
fIsDirectionLTR = fBidi.baseIsLeftToRight();
}
else {
fLevels = null;
fIsDirectionLTR = true;
}
try {
fComponents = TextLine.getComponents(
fParagraph, fChars, startingAt, endingAt, charsLtoV, fLevels, factory);
}
catch(IllegalArgumentException e) {
System.out.println("startingAt="+startingAt+"; endingAt="+endingAt);
System.out.println("fComponentLimit="+fComponentLimit);
throw e;
}
fComponentStart = startingAt;
fComponentLimit = endingAt;
//debugFormatCount += (endingAt-startingAt);
| public float | getAdvanceBetween(int start, int limit)Returns the graphical width of a line beginning at start
and including characters up to limit .
start and limit are absolute indices,
not relative to the start of the paragraph.
int localStart = start - fStart;
int localLimit = limit - fStart;
ensureComponents(localStart, localLimit);
TextLine line = makeTextLineOnRange(localStart, localLimit);
return line.getMetrics().advance;
// could cache line in case getLayout is called with same start, limit
| char[] | getChars()NOTE: This method is only for LineBreakMeasurer's use. It is package-
private because it returns internal data.
return fChars;
| public java.awt.font.TextLayout | getLayout(int start, int limit)Returns a TextLayout on the given character range.
int localStart = start - fStart;
int localLimit = limit - fStart;
ensureComponents(localStart, localLimit);
TextLine textLine = makeTextLineOnRange(localStart, localLimit);
if (localLimit < fChars.length) {
layoutCharCount += limit-start;
layoutCount++;
}
return new TextLayout(textLine,
fBaseline,
fBaselineOffsets,
fJustifyRatio);
| public int | getLineBreakIndex(int start, float maxAdvance)Returns the index of the first character which will not fit on
on a line beginning at start and possible
measuring up to maxAdvance in graphical width.
int localStart = start - fStart;
if (!haveLayoutWindow ||
localStart < fComponentStart ||
localStart >= fComponentLimit) {
makeLayoutWindow(localStart);
}
return calcLineBreak(localStart, maxAdvance) + fStart;
| private void | initAll(java.text.AttributedCharacterIterator text)Initialize state, including fChars array, direction, and
fBidi.
fStart = text.getBeginIndex();
// extract chars
fChars = new char[text.getEndIndex() - fStart];
int n = 0;
for (char c = text.first(); c != text.DONE; c = text.next()) {
fChars[n++] = c;
}
text.first();
fBidi = new Bidi(text);
if (fBidi.isLeftToRight()) {
fBidi = null;
}
text.first();
Map paragraphAttrs = text.getAttributes();
NumericShaper shaper = AttributeValues.getNumericShaping(paragraphAttrs);
if (shaper != null) {
shaper.shape(fChars, 0, fChars.length);
}
fParagraph = new StyledParagraph(text, fChars);
// set paragraph attributes
{
// If there's an embedded graphic at the start of the
// paragraph, look for the first non-graphic character
// and use it and its font to initialize the paragraph.
// If not, use the first graphic to initialize.
fJustifyRatio = AttributeValues.getJustification(paragraphAttrs);
boolean haveFont = TextLine.advanceToFirstFont(text);
if (haveFont) {
Font defaultFont = TextLine.getFontAtCurrentPos(text);
int charsStart = text.getIndex() - text.getBeginIndex();
LineMetrics lm = defaultFont.getLineMetrics(fChars, charsStart, charsStart+1, fFrc);
fBaseline = (byte) lm.getBaselineIndex();
fBaselineOffsets = lm.getBaselineOffsets();
}
else {
// hmmm what to do here? Just try to supply reasonable
// values I guess.
GraphicAttribute graphic = (GraphicAttribute)
paragraphAttrs.get(TextAttribute.CHAR_REPLACEMENT);
fBaseline = TextLayout.getBaselineFromGraphic(graphic);
Font dummyFont = new Font(new Hashtable(5, (float)0.9));
LineMetrics lm = dummyFont.getLineMetrics(" ", 0, 1, fFrc);
fBaselineOffsets = lm.getBaselineOffsets();
}
fBaselineOffsets = TextLine.getNormalizedOffsets(fBaselineOffsets, fBaseline);
}
invalidateComponents();
| public void | insertChar(java.text.AttributedCharacterIterator newParagraph, int insertPos)Updates the TextMeasurer after a single character has
been inserted
into the paragraph currently represented by this
TextMeasurer . After this call, this
TextMeasurer is equivalent to a new
TextMeasurer created from the text; however, it will
usually be more efficient to update an existing
TextMeasurer than to create a new one from scratch.
if (collectStats) {
printStats();
}
if (wantStats) {
collectStats = true;
}
fStart = newParagraph.getBeginIndex();
int end = newParagraph.getEndIndex();
if (end - fStart != fChars.length+1) {
initAll(newParagraph);
}
char[] newChars = new char[end-fStart];
int newCharIndex = insertPos - fStart;
System.arraycopy(fChars, 0, newChars, 0, newCharIndex);
char newChar = newParagraph.setIndex(insertPos);
newChars[newCharIndex] = newChar;
System.arraycopy(fChars,
newCharIndex,
newChars,
newCharIndex+1,
end-insertPos-1);
fChars = newChars;
if (fBidi != null || Bidi.requiresBidi(newChars, newCharIndex, newCharIndex + 1) ||
newParagraph.getAttribute(TextAttribute.BIDI_EMBEDDING) != null) {
fBidi = new Bidi(newParagraph);
if (fBidi.isLeftToRight()) {
fBidi = null;
}
}
fParagraph = StyledParagraph.insertChar(newParagraph,
fChars,
insertPos,
fParagraph);
invalidateComponents();
| private void | invalidateComponents()
fComponentStart = fComponentLimit = fChars.length;
fComponents = null;
haveLayoutWindow = false;
| private sun.font.TextLineComponent[] | makeComponentsOnRange(int startPos, int limitPos)
// sigh I really hate to do this here since it's part of the
// bidi algorithm.
// cdWsStart is the start of the trailing counterdirectional
// whitespace
final int cdWsStart = trailingCdWhitespaceStart(startPos, limitPos);
int tlcIndex;
int tlcStart = fComponentStart;
for (tlcIndex = 0; tlcIndex < fComponents.length; tlcIndex++) {
int gaLimit = tlcStart + fComponents[tlcIndex].getNumCharacters();
if (gaLimit > startPos) {
break;
}
else {
tlcStart = gaLimit;
}
}
// tlcStart is now the start of the tlc at tlcIndex
int componentCount;
{
boolean split = false;
int compStart = tlcStart;
int lim=tlcIndex;
for (boolean cont=true; cont; lim++) {
int gaLimit = compStart + fComponents[lim].getNumCharacters();
if (cdWsStart > Math.max(compStart, startPos)
&& cdWsStart < Math.min(gaLimit, limitPos)) {
split = true;
}
if (gaLimit >= limitPos) {
cont=false;
}
else {
compStart = gaLimit;
}
}
componentCount = lim-tlcIndex;
if (split) {
componentCount++;
}
}
TextLineComponent[] components = new TextLineComponent[componentCount];
int newCompIndex = 0;
int linePos = startPos;
int breakPt = cdWsStart;
int subsetFlag;
if (breakPt == startPos) {
subsetFlag = fIsDirectionLTR? TextLineComponent.LEFT_TO_RIGHT :
TextLineComponent.RIGHT_TO_LEFT;
breakPt = limitPos;
}
else {
subsetFlag = TextLineComponent.UNCHANGED;
}
while (linePos < limitPos) {
int compLength = fComponents[tlcIndex].getNumCharacters();
int tlcLimit = tlcStart + compLength;
int start = Math.max(linePos, tlcStart);
int limit = Math.min(breakPt, tlcLimit);
components[newCompIndex++] = fComponents[tlcIndex].getSubset(
start-tlcStart,
limit-tlcStart,
subsetFlag);
linePos += (limit-start);
if (linePos == breakPt) {
breakPt = limitPos;
subsetFlag = fIsDirectionLTR? TextLineComponent.LEFT_TO_RIGHT :
TextLineComponent.RIGHT_TO_LEFT;
}
if (linePos == tlcLimit) {
tlcIndex++;
tlcStart = tlcLimit;
}
}
return components;
| private void | makeLayoutWindow(int localStart)
int compStart = localStart;
int compLimit = fChars.length;
// If we've already gone past the layout window, format to end of paragraph
if (layoutCount > 0 && !haveLayoutWindow) {
float avgLineLength = Math.max(layoutCharCount / layoutCount, 1);
compLimit = Math.min(localStart + (int)(avgLineLength*EST_LINES), fChars.length);
}
if (localStart > 0 || compLimit < fChars.length) {
if (charIter == null) {
charIter = new CharArrayIterator(fChars);
}
else {
charIter.reset(fChars);
}
if (fLineBreak == null) {
fLineBreak = BreakIterator.getLineInstance();
}
fLineBreak.setText(charIter);
if (localStart > 0) {
if (!fLineBreak.isBoundary(localStart)) {
compStart = fLineBreak.preceding(localStart);
}
}
if (compLimit < fChars.length) {
if (!fLineBreak.isBoundary(compLimit)) {
compLimit = fLineBreak.following(compLimit);
}
}
}
ensureComponents(compStart, compLimit);
haveLayoutWindow = true;
| private java.awt.font.TextLine | makeTextLineOnRange(int startPos, int limitPos)
int[] charsLtoV = null;
byte[] charLevels = null;
if (fBidi != null) {
Bidi lineBidi = fBidi.createLineBidi(startPos, limitPos);
charLevels = BidiUtils.getLevels(lineBidi);
int[] charsVtoL = BidiUtils.createVisualToLogicalMap(charLevels);
charsLtoV = BidiUtils.createInverseMap(charsVtoL);
}
TextLineComponent[] components = makeComponentsOnRange(startPos, limitPos);
return new TextLine(fFrc,
components,
fBaselineOffsets,
fChars,
startPos,
limitPos,
charsLtoV,
charLevels,
fIsDirectionLTR);
| private void | printStats()
System.out.println("formattedChars: " + formattedChars);
//formattedChars = 0;
collectStats = false;
| private int | trailingCdWhitespaceStart(int startPos, int limitPos)According to the Unicode Bidirectional Behavior specification
(Unicode Standard 2.0, section 3.11), whitespace at the ends
of lines which would naturally flow against the base direction
must be made to flow with the line direction, and moved to the
end of the line. This method returns the start of the sequence
of trailing whitespace characters to move to the end of a
line taken from the given range.
if (fLevels != null) {
// Back up over counterdirectional whitespace
final byte baseLevel = (byte) (fIsDirectionLTR? 0 : 1);
for (int cdWsStart = limitPos; --cdWsStart >= startPos;) {
if ((fLevels[cdWsStart] % 2) == baseLevel ||
Character.getDirectionality(fChars[cdWsStart]) != Character.DIRECTIONALITY_WHITESPACE) {
return ++cdWsStart;
}
}
}
return startPos;
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