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/*
Licensed to the Apache Software Foundation (ASF) under one or more
contributor license agreements. See the NOTICE file distributed with
this work for additional information regarding copyright ownership.
The ASF licenses this file to You under the Apache License, Version 2.0
(the "License"); you may not use this file except in compliance with
the License. You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
package org.apache.batik.bridge;
import java.awt.Graphics2D;
import java.awt.Paint;
import java.awt.RenderingHints;
import java.awt.Shape;
import java.awt.Stroke;
import java.awt.font.FontRenderContext;
import java.awt.font.TextAttribute;
import java.awt.geom.GeneralPath;
import java.awt.geom.Point2D;
import java.awt.geom.Rectangle2D;
import java.text.AttributedCharacterIterator;
import java.text.AttributedString;
import java.text.CharacterIterator;
import java.util.ArrayList;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Set;
import org.apache.batik.gvt.font.GVTFont;
import org.apache.batik.gvt.font.GVTFontFamily;
import org.apache.batik.gvt.font.GVTGlyphMetrics;
import org.apache.batik.gvt.font.GVTLineMetrics;
import org.apache.batik.gvt.text.AttributedCharacterSpanIterator;
import org.apache.batik.gvt.text.BidiAttributedCharacterIterator;
import org.apache.batik.gvt.text.GVTAttributedCharacterIterator;
import org.apache.batik.gvt.text.TextPaintInfo;
import org.apache.batik.gvt.text.TextPath;
/**
* More sophisticated implementation of TextPainter which
* renders the attributed character iterator of a TextNode
.
* StrokingTextPainter includes support for stroke, fill, opacity,
* text-decoration, and other attributes.
*
* @see org.apache.batik.bridge.TextPainter
* @see org.apache.batik.gvt.text.GVTAttributedCharacterIterator
*
* @author Bill Haneman
* @version $Id$
*/
public class StrokingTextPainter extends BasicTextPainter {
public static final
AttributedCharacterIterator.Attribute PAINT_INFO =
GVTAttributedCharacterIterator.TextAttribute.PAINT_INFO;
public static final
AttributedCharacterIterator.Attribute FLOW_REGIONS =
GVTAttributedCharacterIterator.TextAttribute.FLOW_REGIONS;
public static final
AttributedCharacterIterator.Attribute FLOW_PARAGRAPH =
GVTAttributedCharacterIterator.TextAttribute.FLOW_PARAGRAPH;
public static final
AttributedCharacterIterator.Attribute TEXT_COMPOUND_ID
= GVTAttributedCharacterIterator.TextAttribute.TEXT_COMPOUND_ID;
public static final
AttributedCharacterIterator.Attribute GVT_FONT
= GVTAttributedCharacterIterator.TextAttribute.GVT_FONT;
public static final
AttributedCharacterIterator.Attribute GVT_FONTS
= GVTAttributedCharacterIterator.TextAttribute.GVT_FONTS;
public static final
AttributedCharacterIterator.Attribute BIDI_LEVEL
= GVTAttributedCharacterIterator.TextAttribute.BIDI_LEVEL;
public static final
AttributedCharacterIterator.Attribute XPOS
= GVTAttributedCharacterIterator.TextAttribute.X;
public static final
AttributedCharacterIterator.Attribute YPOS
= GVTAttributedCharacterIterator.TextAttribute.Y;
public static final
AttributedCharacterIterator.Attribute TEXTPATH
= GVTAttributedCharacterIterator.TextAttribute.TEXTPATH;
public static final AttributedCharacterIterator.Attribute WRITING_MODE
= GVTAttributedCharacterIterator.TextAttribute.WRITING_MODE;
public static final Integer WRITING_MODE_TTB
= GVTAttributedCharacterIterator.TextAttribute.WRITING_MODE_TTB;
public static final Integer WRITING_MODE_RTL
= GVTAttributedCharacterIterator.TextAttribute.WRITING_MODE_RTL;
public static final
AttributedCharacterIterator.Attribute ANCHOR_TYPE
= GVTAttributedCharacterIterator.TextAttribute.ANCHOR_TYPE;
public static final Integer ADJUST_SPACING =
GVTAttributedCharacterIterator.TextAttribute.ADJUST_SPACING;
public static final Integer ADJUST_ALL =
GVTAttributedCharacterIterator.TextAttribute.ADJUST_ALL;
public static final GVTAttributedCharacterIterator.TextAttribute ALT_GLYPH_HANDLER =
GVTAttributedCharacterIterator.TextAttribute.ALT_GLYPH_HANDLER;
static Set extendedAtts = new HashSet();
static {
extendedAtts.add(FLOW_PARAGRAPH);
extendedAtts.add(TEXT_COMPOUND_ID);
extendedAtts.add(GVT_FONT);
// extendedAtts.add(BIDI_LEVEL);
}
/**
* A unique instance of this class.
*/
protected static TextPainter singleton = new StrokingTextPainter();
/**
* Returns a unique instance of this class.
*/
public static TextPainter getInstance() {
return singleton;
}
/**
* Paints the specified text node using the specified Graphics2D.
*
* @param node the text node to paint
* @param g2d the Graphics2D to use
*/
public void paint(TextNode node, Graphics2D g2d) {
AttributedCharacterIterator aci;
aci = node.getAttributedCharacterIterator();
if (aci == null)
return;
List textRuns = getTextRuns(node, aci);
// draw the underline and overline first, then the actual text
// and finally the strikethrough
paintDecorations(textRuns, g2d, TextSpanLayout.DECORATION_UNDERLINE);
paintDecorations(textRuns, g2d, TextSpanLayout.DECORATION_OVERLINE);
paintTextRuns(textRuns, g2d);
paintDecorations
(textRuns, g2d, TextSpanLayout.DECORATION_STRIKETHROUGH);
}
protected void printAttrs(AttributedCharacterIterator aci) {
aci.first();
int start = aci.getBeginIndex();
System.out.print("AttrRuns: ");
while (aci.current() != CharacterIterator.DONE) {
int end = aci.getRunLimit();
System.out.print(""+(end-start)+", ");
aci.setIndex(end);
start = end;
}
System.out.println("");
}
public List getTextRuns(TextNode node, AttributedCharacterIterator aci) {
List textRuns = node.getTextRuns();
if (textRuns != null) {
return textRuns;
}
AttributedCharacterIterator[] chunkACIs = getTextChunkACIs(aci);
textRuns = computeTextRuns(node, aci, chunkACIs);
// cache the textRuns so don't need to recalculate
node.setTextRuns(textRuns);
return node.getTextRuns();
}
public List computeTextRuns(TextNode node,
AttributedCharacterIterator aci,
AttributedCharacterIterator [] chunkACIs) {
int [][] chunkCharMaps = new int[chunkACIs.length][];
// reorder each chunk ACI for bidi text
int chunkStart = aci.getBeginIndex();
for (int i = 0; i < chunkACIs.length; i++) {
BidiAttributedCharacterIterator iter;
iter = new BidiAttributedCharacterIterator
(chunkACIs[i], fontRenderContext, chunkStart);
chunkACIs [i] = iter;
chunkCharMaps[i] = iter.getCharMap();
chunkStart += (chunkACIs[i].getEndIndex()-
chunkACIs[i].getBeginIndex());
}
return computeTextRuns(node, aci, chunkACIs, chunkCharMaps);
}
protected List computeTextRuns(TextNode node,
AttributedCharacterIterator aci,
AttributedCharacterIterator [] chunkACIs,
int [][] chunkCharMaps) {
// add font matching attributes
int chunkStart = aci.getBeginIndex();
for (int i = 0; i < chunkACIs.length; i++) {
chunkACIs [i] = createModifiedACIForFontMatching(chunkACIs[i]);
chunkStart += (chunkACIs[i].getEndIndex() - chunkACIs[i].getBeginIndex());
}
// Create text runs for each chunk and add them to the list.
List perNodeRuns = new ArrayList();
TextChunk chunk, prevChunk=null;
int currentChunk = 0;
Point2D location = node.getLocation();
do {
// Text Chunks contain one or more TextRuns, which they
// create from the ACI.
chunkACIs[currentChunk].first();
List perChunkRuns = new ArrayList();
chunk = getTextChunk(node,
chunkACIs[currentChunk],
chunkCharMaps != null ? chunkCharMaps[currentChunk] : null,
perChunkRuns,
prevChunk);
// Perform bidi reordering on chunk's runs. Must be performed before
// adjusting chunk offsets.
perChunkRuns = reorderTextRuns(chunk, perChunkRuns);
// Adjust according to text-anchor property value.
chunkACIs[currentChunk].first();
if (chunk != null) {
location = adjustChunkOffsets(location, perChunkRuns, chunk);
}
// Append per chunk runs to overall node runs.
perNodeRuns.addAll(perChunkRuns);
prevChunk = chunk;
currentChunk++;
} while (chunk != null && currentChunk < chunkACIs.length);
return perNodeRuns;
}
/**
* Reorder text runs as required by bidi algorithm.
* @param runs - unordered runs
* @return reordered runs
*/
protected List reorderTextRuns(TextChunk chunk, List runs) {
// NOP here since they were previous reordered (by batik's
// BidiAttributedCharacterIterator); derived painters (e.g., FOP) may
// use a different strategy.
// N.B. batik doesn't sub-divide a text chunk at bidi level
// boundaries; however, derived painters may do so.
return runs;
}
/**
* Returns an array of ACIs, one for each text chunk within the given
* text node.
*/
protected AttributedCharacterIterator[] getTextChunkACIs
(AttributedCharacterIterator aci) {
List aciList = new ArrayList();
int chunkStartIndex = aci.getBeginIndex();
aci.first();
Object writingMode = aci.getAttribute(WRITING_MODE);
boolean vertical = (writingMode == WRITING_MODE_TTB);
while (aci.setIndex(chunkStartIndex) != CharacterIterator.DONE) {
TextPath prevTextPath = null;
for (int start=chunkStartIndex, end=0;
aci.setIndex(start) != CharacterIterator.DONE; start=end) {
TextPath textPath = (TextPath) aci.getAttribute(TEXTPATH);
if (start != chunkStartIndex) {
// If we aren't the first composite in a chunk see
// if we need to form a new TextChunk...
// We only create new chunks when given an absolute
// location in progression direction [Spec says
// to do it for either but this doesn't make sense].
if (vertical) {
Float runY = (Float) aci.getAttribute(YPOS);
// Check for absolute location in layout direction.
if ((runY != null) && !runY.isNaN())
break; // If so end of chunk...
} else {
Float runX = (Float) aci.getAttribute(XPOS);
// Check for absolute location in layout direction.
if ((runX != null) && !runX.isNaN())
break; // If so end of chunk...
}
// Do additional check for the start of a textPath
if ((prevTextPath == null) && (textPath != null))
break; // If so end of chunk.
// Form a new chunk at the end of a text path.
// [ This is not mentioned in the spec but makes
// sense].
if ((prevTextPath != null) && (textPath == null))
break;
}
prevTextPath = textPath;
// We need to text chunk based on flow paragraphs.
// This prevents BIDI reordering across paragraphs.
if (aci.getAttribute(FLOW_PARAGRAPH) != null) {
end = aci.getRunLimit(FLOW_PARAGRAPH);
aci.setIndex(end);
break;
}
// find end of compound.
end = aci.getRunLimit(TEXT_COMPOUND_ID);
if (start != chunkStartIndex)
// If we aren't starting a new chunk then we know
// we don't have any absolute positioning so there
// is no reason to consider spliting the chunk further.
continue;
// We are starting a new chunk
// So check if we need to split it further...
TextNode.Anchor anchor;
anchor = (TextNode.Anchor) aci.getAttribute(ANCHOR_TYPE);
if (anchor == TextNode.Anchor.START)
continue;
// We need to check if we have a list of X's & Y's if
// so we need to create TextChunk ACI's for each char
// (technically we have to do this for
// text-anchor:start as well but since that is the
// default layout it doesn't matter in that case.
if (vertical) {
Float runY = (Float) aci.getAttribute(YPOS);
// Check for absolute location in layout direction.
if ((runY == null) || runY.isNaN())
// No absolute positioning in text direction continue
continue;
} else {
Float runX = (Float) aci.getAttribute(XPOS);
// Check for absolute location in layout direction.
if ((runX == null) || runX.isNaN())
// No absolute positioning in text direction continue
continue;
}
// Splitting the compound into one char chunks until
// we run out of Xs.
for (int i=start+1; i< end; i++) {
aci.setIndex(i);
if (vertical) {
Float runY = (Float) aci.getAttribute(YPOS);
if ((runY == null) || runY.isNaN())
break;
} else {
Float runX = (Float) aci.getAttribute(XPOS);
if ((runX == null) || runX.isNaN())
break;
}
aciList.add(new AttributedCharacterSpanIterator
(aci, i-1, i));
chunkStartIndex = i;
}
}
// found the end of a text chunk
int chunkEndIndex = aci.getIndex();
aciList.add(new AttributedCharacterSpanIterator
(aci, chunkStartIndex, chunkEndIndex));
chunkStartIndex = chunkEndIndex;
}
// copy the text chunks into an array
AttributedCharacterIterator[] aciArray =
new AttributedCharacterIterator[aciList.size()];
Iterator iter = aciList.iterator();
for (int i=0; iter.hasNext(); ++i) {
aciArray[i] = (AttributedCharacterIterator)iter.next();
}
return aciArray;
}
/**
* Returns a new AttributedCharacterIterator that contains resolved GVTFont
* attributes. This is then used when creating the text runs so that the
* text can be split on changes of font as well as tspans and trefs.
*
* @param aci The aci to be modified should already be split into
* text chunks.
*
* @return The new modified aci.
*/
protected AttributedCharacterIterator createModifiedACIForFontMatching
(AttributedCharacterIterator aci) {
aci.first();
AttributedString as = null;
int asOff = 0;
int begin = aci.getBeginIndex();
boolean moreChunks = true;
int start, end = aci.getRunStart(TEXT_COMPOUND_ID);
while (moreChunks) {
start = end;
end = aci.getRunLimit(TEXT_COMPOUND_ID);
int aciLength = end-start;
List fonts;
fonts = (List)aci.getAttribute(GVT_FONTS);
float fontSize = 12;
Float fsFloat = (Float)aci.getAttribute(TextAttribute.SIZE);
if (fsFloat != null)
fontSize = fsFloat;
// if could not resolve at least one of the fontFamilies
// then use the default font
if (fonts.size() == 0) {
// create a list of fonts of the correct size
fonts.add(getFontFamilyResolver().getDefault().deriveFont(fontSize, aci));
}
// now for each char or group of chars in the string,
// find a font that can display it.
boolean[] fontAssigned = new boolean[aciLength];
if (as == null)
as = new AttributedString(aci);
GVTFont defaultFont = null;
int numSet=0;
int firstUnset=start;
boolean firstUnsetSet;
for (Object font1 : fonts) {
// assign this font to all characters it can display if it has
// not already been assigned
int currentIndex = firstUnset;
firstUnsetSet = false;
aci.setIndex(currentIndex);
GVTFont font = (GVTFont) font1;
if (defaultFont == null)
defaultFont = font;
while (currentIndex < end) {
int displayUpToIndex = font.canDisplayUpTo
(aci, currentIndex, end);
Object altGlyphElement;
altGlyphElement = aci.getAttribute(ALT_GLYPH_HANDLER);
if (altGlyphElement != null) {
//found all the glyph to be displayed
//consider the font matching done
displayUpToIndex = -1;
}
if (displayUpToIndex == -1) {
// Can handle the whole thing...
displayUpToIndex = end;
}
if (displayUpToIndex <= currentIndex) {
if (!firstUnsetSet) {
firstUnset = currentIndex;
firstUnsetSet = true;
}
// couldn't display the current char
currentIndex++;
} else {
// could display some text, so for each
// char it can display, if char not already
// assigned a font, assign this font to it
int runStart = -1;
for (int j = currentIndex; j < displayUpToIndex; j++) {
if (fontAssigned[j - start]) {
if (runStart != -1) {
as.addAttribute(GVT_FONT, font,
runStart - begin, j - begin);
runStart = -1;
}
} else {
if (runStart == -1)
runStart = j;
}
fontAssigned[j - start] = true;
numSet++;
}
if (runStart != -1) {
as.addAttribute(GVT_FONT, font,
runStart - begin,
displayUpToIndex - begin);
}
// set currentIndex to be one after the char
// that couldn't display
currentIndex = displayUpToIndex + 1;
}
}
if (numSet == aciLength) // all chars have font set;
break;
}
// assign the first font to any chars haven't alreay been assigned
int runStart = -1;
GVTFontFamily prevFF = null;
GVTFont prevF = defaultFont;
for (int i = 0; i < aciLength; i++) {
if (fontAssigned[i]) {
if (runStart != -1) {
as.addAttribute(GVT_FONT, prevF,
runStart+asOff, i+asOff);
runStart = -1;
prevF = null;
prevFF = null;
}
} else {
char c = aci.setIndex(start+i);
GVTFontFamily fontFamily;
fontFamily = getFontFamilyResolver().getFamilyThatCanDisplay(c);
// fontFamily = (GVTFontFamily)resolvedFontFamilies.get(0);
if (runStart == -1) {
// Starting a new run...
runStart = i;
prevFF = fontFamily;
if (prevFF == null)
prevF = defaultFont;
else
prevF = fontFamily.deriveFont(fontSize, aci);
} else if (prevFF != fontFamily) {
// Font family changed...
as.addAttribute(GVT_FONT, prevF,
runStart+asOff, i+asOff);
runStart = i;
prevFF = fontFamily;
if (prevFF == null)
prevF = defaultFont;
else
prevF = fontFamily.deriveFont(fontSize, aci);
}
}
}
if (runStart != -1) {
as.addAttribute(GVT_FONT, prevF,
runStart+asOff, aciLength+asOff);
}
asOff += aciLength;
if (aci.setIndex(end) == AttributedCharacterIterator.DONE) {
moreChunks = false;
}
start = end;
}
if (as != null)
return as.getIterator();
// Didn't do anything return original ACI
return aci;
}
protected FontFamilyResolver getFontFamilyResolver() {
return DefaultFontFamilyResolver.SINGLETON;
}
protected Set getTextRunBoundaryAttributes() {
return extendedAtts;
}
protected TextChunk getTextChunk(TextNode node,
AttributedCharacterIterator aci,
int [] charMap,
List textRuns,
TextChunk prevChunk) {
int beginChunk = 0;
if (prevChunk != null)
beginChunk = prevChunk.end;
int endChunk = beginChunk;
int begin = aci.getIndex();
if (aci.current() == CharacterIterator.DONE)
return null;
// we now lay all aci's out at 0,0 then move them
// when we adjust the chunk offsets.
Point2D.Float offset = new Point2D.Float(0,0);
Point2D.Float advance = new Point2D.Float(0,0);
boolean isChunkStart = true;
TextSpanLayout layout = null;
Set textRunBoundaryAttributes = getTextRunBoundaryAttributes();
do {
int start = aci.getRunStart(textRunBoundaryAttributes);
int end = aci.getRunLimit(textRunBoundaryAttributes);
AttributedCharacterIterator runaci;
runaci = new AttributedCharacterSpanIterator(aci, start, end);
int [] subCharMap = new int[end-start];
if (charMap != null) {
System.arraycopy( charMap, start - begin, subCharMap, 0, subCharMap.length );
} else {
for (int i = 0, n = subCharMap.length; i < n; ++i) {
subCharMap[i] = i;
}
}
FontRenderContext frc = fontRenderContext;
RenderingHints rh = node.getRenderingHints();
// Check for optimizeSpeed, optimizeLegibility
// in these cases setup hintedFRC
if ((rh != null) &&
(rh.get(RenderingHints.KEY_TEXT_ANTIALIASING) ==
RenderingHints.VALUE_TEXT_ANTIALIAS_OFF)) {
// In both these cases we want the non-antialiased
// font render context.
frc = aaOffFontRenderContext;
}
layout = getTextLayoutFactory().createTextLayout
(runaci, subCharMap, offset, frc);
textRuns.add(new TextRun(layout, runaci, isChunkStart));
Point2D layoutAdvance = layout.getAdvance2D();
advance.x += (float)layoutAdvance.getX();
advance.y += (float)layoutAdvance.getY();
++endChunk;
if (aci.setIndex(end) == CharacterIterator.DONE) break;
isChunkStart = false;
} while (true);
return new TextChunk(beginChunk, endChunk, advance);
}
/**
* Adjusts the position of the text runs within the specified text chunk
* to account for any text anchor properties.
*/
protected Point2D adjustChunkOffsets(Point2D location,
List textRuns,
TextChunk chunk) {
int numRuns = chunk.end - chunk.begin;
TextRun r = (TextRun) textRuns.get(0);
int anchorType = r.getAnchorType();
Float length = r.getLength();
Integer lengthAdj = r.getLengthAdjust();
boolean doAdjust = true;
if ((length == null) || length.isNaN())
doAdjust = false;
int numChars = 0;
for (int i = 0; i < numRuns; ++i) {
r = (TextRun) textRuns.get(i);
AttributedCharacterIterator aci = r.getACI();
numChars += aci.getEndIndex() - aci.getBeginIndex();
}
if ((lengthAdj ==
GVTAttributedCharacterIterator.TextAttribute.ADJUST_SPACING) &&
(numChars == 1))
doAdjust = false;
float xScale = 1;
float yScale = 1;
r = (TextRun)textRuns.get(numRuns - 1);
TextSpanLayout layout = r.getLayout();
GVTGlyphMetrics lastMetrics =
layout.getGlyphMetrics(layout.getGlyphCount()-1);
GVTLineMetrics lastLineMetrics = layout.getLineMetrics();
Rectangle2D lastBounds = lastMetrics.getBounds2D();
float halfLeading = (lastMetrics.getVerticalAdvance()-
(lastLineMetrics.getAscent() +
lastLineMetrics.getDescent()))/2;
float lastW = (float)(lastBounds.getWidth() + lastBounds.getX());
float lastH = (float)(halfLeading + lastLineMetrics.getAscent() +
(lastBounds.getHeight() + lastBounds.getY()));
Point2D visualAdvance;
if (!doAdjust) {
visualAdvance = new Point2D.Float(
(float) (chunk.advance.getX()),
(float) (chunk.advance.getY() + lastH - lastMetrics.getVerticalAdvance()));
} else {
Point2D advance = chunk.advance;
// We have to do this here since textLength needs to be
// handled at the text chunk level. Otherwise tspans get
// messed up.
if (layout.isVertical()) {
if (lengthAdj == ADJUST_SPACING) {
yScale = (float)
((length - lastH) /
(advance.getY() - lastMetrics.getVerticalAdvance()));
} else {
double adv =(advance.getY() + lastH -
lastMetrics.getVerticalAdvance());
yScale = (float)(length /adv);
}
visualAdvance = new Point2D.Float(0, length);
} else {
if (lengthAdj == ADJUST_SPACING) {
xScale = (float)
((length - lastW) /
(advance.getX() - lastMetrics.getHorizontalAdvance()));
} else {
double adv = (advance.getX() + lastW -
lastMetrics.getHorizontalAdvance());
xScale = (float)(length /adv);
}
visualAdvance = new Point2D.Float(length, 0);
}
Point2D.Float adv = new Point2D.Float(0,0);
for (int i = 0; i < numRuns; ++i) {
r = (TextRun) textRuns.get(i);
layout = r.getLayout();
layout.setScale(xScale, yScale, lengthAdj==ADJUST_SPACING);
Point2D lAdv = layout.getAdvance2D();
adv.x += (float)lAdv.getX();
adv.y += (float)lAdv.getY();
}
chunk.advance = adv;
}
float dx = 0f;
float dy = 0f;
switch(anchorType){
case TextNode.Anchor.ANCHOR_MIDDLE:
dx = (float) (-visualAdvance.getX()/2d);
dy = (float) (-visualAdvance.getY()/2d);
break;
case TextNode.Anchor.ANCHOR_END:
dx = (float) (-visualAdvance.getX());
dy = (float) (-visualAdvance.getY());
break;
default:
break; // leave untouched
}
r = (TextRun) textRuns.get(0);
layout = r.getLayout();
AttributedCharacterIterator runaci = r.getACI();
runaci.first();
boolean vertical = layout.isVertical();
Float runX = (Float) runaci.getAttribute(XPOS);
Float runY = (Float) runaci.getAttribute(YPOS);
TextPath textPath = (TextPath) runaci.getAttribute(TEXTPATH);
// The point that the next peice of normal text should be
// layed out from, only used for normal text not text on a path.
float absX = (float)location.getX();
float absY = (float)location.getY();
// TextPath Shift used to account for startOffset.
float tpShiftX = 0;
float tpShiftY = 0;
// Of course X and Y override that, but they don't apply for
// text on a path.
if ((runX != null) && (!runX.isNaN())) {
absX = runX;
tpShiftX = absX;
}
if ((runY != null) && (!runY.isNaN())) {
absY = runY;
tpShiftY = absY;
}
// Factor in text-anchor in writing direction.
// Ignore tpShift in non-writing direction.
if (vertical) {
absY += dy;
tpShiftY += dy;
tpShiftX = 0;
} else {
absX += dx;
tpShiftX += dx;
tpShiftY = 0;
}
for (int i = 0; i < numRuns; ++i) {
r = (TextRun) textRuns.get(i);
layout = r.getLayout();
runaci = r.getACI();
runaci.first();
textPath = (TextPath) runaci.getAttribute(TEXTPATH);
if (vertical) {
runX = (Float) runaci.getAttribute(XPOS);
if ((runX != null) && (!runX.isNaN())) {
absX = runX;
}
} else {
runY = (Float) runaci.getAttribute(YPOS);
if ((runY != null) && (!runY.isNaN())) {
absY = runY;
}
}
if (textPath == null) {
layout.setOffset(new Point2D.Float(absX, absY));
Point2D ladv = layout.getAdvance2D();
absX += ladv.getX();
absY += ladv.getY();
} else {
layout.setOffset(new Point2D.Float(tpShiftX, tpShiftY));
Point2D ladv = layout.getAdvance2D();
tpShiftX += (float)ladv.getX();
tpShiftY += (float)ladv.getY();
ladv = layout.getTextPathAdvance();
absX = (float)ladv.getX();
absY = (float)ladv.getY();
}
}
return new Point2D.Float(absX, absY);
}
/**
* Paints decorations of the specified type.
*/
protected void paintDecorations(List textRuns,
Graphics2D g2d,
int decorationType) {
Paint prevPaint = null;
Paint prevStrokePaint = null;
Stroke prevStroke = null;
boolean prevVisible = true;
Rectangle2D decorationRect = null;
double yLoc = 0, height = 0;
for (Object textRun1 : textRuns) {
TextRun textRun = (TextRun) textRun1;
AttributedCharacterIterator runaci = textRun.getACI();
runaci.first();
Paint paint = null;
Stroke stroke = null;
Paint strokePaint = null;
boolean visible = true;
TextPaintInfo tpi = (TextPaintInfo) runaci.getAttribute(PAINT_INFO);
if (tpi != null) {
visible = tpi.visible;
if (tpi.composite != null) {
g2d.setComposite(tpi.composite);
}
switch (decorationType) {
case TextSpanLayout.DECORATION_UNDERLINE:
paint = tpi.underlinePaint;
stroke = tpi.underlineStroke;
strokePaint = tpi.underlineStrokePaint;
break;
case TextSpanLayout.DECORATION_OVERLINE:
paint = tpi.overlinePaint;
stroke = tpi.overlineStroke;
strokePaint = tpi.overlineStrokePaint;
break;
case TextSpanLayout.DECORATION_STRIKETHROUGH:
paint = tpi.strikethroughPaint;
stroke = tpi.strikethroughStroke;
strokePaint = tpi.strikethroughStrokePaint;
break;
default: // should never get here
return;
}
}
if (textRun.isFirstRunInChunk()) {
Shape s = textRun.getLayout().getDecorationOutline
(decorationType);
Rectangle2D r2d = s.getBounds2D();
yLoc = r2d.getY();
height = r2d.getHeight();
}
if (textRun.isFirstRunInChunk() ||
(paint != prevPaint) ||
(stroke != prevStroke) ||
(strokePaint != prevStrokePaint) ||
(visible != prevVisible)) {
// if there is a current visible decoration, draw it now
if (prevVisible && (decorationRect != null)) {
if (prevPaint != null) {
// fill the decoration
g2d.setPaint(prevPaint);
g2d.fill(decorationRect);
}
if (prevStroke != null && prevStrokePaint != null) {
// stroke the decoration
g2d.setPaint(prevStrokePaint);
g2d.setStroke(prevStroke);
g2d.draw(decorationRect);
}
}
decorationRect = null;
}
if ((paint != null || strokePaint != null)
&& !textRun.getLayout().isVertical()
&& !textRun.getLayout().isOnATextPath()) {
// this text run should be decorated with the
// specified decoration type
// NOTE: decorations are only supported for plain
// horizontal layouts
Shape decorationShape =
textRun.getLayout().getDecorationOutline(decorationType);
if (decorationRect == null) {
// create a new one
Rectangle2D r2d = decorationShape.getBounds2D();
decorationRect = new Rectangle2D.Double
(r2d.getX(), yLoc, r2d.getWidth(), height);
} else {
// extend the current one
Rectangle2D bounds = decorationShape.getBounds2D();
double minX = Math.min(decorationRect.getX(),
bounds.getX());
double maxX = Math.max(decorationRect.getMaxX(),
bounds.getMaxX());
decorationRect.setRect(minX, yLoc, maxX - minX, height);
}
}
prevPaint = paint;
prevStroke = stroke;
prevStrokePaint = strokePaint;
prevVisible = visible;
}
// if there is a decoration rect that hasn't been drawn yet and
// the text paint info says the test is visible, draw it now.
if (prevVisible && (decorationRect != null)) {
if (prevPaint != null) {
// fill the decoration
g2d.setPaint(prevPaint);
g2d.fill(decorationRect);
}
if (prevStroke != null && prevStrokePaint != null) {
// stroke the decoration
g2d.setPaint(prevStrokePaint);
g2d.setStroke(prevStroke);
g2d.draw(decorationRect);
}
}
}
/**
* Paints the text in each text run. Decorations are not painted here.
*/
protected void paintTextRuns(List textRuns,
Graphics2D g2d) {
for (Object textRun1 : textRuns) {
TextRun textRun = (TextRun) textRun1;
AttributedCharacterIterator runaci = textRun.getACI();
runaci.first();
TextPaintInfo tpi = (TextPaintInfo) runaci.getAttribute(PAINT_INFO);
if ((tpi != null) && (tpi.composite != null)) {
g2d.setComposite(tpi.composite);
}
textRun.getLayout().draw(g2d);
}
}
/**
* Get a Shape in userspace coords which defines the textnode glyph outlines.
* @param node the TextNode to measure
*/
public Shape getOutline(TextNode node) {
GeneralPath outline = null;
AttributedCharacterIterator aci;
aci = node.getAttributedCharacterIterator();
if (aci == null)
return null;
// get the list of text runs
List textRuns = getTextRuns(node, aci);
// for each text run, get its outline and append it to the overall
// outline
for (Object textRun1 : textRuns) {
TextRun textRun = (TextRun) textRun1;
TextSpanLayout textRunLayout = textRun.getLayout();
GeneralPath textRunOutline =
new GeneralPath(textRunLayout.getOutline());
if (outline == null) {
outline = textRunOutline;
} else {
outline.setWindingRule(GeneralPath.WIND_NON_ZERO);
outline.append(textRunOutline, false);
}
}
// append any decoration outlines
Shape underline = getDecorationOutline
(textRuns, TextSpanLayout.DECORATION_UNDERLINE);
Shape strikeThrough = getDecorationOutline
(textRuns, TextSpanLayout.DECORATION_STRIKETHROUGH);
Shape overline = getDecorationOutline
(textRuns, TextSpanLayout.DECORATION_OVERLINE);
if (underline != null) {
if (outline == null) {
outline = new GeneralPath(underline);
} else {
outline.setWindingRule(GeneralPath.WIND_NON_ZERO);
outline.append(underline, false);
}
}
if (strikeThrough != null) {
if (outline == null) {
outline = new GeneralPath(strikeThrough);
} else {
outline.setWindingRule(GeneralPath.WIND_NON_ZERO);
outline.append(strikeThrough, false);
}
}
if (overline != null) {
if (outline == null) {
outline = new GeneralPath(overline);
} else {
outline.setWindingRule(GeneralPath.WIND_NON_ZERO);
outline.append(overline, false);
}
}
return outline;
}
/**
* Get a Rectangle2D in userspace coords which encloses the textnode
* glyphs including stroke etc.
*/
public Rectangle2D getBounds2D(TextNode node) {
AttributedCharacterIterator aci;
aci = node.getAttributedCharacterIterator();
if (aci == null)
return null;
// get the list of text runs
List textRuns = getTextRuns(node, aci);
Rectangle2D bounds = null;
// for each text run, get its stroke outline and append it to
// the overall outline
for (Object textRun1 : textRuns) {
TextRun textRun = (TextRun) textRun1;
TextSpanLayout textRunLayout = textRun.getLayout();
Rectangle2D runBounds = textRunLayout.getBounds2D();
if (runBounds != null) {
if (bounds == null)
bounds = runBounds;
else
bounds.add(runBounds);
}
}
// append any stroked decoration outlines
Shape underline = getDecorationStrokeOutline
(textRuns, TextSpanLayout.DECORATION_UNDERLINE);
if (underline != null) {
if (bounds == null)
bounds = underline.getBounds2D();
else
bounds.add( underline.getBounds2D() );
}
Shape strikeThrough = getDecorationStrokeOutline
(textRuns, TextSpanLayout.DECORATION_STRIKETHROUGH);
if (strikeThrough != null) {
if (bounds == null)
bounds = strikeThrough.getBounds2D();
else
bounds.add( strikeThrough.getBounds2D() );
}
Shape overline = getDecorationStrokeOutline
(textRuns, TextSpanLayout.DECORATION_OVERLINE);
if (overline != null) {
if (bounds == null)
bounds = overline.getBounds2D();
else
bounds.add( overline.getBounds2D() );
}
return bounds;
}
/**
* Returns the outline of the specified decoration type.
*
* @param textRuns The list of text runs to get the decoration outline for.
* @param decorationType Indicates the type of decoration required.
* eg. underline, overline or strikethrough.
*
* @return The decoration outline or null if the text is not decorated.
*/
protected Shape getDecorationOutline(List textRuns, int decorationType) {
GeneralPath outline = null;
Paint prevPaint = null;
Paint prevStrokePaint = null;
Stroke prevStroke = null;
Rectangle2D decorationRect = null;
double yLoc = 0, height = 0;
for (Object textRun1 : textRuns) {
TextRun textRun = (TextRun) textRun1;
AttributedCharacterIterator runaci = textRun.getACI();
runaci.first();
Paint paint = null;
Stroke stroke = null;
Paint strokePaint = null;
TextPaintInfo tpi = (TextPaintInfo) runaci.getAttribute(PAINT_INFO);
if (tpi != null) {
switch (decorationType) {
case TextSpanLayout.DECORATION_UNDERLINE:
paint = tpi.underlinePaint;
stroke = tpi.underlineStroke;
strokePaint = tpi.underlineStrokePaint;
break;
case TextSpanLayout.DECORATION_OVERLINE:
paint = tpi.overlinePaint;
stroke = tpi.overlineStroke;
strokePaint = tpi.overlineStrokePaint;
break;
case TextSpanLayout.DECORATION_STRIKETHROUGH:
paint = tpi.strikethroughPaint;
stroke = tpi.strikethroughStroke;
strokePaint = tpi.strikethroughStrokePaint;
break;
default:
// should never get here
return null;
}
}
if (textRun.isFirstRunInChunk()) {
Shape s = textRun.getLayout().getDecorationOutline
(decorationType);
Rectangle2D r2d = s.getBounds2D();
yLoc = r2d.getY();
height = r2d.getHeight();
}
if (textRun.isFirstRunInChunk() ||
paint != prevPaint ||
stroke != prevStroke ||
strokePaint != prevStrokePaint) {
// if there is a current decoration, added it to the overall
// outline
if (decorationRect != null) {
if (outline == null) {
outline = new GeneralPath(decorationRect);
} else {
outline.append(decorationRect, false);
}
decorationRect = null;
}
}
if ((paint != null || strokePaint != null)
&& !textRun.getLayout().isVertical()
&& !textRun.getLayout().isOnATextPath()) {
// this text run should be decorated with the specified
// decoration type note: decorations are only supported for
// plain horizontal layouts
Shape decorationShape =
textRun.getLayout().getDecorationOutline(decorationType);
if (decorationRect == null) {
// create a new one
Rectangle2D r2d = decorationShape.getBounds2D();
decorationRect = new Rectangle2D.Double
(r2d.getX(), yLoc, r2d.getWidth(), height);
} else {
// extend the current one
Rectangle2D bounds = decorationShape.getBounds2D();
double minX = Math.min(decorationRect.getX(),
bounds.getX());
double maxX = Math.max(decorationRect.getMaxX(),
bounds.getMaxX());
decorationRect.setRect(minX, yLoc, maxX - minX, height);
}
}
prevPaint = paint;
prevStroke = stroke;
prevStrokePaint = strokePaint;
}
// if there is a decoration rect that hasn't been added to the overall outline
if (decorationRect != null) {
if (outline == null) {
outline = new GeneralPath(decorationRect);
} else {
outline.append(decorationRect, false);
}
}
return outline;
}
/**
* Returns the stroked outline of the specified decoration type.
* If the decoration has no stroke it will return the fill outline
*
* @param textRuns The list of text runs to get the decoration outline for.
* @param decorationType Indicates the type of decoration required.
* eg. underline, overline or strikethrough.
*
* @return The decoration outline or null if the text is not decorated.
*/
protected Shape getDecorationStrokeOutline
(List textRuns, int decorationType) {
GeneralPath outline = null;
Paint prevPaint = null;
Paint prevStrokePaint = null;
Stroke prevStroke = null;
Rectangle2D decorationRect = null;
double yLoc = 0, height = 0;
for (Object textRun1 : textRuns) {
TextRun textRun = (TextRun) textRun1;
AttributedCharacterIterator runaci = textRun.getACI();
runaci.first();
Paint paint = null;
Stroke stroke = null;
Paint strokePaint = null;
TextPaintInfo tpi = (TextPaintInfo) runaci.getAttribute(PAINT_INFO);
if (tpi != null) {
switch (decorationType) {
case TextSpanLayout.DECORATION_UNDERLINE:
paint = tpi.underlinePaint;
stroke = tpi.underlineStroke;
strokePaint = tpi.underlineStrokePaint;
break;
case TextSpanLayout.DECORATION_OVERLINE:
paint = tpi.overlinePaint;
stroke = tpi.overlineStroke;
strokePaint = tpi.overlineStrokePaint;
break;
case TextSpanLayout.DECORATION_STRIKETHROUGH:
paint = tpi.strikethroughPaint;
stroke = tpi.strikethroughStroke;
strokePaint = tpi.strikethroughStrokePaint;
break;
default: // should never get here
return null;
}
}
if (textRun.isFirstRunInChunk()) {
Shape s = textRun.getLayout().getDecorationOutline
(decorationType);
Rectangle2D r2d = s.getBounds2D();
yLoc = r2d.getY();
height = r2d.getHeight();
}
if (textRun.isFirstRunInChunk() ||
paint != prevPaint ||
stroke != prevStroke ||
strokePaint != prevStrokePaint) {
// if there is a current decoration, added it to the overall
// outline
if (decorationRect != null) {
Shape s = null;
if (prevStroke != null &&
prevStrokePaint != null)
s = prevStroke.createStrokedShape(decorationRect);
else if (prevPaint != null)
s = decorationRect;
if (s != null) {
if (outline == null)
outline = new GeneralPath(s);
else
outline.append(s, false);
}
decorationRect = null;
}
}
if ((paint != null || strokePaint != null)
&& !textRun.getLayout().isVertical()
&& !textRun.getLayout().isOnATextPath()) {
// this text run should be decorated with the specified
// decoration type note: decorations are only supported for
// plain horizontal layouts
Shape decorationShape =
textRun.getLayout().getDecorationOutline(decorationType);
if (decorationRect == null) {
// create a new one
Rectangle2D r2d = decorationShape.getBounds2D();
decorationRect = new Rectangle2D.Double
(r2d.getX(), yLoc, r2d.getWidth(), height);
} else {
// extend the current one
Rectangle2D bounds = decorationShape.getBounds2D();
double minX = Math.min(decorationRect.getX(),
bounds.getX());
double maxX = Math.max(decorationRect.getMaxX(),
bounds.getMaxX());
decorationRect.setRect(minX, yLoc, maxX - minX, height);
}
}
prevPaint = paint;
prevStroke = stroke;
prevStrokePaint = strokePaint;
}
// if there is a decoration rect that hasn't been added to the overall
// outline
if (decorationRect != null) {
Shape s = null;
if (prevStroke != null &&
prevStrokePaint != null)
s = prevStroke.createStrokedShape(decorationRect);
else if (prevPaint != null)
s = decorationRect;
if (s != null) {
if (outline == null)
outline = new GeneralPath(s);
else
outline.append(s, false);
}
}
return outline;
}
public Mark getMark(TextNode node, int index, boolean leadingEdge) {
AttributedCharacterIterator aci;
aci = node.getAttributedCharacterIterator();
if (aci == null)
return null;
if ((index < aci.getBeginIndex()) ||
(index > aci.getEndIndex()))
return null;
TextHit textHit = new TextHit(index, leadingEdge);
return new BasicTextPainter.BasicMark(node, textHit);
}
protected Mark hitTest(double x, double y, TextNode node) {
AttributedCharacterIterator aci;
aci = node.getAttributedCharacterIterator();
if (aci == null)
return null;
// get the list of text runs
List textRuns = getTextRuns(node, aci);
if (textRuns != null) {
// for each text run, see if its been hit
for (Object textRun1 : textRuns) {
TextRun textRun = (TextRun) textRun1;
TextSpanLayout layout = textRun.getLayout();
TextHit textHit = layout.hitTestChar((float) x, (float) y);
Rectangle2D bounds = layout.getBounds2D();
if ((textHit != null) &&
(bounds != null) && bounds.contains(x, y))
return new BasicMark(node, textHit);
}
}
return null;
}
/**
* Selects the first glyph in the text node.
*/
public Mark selectFirst(TextNode node) {
AttributedCharacterIterator aci;
aci = node.getAttributedCharacterIterator();
if (aci == null)
return null;
TextHit textHit = new TextHit(aci.getBeginIndex(), false);
return new BasicTextPainter.BasicMark(node, textHit);
}
/**
* Selects the last glyph in the text node.
*/
public Mark selectLast(TextNode node) {
AttributedCharacterIterator aci;
aci = node.getAttributedCharacterIterator();
if (aci == null)
return null;
TextHit textHit = new TextHit(aci.getEndIndex()-1, false);
return new BasicTextPainter.BasicMark(node, textHit);
}
/**
* Returns an array of ints representing begin/end index pairs into
* an AttributedCharacterIterator which represents the text
* selection delineated by two Mark instances.
* Note: The Mark instances passed must have been instantiated by
* an instance of this enclosing TextPainter implementation.
*/
public int[] getSelected(Mark startMark,
Mark finishMark) {
if (startMark == null || finishMark == null) {
return null;
}
BasicTextPainter.BasicMark start;
BasicTextPainter.BasicMark finish;
try {
start = (BasicTextPainter.BasicMark) startMark;
finish = (BasicTextPainter.BasicMark) finishMark;
} catch (ClassCastException cce) {
throw new RuntimeException
("This Mark was not instantiated by this TextPainter class!");
}
TextNode textNode = start.getTextNode();
if (textNode == null)
return null;
if (textNode != finish.getTextNode())
throw new RuntimeException("Markers are from different TextNodes!");
AttributedCharacterIterator aci;
aci = textNode.getAttributedCharacterIterator();
if (aci == null)
return null;
int[] result = new int[2];
result[0] = start.getHit().getCharIndex();
result[1] = finish.getHit().getCharIndex();
// get the list of text runs
List textRuns = getTextRuns(textNode, aci);
Iterator trI = textRuns.iterator();
int startGlyphIndex = -1;
int endGlyphIndex = -1;
TextSpanLayout startLayout=null, endLayout=null;
while (trI.hasNext()) {
TextRun tr = (TextRun)trI.next();
TextSpanLayout tsl = tr.getLayout();
if (startGlyphIndex == -1) {
startGlyphIndex = tsl.getGlyphIndex(result[0]);
if (startGlyphIndex != -1)
startLayout = tsl;
}
if (endGlyphIndex == -1) {
endGlyphIndex = tsl.getGlyphIndex(result[1]);
if (endGlyphIndex != -1)
endLayout = tsl;
}
if ((startGlyphIndex != -1) && (endGlyphIndex != -1))
break;
}
if ((startLayout == null) || (endLayout == null))
return null;
int startCharCount = startLayout.getCharacterCount
(startGlyphIndex, startGlyphIndex);
int endCharCount = endLayout.getCharacterCount
(endGlyphIndex, endGlyphIndex);
if (startCharCount > 1) {
if (result[0] > result[1] && startLayout.isLeftToRight()) {
result[0] += startCharCount-1;
} else if (result[1] > result[0] && !startLayout.isLeftToRight()) {
result[0] -= startCharCount-1;
}
}
if (endCharCount > 1) {
if (result[1] > result[0] && endLayout.isLeftToRight()) {
result[1] += endCharCount-1;
} else if (result[0] > result[1] && !endLayout.isLeftToRight()) {
result[1] -= endCharCount-1;
}
}
return result;
}
/**
* Return a Shape, in the coordinate system of the text layout,
* which encloses the text selection delineated by two Mark instances.
* Note: The Mark instances passed must have been instantiated by
* an instance of this enclosing TextPainter implementation.
*/
public Shape getHighlightShape(Mark beginMark, Mark endMark) {
if (beginMark == null || endMark == null) {
return null;
}
BasicTextPainter.BasicMark begin;
BasicTextPainter.BasicMark end;
try {
begin = (BasicTextPainter.BasicMark) beginMark;
end = (BasicTextPainter.BasicMark) endMark;
} catch (ClassCastException cce) {
throw new RuntimeException
("This Mark was not instantiated by this TextPainter class!");
}
TextNode textNode = begin.getTextNode();
if (textNode == null)
return null;
if (textNode != end.getTextNode())
throw new RuntimeException("Markers are from different TextNodes!");
AttributedCharacterIterator aci;
aci = textNode.getAttributedCharacterIterator();
if (aci == null)
return null;
int beginIndex = begin.getHit().getCharIndex();
int endIndex = end.getHit().getCharIndex();
if (beginIndex > endIndex) {
// Swap them...
BasicTextPainter.BasicMark tmpMark = begin;
begin = end; end = tmpMark;
int tmpIndex = beginIndex;
beginIndex = endIndex; endIndex = tmpIndex;
}
// get the list of text runs
List textRuns = getTextRuns(textNode, aci);
GeneralPath highlightedShape = new GeneralPath();
// for each text run, append any highlight it may contain for
// the current selection
for (Object textRun1 : textRuns) {
TextRun textRun = (TextRun) textRun1;
TextSpanLayout layout = textRun.getLayout();
Shape layoutHighlightedShape = layout.getHighlightShape
(beginIndex, endIndex);
// append the highlighted shape of this layout to the
// overall hightlighted shape
if ((layoutHighlightedShape != null) &&
(!layoutHighlightedShape.getBounds().isEmpty())) {
highlightedShape.append(layoutHighlightedShape, false);
}
}
return highlightedShape;
}
// inner classes
public static class TextChunk {
// the following denote indices of text runs over all chunks of text node,
// where index 0 is first run of first chunk of text node; the begin index
// of the first chunk is 0; for subsequent chunks, the begin index is the
// end index of its immediately previous chunk; the end index is exclusive
public int begin;
public int end;
public Point2D advance; // sum of advances of runs in chunk
public TextChunk(int begin, int end, Point2D advance) {
this.begin = begin;
this.end = end;
this.advance = new Point2D.Float((float) advance.getX(),
(float) advance.getY());
}
}
/**
* Inner convenience class for associating a TextLayout for
* sub-spans, and the ACI which iterates over that subspan.
*/
public static class TextRun {
protected AttributedCharacterIterator aci; // source aci
protected TextSpanLayout layout; // layout object
protected int anchorType; // text-anchor attribute
protected boolean firstRunInChunk; // first run in chunk flag
protected Float length; // textLength attribute
protected Integer lengthAdjust; // lengthAdjust attribute
private int level; // resolved bidi level of run
private int reversals; // reversal count
public TextRun(TextSpanLayout layout,
AttributedCharacterIterator aci,
boolean firstRunInChunk) {
this.layout = layout;
this.aci = aci;
this.aci.first();
this.firstRunInChunk = firstRunInChunk;
this.anchorType = TextNode.Anchor.ANCHOR_START;
TextNode.Anchor anchor = (TextNode.Anchor) aci.getAttribute
(GVTAttributedCharacterIterator.TextAttribute.ANCHOR_TYPE);
if (anchor != null) {
this.anchorType = anchor.getType();
}
// if writing mode is right to left, then need to reverse the
// text anchor positions
if (aci.getAttribute(WRITING_MODE) == WRITING_MODE_RTL) {
if (anchorType == TextNode.Anchor.ANCHOR_START) {
anchorType = TextNode.Anchor.ANCHOR_END;
} else if (anchorType == TextNode.Anchor.ANCHOR_END) {
anchorType = TextNode.Anchor.ANCHOR_START;
}
// leave middle as is
}
length = (Float) aci.getAttribute
(GVTAttributedCharacterIterator.TextAttribute.BBOX_WIDTH);
lengthAdjust = (Integer) aci.getAttribute
(GVTAttributedCharacterIterator.TextAttribute.LENGTH_ADJUST);
Integer level = (Integer) aci.getAttribute(BIDI_LEVEL);
if (level != null) {
this.level = level;
} else {
this.level = -1;
}
}
public AttributedCharacterIterator getACI() {
return aci;
}
public TextSpanLayout getLayout() {
return layout;
}
public int getAnchorType() {
return anchorType;
}
public Float getLength() {
return length;
}
public Integer getLengthAdjust() {
return lengthAdjust;
}
public boolean isFirstRunInChunk() {
return firstRunInChunk;
}
public int getBidiLevel() {
return level;
}
public void reverse() {
reversals++;
}
public void maybeReverseGlyphs(boolean mirror) {
if ((reversals & 1) == 1) {
layout.maybeReverse(mirror);
}
}
}
}
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