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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.
*/
/* $Id$ */
package org.apache.fop.layoutmgr.inline;
import java.util.LinkedList;
import java.util.List;
import java.util.ListIterator;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.apache.fop.area.Trait;
import org.apache.fop.area.inline.TextArea;
import org.apache.fop.fo.Constants;
import org.apache.fop.fo.FOText;
import org.apache.fop.fonts.Font;
import org.apache.fop.fonts.FontSelector;
import org.apache.fop.layoutmgr.InlineKnuthSequence;
import org.apache.fop.layoutmgr.KnuthBox;
import org.apache.fop.layoutmgr.KnuthElement;
import org.apache.fop.layoutmgr.KnuthGlue;
import org.apache.fop.layoutmgr.KnuthPenalty;
import org.apache.fop.layoutmgr.KnuthSequence;
import org.apache.fop.layoutmgr.LayoutContext;
import org.apache.fop.layoutmgr.LeafPosition;
import org.apache.fop.layoutmgr.Position;
import org.apache.fop.layoutmgr.PositionIterator;
import org.apache.fop.layoutmgr.TraitSetter;
import org.apache.fop.text.linebreak.LineBreakStatus;
import org.apache.fop.traits.MinOptMax;
import org.apache.fop.traits.SpaceVal;
import org.apache.fop.util.CharUtilities;
import org.apache.fop.util.ListUtil;
/**
* LayoutManager for text (a sequence of characters) which generates one
* or more inline areas.
*/
public class TextLayoutManager extends LeafNodeLayoutManager {
/**
* Store information about each potential text area.
* Index of character which ends the area, IPD of area, including
* any word-space and letter-space.
* Number of word-spaces?
*/
private class AreaInfo {
private final int startIndex;
private final int breakIndex;
private final int wordSpaceCount;
private int letterSpaceCount;
private final MinOptMax areaIPD;
private final boolean isHyphenated;
private final boolean isSpace;
private boolean breakOppAfter;
private final Font font;
AreaInfo(final int startIndex,
final int breakIndex,
final int wordSpaceCount,
final int letterSpaceCount,
final MinOptMax areaIPD,
final boolean isHyphenated,
final boolean isSpace,
final boolean breakOppAfter,
final Font font) {
this.startIndex = startIndex;
this.breakIndex = breakIndex;
this.wordSpaceCount = wordSpaceCount;
this.letterSpaceCount = letterSpaceCount;
this.areaIPD = areaIPD;
this.isHyphenated = isHyphenated;
this.isSpace = isSpace;
this.breakOppAfter = breakOppAfter;
this.font = font;
}
public String toString() {
return "[ lscnt=" + this.letterSpaceCount
+ ", wscnt=" + this.wordSpaceCount
+ ", ipd=" + this.areaIPD.toString()
+ ", sidx=" + this.startIndex
+ ", bidx=" + this.breakIndex
+ ", hyph=" + this.isHyphenated
+ ", space=" + this.isSpace
+ ", font=" + this.font
+ "]";
}
}
// this class stores information about changes in vecAreaInfo
// which are not yet applied
private final class PendingChange {
private final AreaInfo ai;
private final int index;
private PendingChange(final AreaInfo ai, final int index) {
this.ai = ai;
this.index = index;
}
}
/**
* logging instance
*/
private static final Log LOG = LogFactory.getLog(TextLayoutManager.class);
// Hold all possible breaks for the text in this LM's FO.
private final List vecAreaInfo;
/** Non-space characters on which we can end a line. */
private static final String BREAK_CHARS = "-/";
/** Used to reduce instantiation of MinOptMax with zero length. Do not modify! */
private static final MinOptMax ZERO_MINOPTMAX = new MinOptMax(0);
private final FOText foText;
/**
* Contains an array of widths to adjust for kerning. The first entry can
* be used to influence the start position of the first letter. The entry i+1 defines the
* cursor advancement after the character i. A null entry means no special advancement.
*/
private final MinOptMax[] letterAdjustArray; //size = textArray.length + 1
/** Font used for the space between words. */
private Font spaceFont = null;
/** Start index of next TextArea */
private int nextStart = 0;
/** size of a space character (U+0020) glyph in current font */
private int spaceCharIPD;
private MinOptMax wordSpaceIPD;
private MinOptMax letterSpaceIPD;
/** size of the hyphen character glyph in current font */
private int hyphIPD;
/** 1/1 of word-spacing value */
private SpaceVal ws;
private boolean hasChanged = false;
private int returnedIndex = 0;
private int thisStart = 0;
private int tempStart = 0;
private List changeList = null;
private AlignmentContext alignmentContext = null;
private int lineStartBAP = 0;
private int lineEndBAP = 0;
private boolean keepTogether;
private final Position auxiliaryPosition = new LeafPosition(this, -1);
/**
* Create a Text layout manager.
*
* @param node The FOText object to be rendered
*/
public TextLayoutManager(final FOText node) {
super();
this.foText = node;
this.letterAdjustArray = new MinOptMax[node.length() + 1];
this.vecAreaInfo = new java.util.ArrayList();
}
private KnuthPenalty makeZeroWidthPenalty(final int penaltyValue) {
return new KnuthPenalty(
0,
penaltyValue,
false,
this.auxiliaryPosition,
true);
}
private KnuthBox makeAuxiliaryZeroWidthBox() {
return new KnuthInlineBox(
0,
null,
this.notifyPos(new LeafPosition(this, -1)),
true);
}
/** {@inheritDoc} */
public void initialize() {
this.foText.resetBuffer();
this.spaceFont = FontSelector.selectFontForCharacterInText(' ', this.foText, this);
// With CID fonts, space isn't neccesary currentFontState.width(32)
this.spaceCharIPD = this.spaceFont.getCharWidth(' ');
// Use hyphenationChar property
// TODO: Use hyphen based on actual font used!
this.hyphIPD = this.foText.getCommonHyphenation().getHyphIPD(this.spaceFont);
final SpaceVal ls = SpaceVal.makeLetterSpacing(this.foText.getLetterSpacing());
this.ws = SpaceVal.makeWordSpacing(this.foText.getWordSpacing(), ls, this.spaceFont);
// letter space applies only to consecutive non-space characters,
// while word space applies to space characters;
// i.e. the spaces in the string "A SIMPLE TEST" are:
// A<<ws>>S<ls>I<ls>M<ls>P<ls>L<ls>E<<ws>>T<ls>E<ls>S<ls>T
// there is no letter space after the last character of a word,
// nor after a space character
// NOTE: The above is not quite correct. Read on in XSL 1.0, 7.16.2, letter-spacing
// set letter space and word space dimension;
// the default value "normal" was converted into a MinOptMax value
// in the SpaceVal.makeWordSpacing() method
this.letterSpaceIPD = ls.getSpace();
this.wordSpaceIPD = MinOptMax.add(new MinOptMax(this.spaceCharIPD), this.ws.getSpace());
this.keepTogether = this.foText.getKeepTogether().getWithinLine()
.getEnum() == Constants.EN_ALWAYS;
}
/**
* Generate and add areas to parent area.
* This can either generate an area for each TextArea and each space, or
* an area containing all text with a parameter controlling the size of
* the word space. The latter is most efficient for PDF generation.
* Set size of each area.
* @param posIter Iterator over Position information returned
* by this LayoutManager.
* @param context LayoutContext for adjustments
*/
public void addAreas(final PositionIterator posIter, final LayoutContext context) {
// Add word areas
AreaInfo ai;
int wordSpaceCount = 0;
int letterSpaceCount = 0;
int firstAreaInfoIndex = -1;
int lastAreaInfoIndex = 0;
MinOptMax realWidth = new MinOptMax(0);
/* On first area created, add any leading space.
* Calculate word-space stretch value.
*/
AreaInfo lastAi = null;
while (posIter.hasNext()) {
final LeafPosition tbpNext = (LeafPosition) posIter.next();
if (tbpNext == null) {
continue; //Ignore elements without Positions
}
if (tbpNext.getLeafPos() != -1) {
ai = (AreaInfo) this.vecAreaInfo.get(tbpNext.getLeafPos());
if (lastAi == null || ai.font != lastAi.font) {
if (lastAi != null) {
this.addAreaInfoAreas(lastAi, wordSpaceCount,
letterSpaceCount, firstAreaInfoIndex,
lastAreaInfoIndex, realWidth, context);
}
firstAreaInfoIndex = tbpNext.getLeafPos();
wordSpaceCount = 0;
letterSpaceCount = 0;
realWidth = new MinOptMax(0);
}
wordSpaceCount += ai.wordSpaceCount;
letterSpaceCount += ai.letterSpaceCount;
realWidth.add(ai.areaIPD);
lastAreaInfoIndex = tbpNext.getLeafPos();
lastAi = ai;
}
}
if (lastAi != null) {
this.addAreaInfoAreas(lastAi, wordSpaceCount, letterSpaceCount,
firstAreaInfoIndex, lastAreaInfoIndex, realWidth, context);
}
}
private void addAreaInfoAreas(final AreaInfo ai, final int wordSpaceCount,
int letterSpaceCount, final int firstAreaInfoIndex,
final int lastAreaInfoIndex, final MinOptMax realWidth, final LayoutContext context) {
// TODO: These two statements (if, for) were like this before my recent
// changes. However, it seems as if they should use the AreaInfo from
// firstAreaInfoIndex.. lastAreaInfoIndex rather than just the last ai.
// This needs to be checked.
final int textLength = ai.breakIndex - ai.startIndex;
if (ai.letterSpaceCount == textLength && !ai.isHyphenated
&& context.isLastArea()) {
// the line ends at a character like "/" or "-";
// remove the letter space after the last character
realWidth.add(MinOptMax.multiply(this.letterSpaceIPD, -1));
letterSpaceCount--;
}
for (int i = ai.startIndex; i < ai.breakIndex; i++) {
final MinOptMax ladj = this.letterAdjustArray[i + 1];
if (ladj != null && ladj.isElastic()) {
letterSpaceCount++;
}
}
// add hyphenation character if the last word is hyphenated
if (context.isLastArea() && ai.isHyphenated) {
realWidth.add(new MinOptMax(this.hyphIPD));
}
// Calculate adjustments
int difference = 0;
int totalAdjust = 0;
int wordSpaceDim = this.wordSpaceIPD.opt;
int letterSpaceDim = this.letterSpaceIPD.opt;
final double ipdAdjust = context.getIPDAdjust();
// calculate total difference between real and available width
if (ipdAdjust > 0.0) {
difference = (int) ((realWidth.max - realWidth.opt)
* ipdAdjust);
} else {
difference = (int) ((realWidth.opt - realWidth.min)
* ipdAdjust);
}
// set letter space adjustment
if (ipdAdjust > 0.0) {
letterSpaceDim
+= (int) ((this.letterSpaceIPD.max - this.letterSpaceIPD.opt)
* ipdAdjust);
} else {
letterSpaceDim
+= (int) ((this.letterSpaceIPD.opt - this.letterSpaceIPD.min)
* ipdAdjust);
}
totalAdjust += (letterSpaceDim - this.letterSpaceIPD.opt) * letterSpaceCount;
// set word space adjustment
//
if (wordSpaceCount > 0) {
wordSpaceDim += (difference - totalAdjust) / wordSpaceCount;
}
totalAdjust += (wordSpaceDim - this.wordSpaceIPD.opt) * wordSpaceCount;
if (totalAdjust != difference) {
// the applied adjustment is greater or smaller than the needed one
TextLayoutManager.LOG
.trace("TextLM.addAreas: error in word / letter space adjustment = "
+ (totalAdjust - difference));
// set totalAdjust = difference, so that the width of the TextArea
// will counterbalance the error and the other inline areas will be
// placed correctly
totalAdjust = difference;
}
final TextArea t = this.createTextArea(realWidth, totalAdjust, context,
this.wordSpaceIPD.opt - this.spaceCharIPD, firstAreaInfoIndex,
lastAreaInfoIndex, context.isLastArea(), ai.font);
// wordSpaceDim is computed in relation to wordSpaceIPD.opt
// but the renderer needs to know the adjustment in relation
// to the size of the space character in the current font;
// moreover, the pdf renderer adds the character spacing even to
// the last character of a word and to space characters: in order
// to avoid this, we must subtract the letter space width twice;
// the renderer will compute the space width as:
// space width =
// = "normal" space width + letterSpaceAdjust + wordSpaceAdjust
// = spaceCharIPD + letterSpaceAdjust +
// + (wordSpaceDim - spaceCharIPD - 2 * letterSpaceAdjust)
// = wordSpaceDim - letterSpaceAdjust
t.setTextLetterSpaceAdjust(letterSpaceDim);
t.setTextWordSpaceAdjust(wordSpaceDim - this.spaceCharIPD
- 2 * t.getTextLetterSpaceAdjust());
if (context.getIPDAdjust() != 0) {
// add information about space width
t.setSpaceDifference(this.wordSpaceIPD.opt - this.spaceCharIPD
- 2 * t.getTextLetterSpaceAdjust());
}
this.parentLM.addChildArea(t);
}
/**
* Create an inline word area.
* This creates a TextArea and sets up the various attributes.
*
* @param width the MinOptMax width of the content
* @param adjust the total ipd adjustment with respect to the optimal width
* @param context the layout context
* @param spaceDiff unused
* @param firstIndex the index of the first AreaInfo used for the TextArea
* @param lastIndex the index of the last AreaInfo used for the TextArea
* @param isLastArea is this TextArea the last in a line?
* @param font Font to be used in this particular TextArea
* @return the new text area
*/
protected TextArea createTextArea(final MinOptMax width, final int adjust,
final LayoutContext context, final int spaceDiff, final int firstIndex,
final int lastIndex, final boolean isLastArea, final Font font) {
TextArea textArea;
if (context.getIPDAdjust() == 0.0) {
// create just a TextArea
textArea = new TextArea();
} else {
// justified area: create a TextArea with extra info
// about potential adjustments
textArea = new TextArea(width.max - width.opt,
width.opt - width.min,
adjust);
}
textArea.setIPD(width.opt + adjust);
textArea.setBPD(font.getAscender() - font.getDescender());
textArea.setBaselineOffset(font.getAscender());
if (textArea.getBPD() == this.alignmentContext.getHeight()) {
textArea.setOffset(0);
} else {
textArea.setOffset(this.alignmentContext.getOffset());
}
// set the text of the TextArea, split into words and spaces
int wordStartIndex = -1;
AreaInfo areaInfo;
int len = 0;
for (int i = firstIndex; i <= lastIndex; i++) {
areaInfo = (AreaInfo) this.vecAreaInfo.get(i);
if (areaInfo.isSpace) {
// areaInfo stores information about spaces
// add the spaces - except zero-width spaces - to the TextArea
for (int j = areaInfo.startIndex; j < areaInfo.breakIndex; j++) {
final char spaceChar = this.foText.charAt(j);
if (!CharUtilities.isZeroWidthSpace(spaceChar)) {
textArea.addSpace(spaceChar, 0,
CharUtilities.isAdjustableSpace(spaceChar));
}
}
} else {
// areaInfo stores information about a word fragment
if (wordStartIndex == -1) {
// here starts a new word
wordStartIndex = i;
len = 0;
}
len += areaInfo.breakIndex - areaInfo.startIndex;
if (i == lastIndex || ((AreaInfo) this.vecAreaInfo.get(i + 1)).isSpace) {
// here ends a new word
// add a word to the TextArea
if (isLastArea
&& i == lastIndex
&& areaInfo.isHyphenated) {
len++;
}
final StringBuffer wordChars = new StringBuffer(len);
final int[] letterAdjust = new int[len];
int letter = 0;
for (int j = wordStartIndex; j <= i; j++) {
final AreaInfo ai = (AreaInfo) this.vecAreaInfo.get(j);
int lsCount = ai.letterSpaceCount;
/* TODO: in Java 5, StringBuffer has an append() variant
* for CharSequence, so the below iteration can be replaced
* by:
* wordChars.append(this.foText, ai.startIndex,
* ai.breakIndex - ai.startIndex);
*/
for (int ci = ai.startIndex; ci < ai.breakIndex; ci++) {
wordChars.append(this.foText.charAt(ci));
}
for (int k = 0; k < ai.breakIndex - ai.startIndex; k++) {
final MinOptMax adj = this.letterAdjustArray[ai.startIndex + k];
if (letter > 0) {
letterAdjust[letter] = adj == null ? 0
: adj.opt;
}
if (lsCount > 0) {
letterAdjust[letter] += textArea.getTextLetterSpaceAdjust();
lsCount--;
}
letter++;
}
}
// String wordChars = new String(textArray, wordStartIndex, len);
if (isLastArea
&& i == lastIndex
&& areaInfo.isHyphenated) {
// add the hyphenation character
wordChars.append(this.foText.getCommonHyphenation().getHyphChar(font));
}
textArea.addWord(wordChars.toString(), 0, letterAdjust);
wordStartIndex = -1;
}
}
}
TraitSetter.addFontTraits(textArea, font);
textArea.addTrait(Trait.COLOR, this.foText.getColor());
TraitSetter.addTextDecoration(textArea, this.foText.getTextDecoration());
return textArea;
}
private void addToLetterAdjust(final int index, final int width) {
if (this.letterAdjustArray[index] == null) {
this.letterAdjustArray[index] = new MinOptMax(width);
} else {
this.letterAdjustArray[index].add(width);
}
}
/**
* Indicates whether a character is a space in terms of this layout manager.
* @param ch the character
* @return true if it's a space
*/
private static boolean isSpace(final char ch) {
return ch == CharUtilities.SPACE
|| CharUtilities.isNonBreakableSpace(ch)
|| CharUtilities.isFixedWidthSpace(ch);
}
/** {@inheritDoc} */
public List getNextKnuthElements(final LayoutContext context, final int alignment) {
this.lineStartBAP = context.getLineStartBorderAndPaddingWidth();
this.lineEndBAP = context.getLineEndBorderAndPaddingWidth();
this.alignmentContext = context.getAlignmentContext();
final List returnList = new LinkedList();
KnuthSequence sequence = new InlineKnuthSequence();
AreaInfo ai = null;
AreaInfo prevAi = null;
returnList.add(sequence);
final LineBreakStatus lbs = new LineBreakStatus();
this.thisStart = this.nextStart;
boolean inWord = false;
boolean inWhitespace = false;
char ch = 0;
while (this.nextStart < this.foText.length()) {
ch = this.foText.charAt(this.nextStart);
boolean breakOpportunity = false;
final byte breakAction = this.keepTogether ? LineBreakStatus.PROHIBITED_BREAK
: lbs.nextChar(ch);
switch (breakAction) {
case LineBreakStatus.COMBINING_PROHIBITED_BREAK:
case LineBreakStatus.PROHIBITED_BREAK:
break;
case LineBreakStatus.EXPLICIT_BREAK:
break;
case LineBreakStatus.COMBINING_INDIRECT_BREAK:
case LineBreakStatus.DIRECT_BREAK:
case LineBreakStatus.INDIRECT_BREAK:
breakOpportunity = true;
break;
default:
TextLayoutManager.LOG.error("Unexpected breakAction: " + breakAction);
}
if (inWord) {
if (breakOpportunity
|| TextLayoutManager.isSpace(ch)
|| CharUtilities.isExplicitBreak(ch)) {
// this.foText.charAt(lastIndex) == CharUtilities.SOFT_HYPHEN
prevAi = this.processWord(alignment, sequence, prevAi, ch,
breakOpportunity, true);
}
} else if (inWhitespace) {
if (ch != CharUtilities.SPACE || breakOpportunity) {
prevAi = this.processWhitespace(alignment, sequence,
breakOpportunity);
}
} else {
if (ai != null) {
prevAi = ai;
ai = this.processLeftoverAi(alignment, sequence, ai, ch,
ch == CharUtilities.SPACE || breakOpportunity);
}
if (breakAction == LineBreakStatus.EXPLICIT_BREAK) {
sequence = this.processLinebreak(returnList, sequence);
}
}
if (ch == CharUtilities.SPACE
&& this.foText.getWhitespaceTreatment() == Constants.EN_PRESERVE
|| ch == CharUtilities.NBSPACE) {
// preserved space or non-breaking space:
// create the AreaInfo object
ai = new AreaInfo(this.nextStart, this.nextStart + 1,
1, 0, this.wordSpaceIPD, false, true,
breakOpportunity, this.spaceFont);
this.thisStart = this.nextStart + 1;
} else if (CharUtilities.isFixedWidthSpace(ch) || CharUtilities.isZeroWidthSpace(ch)) {
// create the AreaInfo object
final Font font = FontSelector.selectFontForCharacterInText(ch,
this.foText, this);
final MinOptMax ipd = new MinOptMax(font.getCharWidth(ch));
ai = new AreaInfo(this.nextStart, this.nextStart + 1,
0, 0, ipd, false, true,
breakOpportunity, font);
this.thisStart = this.nextStart + 1;
} else if (CharUtilities.isExplicitBreak(ch)) {
//mandatory break-character: only advance index
this.thisStart = this.nextStart + 1;
}
inWord = !TextLayoutManager.isSpace(ch)
&& !CharUtilities.isExplicitBreak(ch);
inWhitespace = ch == CharUtilities.SPACE
&& this.foText.getWhitespaceTreatment() != Constants.EN_PRESERVE;
this.nextStart++;
} // end of while
// Process any last elements
if (inWord) {
this.processWord(alignment, sequence, prevAi, ch, false, false);
} else if (inWhitespace) {
this.processWhitespace(alignment, sequence, true);
} else if (ai != null) {
this.processLeftoverAi(alignment, sequence, ai, ch,
ch == CharUtilities.ZERO_WIDTH_SPACE);
} else if (CharUtilities.isExplicitBreak(ch)) {
this.processLinebreak(returnList, sequence);
}
if (((List) ListUtil.getLast(returnList)).isEmpty()) {
//Remove an empty sequence because of a trailing newline
ListUtil.removeLast(returnList);
}
this.setFinished(true);
if (returnList.isEmpty()) {
return null;
} else {
return returnList;
}
}
private KnuthSequence processLinebreak(final List returnList,
KnuthSequence sequence) {
if (this.lineEndBAP != 0) {
sequence.add(
new KnuthGlue(this.lineEndBAP, 0, 0,
this.auxiliaryPosition, true));
}
sequence.endSequence();
sequence = new InlineKnuthSequence();
returnList.add(sequence);
return sequence;
}
private AreaInfo processLeftoverAi(final int alignment,
final KnuthSequence sequence, AreaInfo ai, final char ch,
final boolean breakOpportunityAfter) {
this.vecAreaInfo.add(ai);
ai.breakOppAfter = breakOpportunityAfter;
this.addElementsForASpace(sequence, alignment, ai, this.vecAreaInfo.size() - 1);
ai = null;
return ai;
}
private AreaInfo processWhitespace(final int alignment,
final KnuthSequence sequence, final boolean breakOpportunity) {
// End of whitespace
// create the AreaInfo object
AreaInfo ai = new AreaInfo(this.thisStart, this.nextStart,
this.nextStart - this.thisStart, 0,
MinOptMax.multiply(this.wordSpaceIPD, this.nextStart
- this.thisStart), false, true,
breakOpportunity, this.spaceFont);
this.vecAreaInfo.add(ai);
// create the elements
this.addElementsForASpace(sequence, alignment, ai, this.vecAreaInfo.size() - 1);
this.thisStart = this.nextStart;
return ai;
}
private AreaInfo processWord(final int alignment, final KnuthSequence sequence,
AreaInfo prevAi, final char ch, final boolean breakOpportunity,
final boolean checkEndsWithHyphen) {
AreaInfo ai;
//Word boundary found, process widths and kerning
int lastIndex = this.nextStart;
while (lastIndex > 0
&& this.foText.charAt(lastIndex - 1) == CharUtilities.SOFT_HYPHEN) {
lastIndex--;
}
final boolean endsWithHyphen = checkEndsWithHyphen
&& this.foText.charAt(lastIndex) == CharUtilities.SOFT_HYPHEN;
final Font font = FontSelector
.selectFontForCharactersInText(this.foText,
this.thisStart, lastIndex, this.foText, this);
final int wordLength = lastIndex - this.thisStart;
final boolean kerning = font.hasKerning();
final MinOptMax wordIPD = new MinOptMax(0);
for (int i = this.thisStart; i < lastIndex; i++) {
final char c = this.foText.charAt(i);
//character width
final int charWidth = font.getCharWidth(c);
wordIPD.add(charWidth);
//kerning
if (kerning) {
int kern = 0;
if (i > this.thisStart) {
final char previous = this.foText.charAt(i - 1);
kern = font.getKernValue(previous, c) * font.getFontSize() / 1000;
} else if (prevAi != null && !prevAi.isSpace && prevAi.breakIndex > 0) {
final char previous = this.foText.charAt(prevAi.breakIndex - 1);
kern = font.getKernValue(previous, c) * font.getFontSize() / 1000;
}
if (kern != 0) {
this.addToLetterAdjust(i, kern);
wordIPD.add(kern);
}
}
}
if (kerning
&& breakOpportunity
&& !TextLayoutManager.isSpace(ch)
&& lastIndex > 0
&& endsWithHyphen) {
final int kern = font.getKernValue(
this.foText.charAt(lastIndex - 1), ch)
* font.getFontSize() / 1000;
if (kern != 0) {
this.addToLetterAdjust(lastIndex, kern);
}
}
int iLetterSpaces = wordLength - 1;
// if there is a break opportunity and the next one
// is not a space, it could be used as a line end;
// add one more letter space, in case other text follows
if (breakOpportunity && !TextLayoutManager.isSpace(ch)) {
iLetterSpaces++;
}
wordIPD.add(MinOptMax.multiply(this.letterSpaceIPD, iLetterSpaces));
// create the AreaInfo object
ai = new AreaInfo(this.thisStart, lastIndex, 0,
iLetterSpaces, wordIPD,
endsWithHyphen,
false, breakOpportunity, font);
prevAi = ai;
this.vecAreaInfo.add(ai);
this.tempStart = this.nextStart;
//add the elements
this.addElementsForAWordFragment(sequence, alignment, ai,
this.vecAreaInfo.size() - 1, this.letterSpaceIPD);
ai = null;
this.thisStart = this.nextStart;
return prevAi;
}
/** {@inheritDoc} */
public List addALetterSpaceTo(final List oldList) {
// old list contains only a box, or the sequence: box penalty glue box;
// look at the Position stored in the first element in oldList
// which is always a box
ListIterator oldListIterator = oldList.listIterator();
final KnuthElement el = (KnuthElement)oldListIterator.next();
final LeafPosition pos = (LeafPosition) ((KnuthBox) el).getPosition();
final int idx = pos.getLeafPos();
//element could refer to '-1' position, for non-collapsed spaces (?)
if (idx > -1) {
final AreaInfo ai = (AreaInfo) this.vecAreaInfo.get(idx);
ai.letterSpaceCount++;
ai.areaIPD.add(this.letterSpaceIPD);
if (TextLayoutManager.BREAK_CHARS.indexOf(this.foText.charAt(this.tempStart - 1)) >= 0) {
// the last character could be used as a line break
// append new elements to oldList
oldListIterator = oldList.listIterator(oldList.size());
oldListIterator.add(new KnuthPenalty(0, KnuthPenalty.FLAGGED_PENALTY, true,
this.auxiliaryPosition, false));
oldListIterator.add(new KnuthGlue(this.letterSpaceIPD.opt,
this.letterSpaceIPD.max - this.letterSpaceIPD.opt,
this.letterSpaceIPD.opt - this.letterSpaceIPD.min,
this.auxiliaryPosition, false));
} else if (this.letterSpaceIPD.min == this.letterSpaceIPD.max) {
// constant letter space: replace the box
oldListIterator.set(new KnuthInlineBox(ai.areaIPD.opt,
this.alignmentContext, pos, false));
} else {
// adjustable letter space: replace the glue
oldListIterator.next(); // this would return the penalty element
oldListIterator.next(); // this would return the glue element
oldListIterator
.set(new KnuthGlue(
ai.letterSpaceCount * this.letterSpaceIPD.opt,
ai.letterSpaceCount
* (this.letterSpaceIPD.max - this.letterSpaceIPD.opt),
ai.letterSpaceCount
* (this.letterSpaceIPD.opt - this.letterSpaceIPD.min),
this.auxiliaryPosition, true));
}
}
return oldList;
}
/**
* remove the AreaInfo object represented by the given elements,
* so that it won't generate any element when getChangedKnuthElements
* will be called
*
* @param oldList the elements representing the word space
*/
public void removeWordSpace(final List oldList) {
// find the element storing the Position whose value
// points to the AreaInfo object
final ListIterator oldListIterator = oldList.listIterator();
if (((KnuthElement) ((LinkedList) oldList).getFirst()).isPenalty()) {
// non breaking space: oldList starts with a penalty
oldListIterator.next();
}
if (oldList.size() > 2) {
// alignment is either center, start or end:
// the first two elements does not store the needed Position
oldListIterator.next();
oldListIterator.next();
}
final int leafValue = ((LeafPosition) ((KnuthElement) oldListIterator
.next()).getPosition()).getLeafPos();
// only the last word space can be a trailing space!
if (leafValue == this.vecAreaInfo.size() - 1) {
this.vecAreaInfo.remove(leafValue);
} else {
TextLayoutManager.LOG.error("trying to remove a non-trailing word space");
}
}
/** {@inheritDoc} */
public void hyphenate(final Position pos, final HyphContext hc) {
final AreaInfo ai
= (AreaInfo) this.vecAreaInfo.get(((LeafPosition) pos).getLeafPos());
int startIndex = ai.startIndex;
int stopIndex;
boolean nothingChanged = true;
final Font font = ai.font;
while (startIndex < ai.breakIndex) {
final MinOptMax newIPD = new MinOptMax(0);
boolean hyphenFollows;
stopIndex = startIndex + hc.getNextHyphPoint();
if (hc.hasMoreHyphPoints() && stopIndex <= ai.breakIndex) {
// stopIndex is the index of the first character
// after a hyphenation point
hyphenFollows = true;
} else {
// there are no more hyphenation points,
// or the next one is after ai.breakIndex
hyphenFollows = false;
stopIndex = ai.breakIndex;
}
hc.updateOffset(stopIndex - startIndex);
//log.info("Word: " + new String(textArray, startIndex, stopIndex - startIndex));
for (int i = startIndex; i < stopIndex; i++) {
final char c = this.foText.charAt(i);
newIPD.add(new MinOptMax(font.getCharWidth(c)));
//if (i > startIndex) {
if (i < stopIndex) {
MinOptMax la = this.letterAdjustArray[i + 1];
if (i == stopIndex - 1 && hyphenFollows) {
//the letter adjust here needs to be handled further down during
//element generation because it depends on hyph/no-hyph condition
la = null;
}
if (la != null) {
newIPD.add(la);
}
}
}
// add letter spaces
final boolean isWordEnd
= stopIndex == ai.breakIndex
&& ai.letterSpaceCount < ai.breakIndex - ai.startIndex;
newIPD.add(MinOptMax.multiply(this.letterSpaceIPD,
(isWordEnd
? stopIndex - startIndex - 1
: stopIndex - startIndex)));
if (!(nothingChanged
&& stopIndex == ai.breakIndex
&& !hyphenFollows)) {
// the new AreaInfo object is not equal to the old one
if (this.changeList == null) {
this.changeList = new LinkedList();
}
this.changeList.add(new PendingChange(new AreaInfo(
startIndex, stopIndex, 0,
(isWordEnd ? stopIndex - startIndex - 1
: stopIndex - startIndex), newIPD,
hyphenFollows, false, false, font),
((LeafPosition) pos).getLeafPos()));
nothingChanged = false;
}
startIndex = stopIndex;
}
this.hasChanged = !nothingChanged;
}
/** {@inheritDoc} */
public boolean applyChanges(final List oldList) {
this.setFinished(false);
if (this.changeList != null && !this.changeList.isEmpty()) {
int areaInfosAdded = 0;
int areaInfosRemoved = 0;
int oldIndex = -1, changeIndex;
PendingChange currChange;
final ListIterator changeListIterator = this.changeList.listIterator();
while (changeListIterator.hasNext()) {
currChange = (PendingChange) changeListIterator.next();
if (currChange.index == oldIndex) {
areaInfosAdded++;
changeIndex = currChange.index + areaInfosAdded - areaInfosRemoved;
} else {
areaInfosRemoved++;
areaInfosAdded++;
oldIndex = currChange.index;
changeIndex = currChange.index + areaInfosAdded - areaInfosRemoved;
this.vecAreaInfo.remove(changeIndex);
}
this.vecAreaInfo.add(changeIndex, currChange.ai);
}
this.changeList.clear();
}
this.returnedIndex = 0;
return this.hasChanged;
}
/** {@inheritDoc} */
public List getChangedKnuthElements(final List oldList,
final int alignment) {
if (this.isFinished()) {
return null;
}
final LinkedList returnList = new LinkedList();
while (this.returnedIndex < this.vecAreaInfo.size()) {
final AreaInfo ai = (AreaInfo) this.vecAreaInfo.get(this.returnedIndex);
if (ai.wordSpaceCount == 0) {
// ai refers either to a word or a word fragment
this.addElementsForAWordFragment(returnList, alignment, ai,
this.returnedIndex, this.letterSpaceIPD);
} else {
// ai refers to a space
this.addElementsForASpace(returnList, alignment, ai, this.returnedIndex);
}
this.returnedIndex++;
} // end of while
this.setFinished(true);
//ElementListObserver.observe(returnList, "text-changed", null);
return returnList;
}
/** {@inheritDoc} */
public void getWordChars(final StringBuffer sbChars, final Position pos) {
final int leafValue = ((LeafPosition) pos).getLeafPos();
if (leafValue != -1) {
final AreaInfo ai = (AreaInfo) this.vecAreaInfo.get(leafValue);
for (int i = ai.startIndex; i < ai.breakIndex; ++i) {
sbChars.append(this.foText.charAt(i));
}
}
}
private void addElementsForASpace(final List baseList,
final int alignment,
final AreaInfo ai,
final int leafValue) {
final LeafPosition mainPosition = new LeafPosition(this, leafValue);
if (!ai.breakOppAfter) {
// a non-breaking space
if (alignment == Constants.EN_JUSTIFY) {
// the space can stretch and shrink, and must be preserved
// when starting a line
baseList.add(this.makeAuxiliaryZeroWidthBox());
baseList.add(this.makeZeroWidthPenalty(KnuthElement.INFINITE));
baseList.add(new KnuthGlue(ai.areaIPD.opt, ai.areaIPD.max - ai.areaIPD.opt,
ai.areaIPD.opt - ai.areaIPD.min, mainPosition, false));
} else {
// the space does not need to stretch or shrink, and must be
// preserved when starting a line
baseList.add(new KnuthInlineBox(ai.areaIPD.opt, null,
mainPosition, true));
}
} else {
if (this.foText.charAt(ai.startIndex) != CharUtilities.SPACE
|| this.foText.getWhitespaceTreatment() == Constants.EN_PRESERVE) {
// a breaking space that needs to be preserved
this.addElementsForBreakingSpace(baseList, alignment, ai,
this.auxiliaryPosition, 0, mainPosition,
ai.areaIPD.opt, true);
} else {
// a (possible block) of breaking spaces
this.addElementsForBreakingSpace(baseList, alignment, ai,
mainPosition, ai.areaIPD.opt,
this.auxiliaryPosition, 0, false);
}
}
}
private void addElementsForBreakingSpace(final List baseList,
final int alignment, final AreaInfo ai, final Position pos2,
final int p2WidthOffset, final Position pos3,
final int p3WidthOffset, final boolean skipZeroCheck) {
switch (alignment) {
case EN_CENTER:
// centered text:
// if the second element is chosen as a line break these elements
// add a constant amount of stretch at the end of a line and at the
// beginning of the next one, otherwise they don't add any stretch
baseList.add(new KnuthGlue(this.lineEndBAP,
3 * LineLayoutManager.DEFAULT_SPACE_WIDTH, 0,
this.auxiliaryPosition, false));
baseList.add(this.makeZeroWidthPenalty(0));
baseList.add(new KnuthGlue(p2WidthOffset
- (this.lineStartBAP + this.lineEndBAP), -6
* LineLayoutManager.DEFAULT_SPACE_WIDTH, 0, pos2, false));
baseList.add(this.makeAuxiliaryZeroWidthBox());
baseList.add(this.makeZeroWidthPenalty(KnuthElement.INFINITE));
baseList.add(new KnuthGlue(this.lineStartBAP + p3WidthOffset,
3 * LineLayoutManager.DEFAULT_SPACE_WIDTH, 0, pos3, false));
break;
case EN_START: // fall through
case EN_END:
// left- or right-aligned text:
// if the second element is chosen as a line break these elements
// add a constant amount of stretch at the end of a line, otherwise
// they don't add any stretch
if (skipZeroCheck || this.lineStartBAP != 0 || this.lineEndBAP != 0) {
baseList.add(new KnuthGlue(this.lineEndBAP,
3 * LineLayoutManager.DEFAULT_SPACE_WIDTH, 0,
this.auxiliaryPosition, false));
baseList.add(this.makeZeroWidthPenalty(0));
baseList.add(new KnuthGlue(p2WidthOffset
- (this.lineStartBAP + this.lineEndBAP), -3
* LineLayoutManager.DEFAULT_SPACE_WIDTH, 0,
pos2, false));
baseList.add(this.makeAuxiliaryZeroWidthBox());
baseList.add(this.makeZeroWidthPenalty(KnuthElement.INFINITE));
baseList.add(new KnuthGlue(this.lineStartBAP + p3WidthOffset,
0, 0, pos3, false));
} else {
baseList.add(new KnuthGlue(0,
3 * LineLayoutManager.DEFAULT_SPACE_WIDTH, 0,
this.auxiliaryPosition, false));
baseList.add(this.makeZeroWidthPenalty(0));
baseList.add(new KnuthGlue(ai.areaIPD.opt, -3
* LineLayoutManager.DEFAULT_SPACE_WIDTH, 0,
pos2, false));
}
break;
case EN_JUSTIFY:
// justified text:
// the stretch and shrink depends on the space width
if (skipZeroCheck || this.lineStartBAP != 0 || this.lineEndBAP != 0) {
baseList.add(new KnuthGlue(this.lineEndBAP, 0, 0,
this.auxiliaryPosition, false));
baseList.add(this.makeZeroWidthPenalty(0));
baseList.add(new KnuthGlue(p2WidthOffset
- (this.lineStartBAP + this.lineEndBAP), ai.areaIPD.max
- ai.areaIPD.opt, ai.areaIPD.opt - ai.areaIPD.min,
pos2, false));
baseList.add(this.makeAuxiliaryZeroWidthBox());
baseList.add(this.makeZeroWidthPenalty(KnuthElement.INFINITE));
baseList.add(new KnuthGlue(this.lineStartBAP + p3WidthOffset,
0, 0, pos3, false));
} else {
baseList.add(new KnuthGlue(ai.areaIPD.opt, ai.areaIPD.max
- ai.areaIPD.opt, ai.areaIPD.opt - ai.areaIPD.min,
pos2, false));
}
break;
default:
// last line justified, the other lines unjustified:
// use only the space stretch
if (skipZeroCheck || this.lineStartBAP != 0 || this.lineEndBAP != 0) {
baseList.add(new KnuthGlue(this.lineEndBAP, 0, 0,
this.auxiliaryPosition, false));
baseList.add(this.makeZeroWidthPenalty(0));
baseList.add(new KnuthGlue(p2WidthOffset
- (this.lineStartBAP + this.lineEndBAP), ai.areaIPD.max
- ai.areaIPD.opt, 0, pos2, false));
baseList.add(this.makeAuxiliaryZeroWidthBox());
baseList.add(this.makeZeroWidthPenalty(KnuthElement.INFINITE));
baseList.add(new KnuthGlue(this.lineStartBAP + p3WidthOffset,
0, 0, pos3, false));
} else {
baseList.add(new KnuthGlue(ai.areaIPD.opt, ai.areaIPD.max
- ai.areaIPD.opt, 0, pos2, false));
}
}
}
private void addElementsForAWordFragment(final List baseList,
final int alignment,
final AreaInfo ai,
final int leafValue,
final MinOptMax letterSpaceWidth) {
final LeafPosition mainPosition = new LeafPosition(this, leafValue);
// if the last character of the word fragment is '-' or '/',
// the fragment could end a line; in this case, it loses one
// of its letter spaces;
final boolean suppressibleLetterSpace = ai.breakOppAfter && !ai.isHyphenated;
if (letterSpaceWidth.min == letterSpaceWidth.max) {
// constant letter spacing
baseList.add(new KnuthInlineBox(
suppressibleLetterSpace
? ai.areaIPD.opt - letterSpaceWidth.opt
: ai.areaIPD.opt,
this.alignmentContext,
this.notifyPos(mainPosition), false));
} else {
// adjustable letter spacing
final int unsuppressibleLetterSpaces
= suppressibleLetterSpace ? ai.letterSpaceCount - 1 : ai.letterSpaceCount;
baseList.add
(new KnuthInlineBox(ai.areaIPD.opt
- ai.letterSpaceCount * letterSpaceWidth.opt,
this.alignmentContext,
this.notifyPos(mainPosition), false));
baseList.add(this.makeZeroWidthPenalty(KnuthElement.INFINITE));
baseList.add
(new KnuthGlue(unsuppressibleLetterSpaces * letterSpaceWidth.opt,
unsuppressibleLetterSpaces * (letterSpaceWidth.max - letterSpaceWidth.opt),
unsuppressibleLetterSpaces * (letterSpaceWidth.opt - letterSpaceWidth.min),
this.auxiliaryPosition, true));
baseList.add(this.makeAuxiliaryZeroWidthBox());
}
// extra-elements if the word fragment is the end of a syllable,
// or it ends with a character that can be used as a line break
if (ai.isHyphenated) {
MinOptMax widthIfNoBreakOccurs = null;
if (ai.breakIndex < this.foText.length()) {
//Add in kerning in no-break condition
widthIfNoBreakOccurs = this.letterAdjustArray[ai.breakIndex];
}
//if (ai.breakIndex)
// the word fragment ends at the end of a syllable:
// if a break occurs the content width increases,
// otherwise nothing happens
this.addElementsForAHyphen(baseList, alignment, this.hyphIPD,
widthIfNoBreakOccurs, ai.breakOppAfter && ai.isHyphenated);
} else if (suppressibleLetterSpace) {
// the word fragment ends with a character that acts as a hyphen
// if a break occurs the width does not increase,
// otherwise there is one more letter space
this.addElementsForAHyphen(baseList, alignment, 0, letterSpaceWidth, true);
}
}
// static final int SOFT_HYPHEN_PENALTY = KnuthPenalty.FLAGGED_PENALTY / 10;
private static final int SOFT_HYPHEN_PENALTY = 1;
private void addElementsForAHyphen(final List baseList,
final int alignment,
final int widthIfBreakOccurs,
MinOptMax widthIfNoBreakOccurs,
final boolean unflagged) {
if (widthIfNoBreakOccurs == null) {
widthIfNoBreakOccurs = TextLayoutManager.ZERO_MINOPTMAX;
}
switch (alignment) {
case EN_CENTER :
// centered text:
baseList.add(this.makeZeroWidthPenalty(KnuthElement.INFINITE));
baseList.add(new KnuthGlue(this.lineEndBAP,
3 * LineLayoutManager.DEFAULT_SPACE_WIDTH, 0,
this.auxiliaryPosition, true));
baseList.add(new KnuthPenalty(this.hyphIPD,
unflagged ? TextLayoutManager.SOFT_HYPHEN_PENALTY
: KnuthPenalty.FLAGGED_PENALTY, !unflagged,
this.auxiliaryPosition, false));
baseList.add(new KnuthGlue(-(this.lineEndBAP + this.lineStartBAP),
-6 * LineLayoutManager.DEFAULT_SPACE_WIDTH, 0,
this.auxiliaryPosition, false));
baseList.add(this.makeAuxiliaryZeroWidthBox());
baseList.add(this.makeZeroWidthPenalty(KnuthElement.INFINITE));
baseList.add(new KnuthGlue(this.lineStartBAP,
3 * LineLayoutManager.DEFAULT_SPACE_WIDTH, 0,
this.auxiliaryPosition, true));
break;
case EN_START : // fall through
case EN_END :
// left- or right-aligned text:
if (this.lineStartBAP != 0 || this.lineEndBAP != 0) {
baseList.add(this.makeZeroWidthPenalty(KnuthElement.INFINITE));
baseList.add(new KnuthGlue(this.lineEndBAP,
3 * LineLayoutManager.DEFAULT_SPACE_WIDTH, 0,
this.auxiliaryPosition, false));
baseList.add(new KnuthPenalty(widthIfBreakOccurs,
unflagged ? TextLayoutManager.SOFT_HYPHEN_PENALTY
: KnuthPenalty.FLAGGED_PENALTY, !unflagged,
this.auxiliaryPosition, false));
baseList.add(new KnuthGlue(widthIfNoBreakOccurs.opt
- (this.lineStartBAP + this.lineEndBAP), -3
* LineLayoutManager.DEFAULT_SPACE_WIDTH, 0,
this.auxiliaryPosition, false));
baseList.add(this.makeAuxiliaryZeroWidthBox());
baseList.add(this.makeZeroWidthPenalty(KnuthElement.INFINITE));
baseList.add(new KnuthGlue(this.lineStartBAP, 0, 0,
this.auxiliaryPosition, false));
} else {
baseList.add(this.makeZeroWidthPenalty(KnuthElement.INFINITE));
baseList.add(new KnuthGlue(0, 3 * LineLayoutManager.DEFAULT_SPACE_WIDTH, 0,
this.auxiliaryPosition, false));
baseList.add(new KnuthPenalty(widthIfBreakOccurs,
unflagged ? TextLayoutManager.SOFT_HYPHEN_PENALTY
: KnuthPenalty.FLAGGED_PENALTY, !unflagged,
this.auxiliaryPosition, false));
baseList.add(new KnuthGlue(widthIfNoBreakOccurs.opt,
-3 * LineLayoutManager.DEFAULT_SPACE_WIDTH, 0,
this.auxiliaryPosition, false));
}
break;
default:
// justified text, or last line justified:
// just a flagged penalty
if (this.lineStartBAP != 0 || this.lineEndBAP != 0) {
baseList.add(this.makeZeroWidthPenalty(KnuthElement.INFINITE));
baseList.add(new KnuthGlue(this.lineEndBAP, 0, 0,
this.auxiliaryPosition, false));
baseList.add(new KnuthPenalty(widthIfBreakOccurs,
unflagged ? TextLayoutManager.SOFT_HYPHEN_PENALTY
: KnuthPenalty.FLAGGED_PENALTY, !unflagged,
this.auxiliaryPosition, false));
// extra elements representing a letter space that is suppressed
// if a break occurs
if (widthIfNoBreakOccurs.min != 0
|| widthIfNoBreakOccurs.max != 0) {
baseList
.add(new KnuthGlue(widthIfNoBreakOccurs.opt
- (this.lineStartBAP + this.lineEndBAP),
widthIfNoBreakOccurs.max
- widthIfNoBreakOccurs.opt,
widthIfNoBreakOccurs.opt
- widthIfNoBreakOccurs.min,
this.auxiliaryPosition, false));
} else {
baseList.add(new KnuthGlue(-(this.lineStartBAP + this.lineEndBAP), 0, 0,
this.auxiliaryPosition, false));
}
baseList.add(this.makeAuxiliaryZeroWidthBox());
baseList.add(this.makeZeroWidthPenalty(KnuthElement.INFINITE));
baseList.add(new KnuthGlue(this.lineStartBAP, 0, 0,
this.auxiliaryPosition, false));
} else {
baseList.add(new KnuthPenalty(widthIfBreakOccurs,
unflagged ? TextLayoutManager.SOFT_HYPHEN_PENALTY
: KnuthPenalty.FLAGGED_PENALTY, !unflagged,
this.auxiliaryPosition, false));
// extra elements representing a letter space that is suppressed
// if a break occurs
if (widthIfNoBreakOccurs.min != 0
|| widthIfNoBreakOccurs.max != 0) {
baseList.add(new KnuthGlue(widthIfNoBreakOccurs.opt,
widthIfNoBreakOccurs.max - widthIfNoBreakOccurs.opt,
widthIfNoBreakOccurs.opt - widthIfNoBreakOccurs.min,
this.auxiliaryPosition, false));
}
}
}
}
}
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