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/*
* $Id$
* Copyright (C) 2002 The Apache Software Foundation. All rights reserved.
* For details on use and redistribution please refer to the
* LICENSE file included with these sources.
*/
package org.apache.fop.layoutmgr;
import org.apache.fop.fo.FObj;
import org.apache.fop.fo.TextInfo;
import org.apache.fop.fo.PropertyManager;
import org.apache.fop.layout.MarginProps;
import org.apache.fop.layout.HyphenationProps;
import org.apache.fop.layout.hyphenation.Hyphenation;
import org.apache.fop.layout.hyphenation.Hyphenator;
import org.apache.fop.traits.BlockProps;
import org.apache.fop.area.Area;
import org.apache.fop.area.LineArea;
import org.apache.fop.area.MinOptMax;
import org.apache.fop.area.inline.InlineArea;
import org.apache.fop.area.Resolveable;
import org.apache.fop.fo.properties.TextAlign;
import org.apache.fop.area.inline.Word;
import org.apache.fop.area.inline.Space;
import org.apache.fop.area.inline.Character;
import java.util.ListIterator;
import java.util.Iterator;
import java.util.List;
import java.util.ArrayList;
/**
* LayoutManager for lines. It builds one or more lines containing
* inline areas generated by its sub layout managers.
* A break is found for each line which may contain one of more
* breaks from the child layout managers.
* Once a break is found then it is return for the parent layout
* manager to handle.
* When the areas are being added to the page this manager
* creates a line area to contain the inline areas added by the
* child layout managers.
*/
public class LineLayoutManager extends InlineStackingLayoutManager {
/**
* Private class to store information about inline breaks.
* Each value holds the start and end indexes into a List of
* inline break positions.
*/
private static class LineBreakPosition extends LeafPosition {
// int iPos;
double dAdjust; // Percentage to adjust (stretch or shrink)
double ipdAdjust; // Percentage to adjust (stretch or shrink)
int startIndent;
int lineHeight;
int baseline;
LineBreakPosition(LayoutManager lm, int iBreakIndex,
double ipdA, double adjust, int ind, int lh, int bl) {
super(lm, iBreakIndex);
// iPos = iBreakIndex;
ipdAdjust = ipdA;
dAdjust = adjust;
startIndent = ind;
lineHeight = lh;
baseline = bl;
}
}
/** Break positions returned by inline content. */
private List vecInlineBreaks = new ArrayList();
private BreakPoss prevBP = null; // Last confirmed break position
private int bTextAlignment = TextAlign.JUSTIFY;
private int iTextIndent = 0;
private int iIndents = 0;
private HyphenationProps hyphProps;
private int lineHeight;
private int lead;
private int follow;
// inline start pos when adding areas
int iStartPos = 0;
/**
* Create a new Line Layout Manager.
* This is used by the block layout manager to create
* line managers for handling inline areas flowing into line areas.
*
* @param fobj the block the is creating the lines
* @param lms the list of layout managers that will add inline areas
* @param lh the default line height
* @param l the default lead, from top to baseline
* @param f the default follow, from baseline to bottom
*/
public LineLayoutManager(FObj fobj, List lms, int lh, int l, int f) {
super(fobj, lms.listIterator());
lineHeight = lh;
lead = l;
follow = f;
init(); // Normally done when started by parent!
}
/**
* Initialize the properties for this layout manager.
* The properties are from the block area.
*/
protected void initProperties(PropertyManager propMgr) {
MarginProps marginProps = propMgr.getMarginProps();
iIndents = marginProps.startIndent + marginProps.endIndent;
BlockProps blockProps = propMgr.getBlockProps();
bTextAlignment = blockProps.textAlign;
iTextIndent = blockProps.firstIndent;
hyphProps = propMgr.getHyphenationProps();
}
/**
* Call child layout managers to generate content.
* This gets the next break which is a full line.
*
* @param context the layout context for finding breaks
* @return the next break position
*/
public BreakPoss getNextBreakPoss(LayoutContext context) {
// Get a break from currently active child LM
// Set up constraints for inline level managers
LayoutManager curLM ; // currently active LM
BreakPoss prev = null;
BreakPoss bp = null; // proposed BreakPoss
ArrayList vecPossEnd = new ArrayList();
// IPD remaining in line
MinOptMax availIPD = context.getStackLimit();
// QUESTION: maybe LayoutContext holds the Properties which
// come from block-level?
LayoutContext inlineLC = new LayoutContext(context);
clearPrevIPD();
int iPrevLineEnd = vecInlineBreaks.size();
prevBP = null;
while ((curLM = getChildLM()) != null) {
// INITIALIZE LAYOUT CONTEXT FOR CALL TO CHILD LM
// First break for the child LM in each of its areas
boolean bFirstBPforLM = (vecInlineBreaks.isEmpty() ||
(((BreakPoss) vecInlineBreaks.get(vecInlineBreaks.size() - 1)).
getLayoutManager() != curLM));
// Need previous breakpoint! ATTENTION when backing up for hyphenation!
prev = (vecInlineBreaks.isEmpty()) ? null :
(BreakPoss) vecInlineBreaks.get(vecInlineBreaks.size() - 1);
initChildLC(inlineLC, prev,
(vecInlineBreaks.size() == iPrevLineEnd),
bFirstBPforLM, new SpaceSpecifier(true));
/* If first BP in this line but line is not first in this
* LM and previous line end decision was not forced (LINEFEED),
* then set the SUPPRESS_LEADING_SPACE flag.
*/
inlineLC.setFlags(LayoutContext.SUPPRESS_LEADING_SPACE,
(vecInlineBreaks.size() == iPrevLineEnd &&
!vecInlineBreaks.isEmpty() &&
((BreakPoss) vecInlineBreaks.get(vecInlineBreaks.size() - 1)).
isForcedBreak() == false));
// GET NEXT POSSIBLE BREAK FROM CHILD LM
// prevBP = bp;
if ((bp = curLM.getNextBreakPoss(inlineLC)) != null) {
// Add any space before and previous content dimension
MinOptMax prevIPD = updatePrevIPD(bp, prev,
(vecInlineBreaks.size() == iPrevLineEnd),
inlineLC.isFirstArea());
MinOptMax bpDim =
MinOptMax.add(bp.getStackingSize(), prevIPD);
// check if this bp fits in line
boolean bBreakOK = couldEndLine(bp);
if (bBreakOK) {
/* Add any non-conditional trailing space, assuming we
* end the line here. If we can't break here, we just
* check if the content fits.
*/
bpDim.add(bp.resolveTrailingSpace(true));
}
// TODO: stop if linebreak is forced (NEWLINE)
// PROBLEM: interaction with wrap which can be set
// at lower levels!
// System.err.println("BPdim=" + bpDim.opt);
// Check if proposed area would fit in line
if (bpDim.min > availIPD.max) {
// See if we have already found a potential break
//if (vecPossEnd.size() > 0) break;
// This break position doesn't fit
// TODO: If we are in nowrap, we use it as is!
if (bTextAlignment == TextAlign.JUSTIFY || prevBP == null) {
// If we are already in a hyphenation loop, then stop.
if (inlineLC.tryHyphenate()) {
break;
}
// Otherwise, prepare to try hyphenation
if (!bBreakOK) {
// Make sure we collect the entire word!
vecInlineBreaks.add(bp);
continue;
}
inlineLC.setHyphContext(
getHyphenContext(prevBP, bp));
if (inlineLC.getHyphContext() == null)
break;
inlineLC.setFlags(LayoutContext.TRY_HYPHENATE,
true);
// Reset to previous acceptable break
reset();
}
/* If we are not in justified text, we can end the line at
* prevBP.
*/
else {
break;
}
} else {
// Add the BP to the list whether or not we can break
vecInlineBreaks.add(bp);
// Handle end of this LM's areas
if (bBreakOK) {
prevBP = bp; // Save reference to this BP
if (bp.isForcedBreak()) {
break;
}
if (bpDim.max >= availIPD.min) {
/* This is a possible line BP (line could be filled)
* bpDim.max >= availIPD.min
* Keep this as a possible break, depending on
* "cost". We will choose lowest cost.
* Cost depends on stretch
* (ie, bpDim.opt closes to availIPD.opt), keeps
* and hyphenation.
*/
vecPossEnd.add( new BreakCost(bp,
Math.abs(availIPD.opt - bpDim.opt)));
}
// Otherwise it's short
} else {
/* Can't end line here. */
}
} // end of bpDim.min <= availIPD.max
} // end of getNextBreakPoss!=null on current child LM
else {
/* The child LM can return a null BreakPoss if it has
* nothing (more) to layout. This can happen when backing
* up. Just try the next child LM.
*/
}
if (inlineLC.tryHyphenate() &&
!inlineLC.getHyphContext().hasMoreHyphPoints()) {
break;
}
} // end of while on child LM
if ((curLM = getChildLM()) == null) {
// No more content to layout!
setFinished(true);
}
if (bp == null)
return null;
if (prevBP == null)
prevBP = bp;
// Choose the best break
if (!bp.isForcedBreak() && vecPossEnd.size() > 0) {
prevBP = getBestBP(vecPossEnd);
}
// Backup child LM if necessary
if (bp != prevBP && !bp.couldEndLine()) {
reset();
}
// Don't justify last line in the sequence or if forced line-end
int talign = bTextAlignment;
if ((bTextAlignment == TextAlign.JUSTIFY
&& (prevBP.isForcedBreak()
|| isFinished()))) {
talign = TextAlign.START;
}
return makeLineBreak(iPrevLineEnd, availIPD, talign);
}
private void reset() {
while (vecInlineBreaks.get(vecInlineBreaks.size() - 1) != prevBP) {
vecInlineBreaks.remove(vecInlineBreaks.size() - 1);
}
reset(prevBP.getPosition());
}
protected boolean couldEndLine(BreakPoss bp) {
if (bp.canBreakAfter()) {
return true; // no keep, ends on break char
} else if (bp.isSuppressible()) {
// NOTE: except at end of content for this LM!!
// Never break after only space chars or any other sequence
// of areas which would be suppressed at the end of the line.
return false;
} else {
// See if could break before next area
// TODO: do we need to set anything on the layout context?
LayoutContext lc = new LayoutContext(0);
LayoutManager nextLM = getChildLM();
return (nextLM == null || nextLM.canBreakBefore(lc));
}
}
private BreakPoss getBestBP(ArrayList vecPossEnd) {
if (vecPossEnd.size() == 1) {
return ((BreakCost) vecPossEnd.get(0)).getBP();
}
// Choose the best break (use a sort on cost!)
Iterator iter = vecPossEnd.iterator();
int minCost = Integer.MAX_VALUE;
BreakPoss bestBP = null;
while (iter.hasNext()) {
BreakCost bc = (BreakCost) iter.next();
if (bc.getCost() < minCost) {
minCost = bc.getCost();
bestBP = bc.getBP();
}
}
return bestBP;
}
/** Line area is always considered to act as a fence. */
protected boolean hasLeadingFence(boolean bNotFirst) {
return true;
}
/** Line area is always considered to act as a fence. */
protected boolean hasTrailingFence(boolean bNotLast) {
return true;
}
private HyphContext getHyphenContext(BreakPoss prev,
BreakPoss newBP) {
// Get a "word" to hyphenate by getting characters from all
// pending break poss which are in vecInlineBreaks, starting
// with the position just AFTER prev.getPosition()
vecInlineBreaks.add(newBP);
ListIterator bpIter =
vecInlineBreaks. listIterator(vecInlineBreaks.size());
while (bpIter.hasPrevious() && bpIter.previous() != prev) {
}
if (bpIter.next() != prev) {
getLogger().error("findHyphenPoss: problem!");
return null;
}
StringBuffer sbChars = new StringBuffer(30);
while (bpIter.hasNext()) {
BreakPoss bp = (BreakPoss) bpIter.next();
if (bp.getLayoutManager() == prev.getLayoutManager()) {
bp.getLayoutManager().getWordChars(sbChars,
prev.getPosition(), bp.getPosition());
} else {
bp.getLayoutManager().getWordChars(sbChars, null,
bp.getPosition());
}
prev = bp;
}
vecInlineBreaks.remove(vecInlineBreaks.size() - 1); // remove last
getLogger().debug("Word to hyphenate: " + sbChars.toString());
// Now find all hyphenation points in this word (get in an array of offsets)
// hyphProps are from the block level?. Note that according to the spec,
// they also "apply to" fo:character. I don't know what that means, since
// if we change language in the middle of a "word", the effect would seem
// quite strange! Or perhaps in that case, we say that it's several words.
// We probably should bring the hyphenation props up from the actual
// TextLM which generate the hyphenation buffer, since these properties
// inherit and could be specified on an inline or wrapper below the block
// level.
Hyphenation hyph = Hyphenator.hyphenate(hyphProps.language,
hyphProps.country, sbChars.toString(),
hyphProps.hyphenationRemainCharacterCount,
hyphProps.hyphenationPushCharacterCount);
// They hyph structure contains the information we need
// Now start from prev: reset to that position, ask that LM to get
// a Position for the first hyphenation offset. If the offset isn't in
// its characters, it returns null, but must tell how many chars it had.
// Keep looking at currentBP using next hyphenation point until the
// returned size is greater than the available size or no more hyphenation
// points remain. Choose the best break.
if (hyph != null) {
return new HyphContext(hyph.getHyphenationPoints());
} else {
return null;
}
}
/**
* Make a line break for returning as the next break.
* This makes the line break and calculates the height and
* ipd adjustment factors.
*
* @param prevLineEnd previous line break index
* @param target the target ipd value
* @param textalign the text align in operation for this line
* @return the line break position
*/
private BreakPoss makeLineBreak(int prevLineEnd, MinOptMax target,
int textalign) {
// make a new BP
// Store information needed to make areas in the LineBreakPosition!
// lead to baseline is
// max of: baseline fixed alignment and middle/2
// after baseline is
// max: top height-lead, middle/2 and bottom height-lead
int halfLeading = (lineHeight - lead - follow) / 2;
// height before baseline
int lineLead = lead + halfLeading;
// maximum size of top and bottom alignment
int maxtb = follow + halfLeading;
// max size of middle alignment below baseline
int middlefollow = maxtb;
// calculate actual ipd
MinOptMax actual = new MinOptMax();
BreakPoss lastBP = null;
LayoutManager lastLM = null;
for(Iterator iter = vecInlineBreaks.listIterator(prevLineEnd);
iter.hasNext(); ) {
BreakPoss bp = (BreakPoss)iter.next();
if (bp.getLead() > lineLead) {
lineLead = bp.getLead();
}
if (bp.getTotal() > maxtb) {
maxtb = bp.getTotal();
}
if (bp.getMiddle() > middlefollow) {
middlefollow = bp.getMiddle();
}
// the stacking size of textLM accumulate for each break
// so the ipd is only added at the end of each LM
if (bp.getLayoutManager() != lastLM) {
if (lastLM != null) {
actual.add(lastBP.getStackingSize());
}
lastLM = bp.getLayoutManager();
}
lastBP = bp;
}
if (lastBP != null) {
// add final ipd
actual.add(lastBP.getStackingSize());
// ATTENTION: make sure this hasn't gotten start space for next
// LM added onto it!
actual.add(lastBP.resolveTrailingSpace(true));
}
if (maxtb - lineLead > middlefollow) {
middlefollow = maxtb - lineLead;
}
// in 7.21.4 the spec suggests that the leader and other
// similar min/opt/max areas should be adjusted before
// adjusting word spacing
// Calculate stretch or shrink factor
double ipdAdjust = 0;
int targetWith = target.opt;
int realWidth = actual.opt;
if (actual.opt > targetWith) {
if (actual.opt - targetWith <
(actual.opt - actual.min)) {
ipdAdjust = -(actual.opt - targetWith) /
(float)(actual.opt - actual.min);
realWidth = targetWith;
} else {
ipdAdjust = -1;
realWidth = actual.max;
}
} else {
if (targetWith - actual.opt <
actual.max - actual.opt) {
ipdAdjust = (targetWith - actual.opt) /
(float)(actual.max - actual.opt);
realWidth = targetWith;
} else {
ipdAdjust = 1;
realWidth = actual.min;
}
}
// if justifying then set the space adjustment
// after the normal ipd adjustment
double dAdjust = 0.0;
int indent = 0;
switch (textalign) {
case TextAlign.JUSTIFY:
if (realWidth != 0) {
dAdjust = (targetWith - realWidth) / realWidth;
}
break;
case TextAlign.START:
//indent = 0;
break;
case TextAlign.CENTER:
indent = (targetWith - realWidth) / 2;
break;
case TextAlign.END:
indent = targetWith - realWidth;
break;
}
LineBreakPosition lbp;
lbp = new LineBreakPosition(this,
vecInlineBreaks.size() - 1,
ipdAdjust, dAdjust, indent,
lineLead + middlefollow, lineLead);
BreakPoss curLineBP = new BreakPoss(lbp);
curLineBP.setFlag(BreakPoss.ISLAST, isFinished());
curLineBP.setStackingSize(new MinOptMax(lineLead + middlefollow));
return curLineBP;
}
/**
* Reset the positions to the given position.
*
* @param resetPos the position to reset to
*/
public void resetPosition(Position resetPos) {
if (resetPos == null) {
iStartPos = 0;
reset(null);
vecInlineBreaks.clear();
prevBP = null;
} else {
prevBP = (BreakPoss)vecInlineBreaks.get(((LineBreakPosition)resetPos).getLeafPos());
while (vecInlineBreaks.get(vecInlineBreaks.size() - 1) != prevBP)
{
vecInlineBreaks.remove(vecInlineBreaks.size() - 1);
}
reset(prevBP.getPosition());
}
}
/**
* Add the areas with the break points.
*
* @param parentIter the iterator of break positions
* @param context the context for adding areas
*/
public void addAreas(PositionIterator parentIter,
LayoutContext context) {
addAreas(parentIter, 0.0);
//vecInlineBreaks.clear();
prevBP = null;
}
// Generate and add areas to parent area
// Set size etc
// dSpaceAdjust should reference extra space in the BPD
/**
* Add the areas with the associated space adjustment.
*
* @param parentIter the iterator of breaks positions
* @param dSpaceAdjust the space adjustment
*/
public void addAreas(PositionIterator parentIter, double dSpaceAdjust) {
LayoutManager childLM;
LayoutContext lc = new LayoutContext(0);
while (parentIter.hasNext()) {
LineBreakPosition lbp = (LineBreakPosition) parentIter.next();
LineArea lineArea = new LineArea();
lineArea.setStartIndent(lbp.startIndent);
lineArea.setHeight(lbp.lineHeight);
lc.setBaseline(lbp.baseline);
lc.setLineHeight(lbp.lineHeight);
setCurrentArea(lineArea);
// Add the inline areas to lineArea
PositionIterator inlinePosIter =
new BreakPossPosIter(vecInlineBreaks, iStartPos,
lbp.getLeafPos() + 1);
iStartPos = lbp.getLeafPos() + 1;
lc.setSpaceAdjust(lbp.dAdjust);
lc.setIPDAdjust(lbp.ipdAdjust);
lc.setLeadingSpace(new SpaceSpecifier(true));
lc.setFlags(LayoutContext.RESOLVE_LEADING_SPACE, true);
setChildContext(lc);
while ((childLM = inlinePosIter.getNextChildLM()) != null) {
childLM.addAreas(inlinePosIter, lc);
lc.setLeadingSpace(lc.getTrailingSpace());
lc.setTrailingSpace(new SpaceSpecifier(false));
}
// when can this be null?
if(lc.getTrailingSpace() != null) {
addSpace(lineArea, lc.getTrailingSpace().resolve(true),
lc.getSpaceAdjust());
}
parentLM.addChild(lineArea);
}
setCurrentArea(null); // ?? necessary
}
/**
* Add an unresolved area.
* If a child layout manager needs to add an unresolved area
* for page reference or linking then this intercepts it for
* line area handling.
* A line area may need to have the inline areas adjusted
* to properly fill the line area. This adds a resolver that
* resolves the inline area and can do the necessary
* adjustments to the line and inline areas.
*
* @param id the id reference of the resolveable
* @param res the resolveable object
*/
public void addUnresolvedArea(String id, Resolveable res) {
// create a resolveable class that handles ipd
// adjustment for the current line
parentLM.addUnresolvedArea(id, res);
}
}
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