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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.table;
import java.util.ArrayList;
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.fo.Constants;
import org.apache.fop.fo.flow.table.ConditionalBorder;
import org.apache.fop.fo.flow.table.EffRow;
import org.apache.fop.fo.flow.table.PrimaryGridUnit;
import org.apache.fop.fo.properties.CommonBorderPaddingBackground;
import org.apache.fop.layoutmgr.ElementListUtils;
import org.apache.fop.layoutmgr.Keep;
import org.apache.fop.layoutmgr.KnuthBlockBox;
import org.apache.fop.layoutmgr.KnuthBox;
import org.apache.fop.layoutmgr.KnuthElement;
import org.apache.fop.layoutmgr.KnuthPenalty;
import org.apache.fop.layoutmgr.MinOptMaxUtil;
import org.apache.fop.traits.MinOptMax;
/**
* A cell playing in the construction of steps for a row-group.
*/
class ActiveCell {
private static Log log = LogFactory.getLog(ActiveCell.class);
private PrimaryGridUnit pgu;
/** Knuth elements for this active cell. */
private List elementList;
/** Iterator over the Knuth element list. */
private ListIterator knuthIter;
/** Number of the row where the row-span ends, zero-based. */
private int endRowIndex;
/** Length of the Knuth elements not yet included in the steps. */
private int remainingLength;
/** Total length of this cell's content plus the lengths of the previous rows. */
private int totalLength;
/** Length of the Knuth elements already included in the steps. */
private int includedLength;
private int paddingBeforeNormal;
private int paddingBeforeLeading;
private int paddingAfterNormal;
private int paddingAfterTrailing;
private int bpBeforeNormal;
private int bpBeforeLeading;
private int bpAfterNormal;
private int bpAfterTrailing;
/** True if the next CellPart that will be created will be the last one for this cell. */
private boolean lastCellPart;
private Keep keepWithNext;
private int spanIndex = 0;
private Step previousStep;
private Step nextStep;
/**
* The step following nextStep. Computing it early allows to calculate
* {@link Step#condBeforeContentLength}, thus to easily determine the remaining
* length. That also helps for {@link #increaseCurrentStep(int)}.
*/
private Step afterNextStep;
/**
* Auxiliary class to store all the informations related to a breaking step.
*/
private static class Step {
/** Index, in the list of Knuth elements, of the element starting this step. */
private int start;
/** Index, in the list of Knuth elements, of the element ending this step. */
private int end;
/** Length of the Knuth elements up to this step. */
private int contentLength;
/** Total length up to this step, including paddings and borders. */
private int totalLength;
/** Length of the penalty ending this step, if any. */
private int penaltyLength;
/** Value of the penalty ending this step, 0 if the step does not end on a penalty. */
private int penaltyValue;
/** List of footnotes for this step. */
private List footnoteList;
/**
* One of {@link Constants#EN_AUTO}, {@link Constants#EN_COLUMN},
* {@link Constants#EN_PAGE}, {@link Constants#EN_EVEN_PAGE},
* {@link Constants#EN_ODD_PAGE}. Set to auto if the break isn't at a penalty
* element.
*/
private int breakClass;
/**
* Length of the optional content at the beginning of the step. That is, content
* that will not appear if this step starts a new page.
*/
private int condBeforeContentLength;
Step(int contentLength) {
this.contentLength = contentLength;
this.end = -1;
}
Step(Step other) {
set(other);
}
void set(Step other) {
this.start = other.start;
this.end = other.end;
this.contentLength = other.contentLength;
this.totalLength = other.totalLength;
this.penaltyLength = other.penaltyLength;
this.penaltyValue = other.penaltyValue;
if (other.footnoteList != null) {
if (this.footnoteList == null) {
this.footnoteList = new ArrayList();
}
this.footnoteList.addAll(other.footnoteList);
}
this.condBeforeContentLength = other.condBeforeContentLength;
this.breakClass = other.breakClass;
}
/** {@inheritDoc} */
public String toString() {
return "Step: start=" + start + " end=" + end + " length=" + totalLength;
}
}
// TODO to be removed along with the RowPainter#computeContentLength method
/** See {@link ActiveCell#handleExplicitHeight(MinOptMax, MinOptMax)}. */
private static class FillerPenalty extends KnuthPenalty {
private int contentLength;
FillerPenalty(KnuthPenalty p, int length) {
super(length, p.getPenalty(), p.isPenaltyFlagged(), p.getBreakClass(),
p.getPosition(), p.isAuxiliary());
contentLength = p.getWidth();
}
FillerPenalty(int length) {
super(length, 0, false, null, true);
contentLength = 0;
}
}
/** See {@link ActiveCell#handleExplicitHeight(MinOptMax, MinOptMax)}. */
private static class FillerBox extends KnuthBox {
FillerBox(int length) {
super(length, null, true);
}
}
/**
* Returns the actual length of the content represented by the given element. In the
* case where this element is used as a filler to match a row's fixed height, the
* value returned by the getW() method will be higher than the actual content.
*
* @param el an element
* @return the actual content length corresponding to the element
*/
static int getElementContentLength(KnuthElement el) {
if (el instanceof FillerPenalty) {
return ((FillerPenalty) el).contentLength;
} else if (el instanceof FillerBox) {
return 0;
} else {
return el.getWidth();
}
}
ActiveCell(PrimaryGridUnit pgu, EffRow row, int rowIndex, int previousRowsLength,
TableLayoutManager tableLM) {
this.pgu = pgu;
CommonBorderPaddingBackground bordersPaddings = pgu.getCell()
.getCommonBorderPaddingBackground();
TableCellLayoutManager cellLM = pgu.getCellLM();
paddingBeforeNormal = bordersPaddings.getPaddingBefore(false, cellLM);
paddingBeforeLeading = bordersPaddings.getPaddingBefore(true, cellLM);
paddingAfterNormal = bordersPaddings.getPaddingAfter(false, cellLM);
paddingAfterTrailing = bordersPaddings.getPaddingAfter(true, cellLM);
bpBeforeNormal = paddingBeforeNormal
+ pgu.getBeforeBorderWidth(0, ConditionalBorder.NORMAL);
bpBeforeLeading = paddingBeforeLeading
+ pgu.getBeforeBorderWidth(0, ConditionalBorder.REST);
bpAfterNormal = paddingAfterNormal + pgu.getAfterBorderWidth(ConditionalBorder.NORMAL);
bpAfterTrailing = paddingAfterTrailing + pgu.getAfterBorderWidth(0, ConditionalBorder.REST);
elementList = pgu.getElements();
handleExplicitHeight(
MinOptMaxUtil.toMinOptMax(pgu.getCell().getBlockProgressionDimension(), tableLM),
row.getExplicitHeight());
knuthIter = elementList.listIterator();
includedLength = -1; // Avoid troubles with cells having content of zero length
totalLength = previousRowsLength + ElementListUtils.calcContentLength(elementList);
endRowIndex = rowIndex + pgu.getCell().getNumberRowsSpanned() - 1;
keepWithNext = Keep.KEEP_AUTO;
remainingLength = totalLength - previousRowsLength;
afterNextStep = new Step(previousRowsLength);
previousStep = new Step(afterNextStep);
gotoNextLegalBreak();
nextStep = new Step(afterNextStep);
if (afterNextStep.end < elementList.size() - 1) {
gotoNextLegalBreak();
}
}
/**
* Modifies the cell's element list by putting filler elements, so that the cell's or
* row's explicit height is always reached.
*
* TODO this will work properly only for the first break. Then the limitation
* explained on http://wiki.apache.org/xmlgraphics-fop/TableLayout/KnownProblems
* occurs. The list of elements needs to be re-adjusted after each break.
*/
private void handleExplicitHeight(MinOptMax cellBPD, MinOptMax rowBPD) {
int minBPD = Math.max(cellBPD.min, rowBPD.min);
if (minBPD > 0) {
ListIterator iter = elementList.listIterator();
int cumulateLength = 0;
boolean prevIsBox = false;
while (iter.hasNext() && cumulateLength < minBPD) {
KnuthElement el = (KnuthElement) iter.next();
if (el.isBox()) {
prevIsBox = true;
cumulateLength += el.getWidth();
} else if (el.isGlue()) {
if (prevIsBox) {
elementList.add(iter.nextIndex() - 1,
new FillerPenalty(minBPD - cumulateLength));
}
prevIsBox = false;
cumulateLength += el.getWidth();
} else {
prevIsBox = false;
if (cumulateLength + el.getWidth() < minBPD) {
iter.set(new FillerPenalty((KnuthPenalty) el, minBPD - cumulateLength));
}
}
}
}
int optBPD = Math.max(minBPD, Math.max(cellBPD.opt, rowBPD.opt));
if (pgu.getContentLength() < optBPD) {
elementList.add(new FillerBox(optBPD - pgu.getContentLength()));
}
}
PrimaryGridUnit getPrimaryGridUnit() {
return pgu;
}
/**
* Returns true if this cell ends on the given row.
*
* @param rowIndex index of a row in the row-group, zero-based
* @return true if this cell ends on the given row
*/
boolean endsOnRow(int rowIndex) {
return rowIndex == endRowIndex;
}
/**
* Returns the length of this cell's content not yet included in the steps, plus the
* cell's borders and paddings if applicable.
*
* @return the remaining length, zero if the cell is finished
*/
int getRemainingLength() {
if (includedInLastStep() && (nextStep.end == elementList.size() - 1)) {
// The cell is finished
return 0;
} else {
return bpBeforeLeading + remainingLength + bpAfterNormal;
}
}
private void gotoNextLegalBreak() {
afterNextStep.penaltyLength = 0;
afterNextStep.penaltyValue = 0;
afterNextStep.condBeforeContentLength = 0;
afterNextStep.breakClass = Constants.EN_AUTO;
if (afterNextStep.footnoteList != null) {
afterNextStep.footnoteList.clear();
}
boolean breakFound = false;
boolean prevIsBox = false;
boolean boxFound = false;
while (!breakFound && knuthIter.hasNext()) {
KnuthElement el = (KnuthElement) knuthIter.next();
if (el.isPenalty()) {
prevIsBox = false;
if (el.getPenalty() < KnuthElement.INFINITE
|| ((KnuthPenalty) el).getBreakClass() == Constants.EN_PAGE) {
// TODO too much is being done in that test, only to handle
// keep.within-column properly.
// First legal break point
breakFound = true;
KnuthPenalty p = (KnuthPenalty) el;
afterNextStep.penaltyLength = p.getWidth();
afterNextStep.penaltyValue = p.getPenalty();
if (p.isForcedBreak()) {
afterNextStep.breakClass = p.getBreakClass();
}
}
} else if (el.isGlue()) {
if (prevIsBox) {
// Second legal break point
breakFound = true;
} else {
afterNextStep.contentLength += el.getWidth();
if (!boxFound) {
afterNextStep.condBeforeContentLength += el.getWidth();
}
}
prevIsBox = false;
} else {
if (el instanceof KnuthBlockBox && ((KnuthBlockBox) el).hasAnchors()) {
if (afterNextStep.footnoteList == null) {
afterNextStep.footnoteList = new LinkedList();
}
afterNextStep.footnoteList.addAll(((KnuthBlockBox) el).getFootnoteBodyLMs());
}
prevIsBox = true;
boxFound = true;
afterNextStep.contentLength += el.getWidth();
}
}
afterNextStep.end = knuthIter.nextIndex() - 1;
afterNextStep.totalLength = bpBeforeNormal
+ afterNextStep.contentLength + afterNextStep.penaltyLength
+ bpAfterTrailing;
}
/**
* Returns the minimal step that is needed for this cell to contribute some content.
*
* @return the step for this cell's first legal break
*/
int getFirstStep() {
log.debug(this + ": min first step = " + nextStep.totalLength);
return nextStep.totalLength;
}
/**
* Returns the last step for this cell. This includes the normal border- and
* padding-before, the whole content, the normal padding-after, and the
* <em>trailing</em> after border. Indeed, if the normal border is taken instead,
* and appears to be smaller than the trailing one, the last step may be smaller than
* the current step (see TableStepper#considerRowLastStep). This will produce a wrong
* infinite penalty, plus the cell's content won't be taken into account since the
* final step will be smaller than the current one (see {@link #signalNextStep(int)}).
* This actually means that the content will be swallowed.
*
* @return the length of last step
*/
int getLastStep() {
assert nextStep.end == elementList.size() - 1;
assert nextStep.contentLength == totalLength && nextStep.penaltyLength == 0;
int lastStep = bpBeforeNormal + totalLength + paddingAfterNormal
+ pgu.getAfterBorderWidth(ConditionalBorder.LEADING_TRAILING);
log.debug(this + ": last step = " + lastStep);
return lastStep;
}
/**
* Increases the next step up to the given limit.
*
* @param limit the length up to which the next step is allowed to increase
* @see #signalRowFirstStep(int)
* @see #signalRowLastStep(int)
*/
private void increaseCurrentStep(int limit) {
if (nextStep.end < elementList.size() - 1) {
while (afterNextStep.totalLength <= limit && nextStep.breakClass == Constants.EN_AUTO) {
nextStep.set(afterNextStep);
if (afterNextStep.end >= elementList.size() - 1) {
break;
}
gotoNextLegalBreak();
}
}
}
/**
* Gets the selected first step for the current row. If this cell's first step is
* smaller, then it may be able to add some more of its content, since there will be
* no break before the given step anyway.
*
* @param firstStep the current row's first step
*/
void signalRowFirstStep(int firstStep) {
increaseCurrentStep(firstStep);
if (log.isTraceEnabled()) {
log.trace(this + ": first step increased to " + nextStep.totalLength);
}
}
/** See {@link #signalRowFirstStep(int)}. */
void signalRowLastStep(int lastStep) {
increaseCurrentStep(lastStep);
if (log.isTraceEnabled()) {
log.trace(this + ": next step increased to " + nextStep.totalLength);
}
}
/**
* Returns the total length up to the next legal break, not yet included in the steps.
*
* @return the total length up to the next legal break (-1 signals no further step)
*/
int getNextStep() {
if (includedInLastStep()) {
previousStep.set(nextStep);
if (nextStep.end >= elementList.size() - 1) {
nextStep.start = elementList.size();
return -1;
} else {
nextStep.set(afterNextStep);
nextStep.start = previousStep.end + 1;
afterNextStep.start = nextStep.start;
if (afterNextStep.end < elementList.size() - 1) {
gotoNextLegalBreak();
}
}
}
return nextStep.totalLength;
}
private boolean includedInLastStep() {
return includedLength == nextStep.contentLength;
}
/**
* Signals the length of the chosen next step, so that this cell determines whether
* its own step may be included or not.
*
* @param minStep length of the chosen next step
* @return the break class of the step, if any. One of {@link Constants#EN_AUTO},
* {@link Constants#EN_COLUMN}, {@link Constants#EN_PAGE},
* {@link Constants#EN_EVEN_PAGE}, {@link Constants#EN_ODD_PAGE}. EN_AUTO if this
* cell's step is not included in the next step.
*/
int signalNextStep(int minStep) {
if (nextStep.totalLength <= minStep) {
includedLength = nextStep.contentLength;
remainingLength = totalLength - includedLength - afterNextStep.condBeforeContentLength;
return nextStep.breakClass;
} else {
return Constants.EN_AUTO;
}
}
/**
* Receives indication that the next row is about to start, and that (collapse)
* borders must be updated accordingly.
*/
void nextRowStarts() {
spanIndex++;
// Subtract the old value of bpAfterTrailing...
nextStep.totalLength -= bpAfterTrailing;
afterNextStep.totalLength -= bpAfterTrailing;
bpAfterTrailing = paddingAfterTrailing
+ pgu.getAfterBorderWidth(spanIndex, ConditionalBorder.REST);
// ... and add the new one
nextStep.totalLength += bpAfterTrailing;
afterNextStep.totalLength += bpAfterTrailing;
// TODO if the new after border is greater than the previous one the next step may
// increase further than the row's first step, which can lead to wrong output in
// some cases
}
/**
* Receives indication that the current row is ending, and that (collapse) borders
* must be updated accordingly.
*
* @param rowIndex the index of the ending row
*/
void endRow(int rowIndex) {
if (endsOnRow(rowIndex)) {
// Subtract the old value of bpAfterTrailing...
nextStep.totalLength -= bpAfterTrailing;
bpAfterTrailing = paddingAfterNormal
+ pgu.getAfterBorderWidth(ConditionalBorder.LEADING_TRAILING);
// ... and add the new one
nextStep.totalLength += bpAfterTrailing;
lastCellPart = true;
} else {
bpBeforeLeading = paddingBeforeLeading
+ pgu.getBeforeBorderWidth(spanIndex + 1, ConditionalBorder.REST);
}
}
/**
* Returns true if this cell would be finished after the given step. That is, it would
* be included in the step and the end of its content would be reached.
*
* @param step the next step
* @return true if this cell finishes at the given step
*/
boolean finishes(int step) {
return nextStep.totalLength <= step && (nextStep.end == elementList.size() - 1);
}
/**
* Creates and returns a CellPart instance for the content of this cell which
* is included in the next step.
*
* @return a CellPart instance
*/
CellPart createCellPart() {
if (nextStep.end + 1 == elementList.size()) {
keepWithNext = pgu.getKeepWithNext();
// TODO if keep-with-next is set on the row, must every cell of the row
// contribute some content from children blocks?
// see http://mail-archives.apache.org/mod_mbox/xmlgraphics-fop-dev/200802.mbox/
// %3c47BDA379.4050606@anyware-tech.com%3e
// Assuming no, but if yes the following code should enable this behaviour
// if (pgu.getRow() != null && pgu.getRow().mustKeepWithNext()) {
// keepWithNextSignal = true; //to be converted to integer strengths
// }
}
int bpBeforeFirst;
if (nextStep.start == 0) {
bpBeforeFirst = pgu.getBeforeBorderWidth(0, ConditionalBorder.LEADING_TRAILING)
+ paddingBeforeNormal;
} else {
bpBeforeFirst = bpBeforeLeading;
}
int length = nextStep.contentLength - nextStep.condBeforeContentLength
- previousStep.contentLength;
if (!includedInLastStep() || nextStep.start == elementList.size()) {
return new CellPart(pgu, nextStep.start, previousStep.end, lastCellPart,
0, 0, previousStep.penaltyLength,
bpBeforeNormal, bpBeforeFirst, bpAfterNormal, bpAfterTrailing);
} else {
return new CellPart(pgu, nextStep.start, nextStep.end, lastCellPart,
nextStep.condBeforeContentLength, length, nextStep.penaltyLength,
bpBeforeNormal, bpBeforeFirst, bpAfterNormal, bpAfterTrailing);
}
}
/**
* Adds the footnotes (if any) that are part of the next step, if this cell
* contributes content to the next step.
*
* @param footnoteList the list to which this cell must add its footnotes
*/
void addFootnotes(List footnoteList) {
if (includedInLastStep() && nextStep.footnoteList != null) {
footnoteList.addAll(nextStep.footnoteList);
nextStep.footnoteList.clear();
}
}
Keep getKeepWithNext() {
return keepWithNext;
}
int getPenaltyValue() {
if (includedInLastStep()) {
return nextStep.penaltyValue;
} else {
return previousStep.penaltyValue;
}
}
/** {@inheritDoc} */
public String toString() {
return "Cell " + (pgu.getRowIndex() + 1) + "." + (pgu.getColIndex() + 1);
}
}
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