What Is fop.jar in fop-2.7-bin.zip
What Is fop.jar? I got it from the fop-2.7-bin.zip.
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fop.jar in fop-2.7-bin.zip is the JAR file for FOP 2.7, which
is a print formatter driven by XSL formatting objects (XSL-FO).
You can obtain fop.jar from the build folder of the fop-2.7-bin.zip file.
Below is the information about the fop.jar (2.2) file:
JAR File Size and Download Location:
JAR name: fop.jar, fop-2.7.jar Target JDK version: 1.7 File name: fop.jar File size: 4442817 bytes Release date: 20-Jan-2022 Download: Apache FOP Website
Java source code files for fop.jar:
⏎ org/apache/fop/layoutmgr/table/TableStepper.java
/*
* 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: TableStepper.java 1872250 2020-01-02 16:28:29Z ssteiner $ */
package org.apache.fop.layoutmgr.table;
import java.util.Iterator;
import java.util.LinkedList;
import java.util.List;
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.EffRow;
import org.apache.fop.fo.flow.table.GridUnit;
import org.apache.fop.fo.flow.table.PrimaryGridUnit;
import org.apache.fop.layoutmgr.BlockStackingLayoutManager;
import org.apache.fop.layoutmgr.BreakElement;
import org.apache.fop.layoutmgr.Keep;
import org.apache.fop.layoutmgr.KnuthBlockBox;
import org.apache.fop.layoutmgr.KnuthBox;
import org.apache.fop.layoutmgr.KnuthGlue;
import org.apache.fop.layoutmgr.KnuthPenalty;
import org.apache.fop.layoutmgr.LayoutContext;
import org.apache.fop.layoutmgr.LayoutManager;
import org.apache.fop.layoutmgr.Position;
import org.apache.fop.util.BreakUtil;
/**
* This class processes row groups to create combined element lists for tables.
*/
public class TableStepper {
/** Logger **/
private static Log log = LogFactory.getLog(TableStepper.class);
private TableContentLayoutManager tclm;
private EffRow[] rowGroup;
/** Number of columns in the row group. */
private int columnCount;
private int totalHeight;
private int previousRowsLength;
private int activeRowIndex;
private boolean rowFinished;
/** Cells spanning the current row. */
private List activeCells = new LinkedList();
/** Cells that will start the next row. */
private List nextActiveCells = new LinkedList();
/**
* True if the next row is being delayed, that is, if cells spanning the current and
* the next row have steps smaller than the next row's first step. In this case the
* next row may be extended to offer additional break possibilities.
*/
private boolean delayingNextRow;
/**
* The first step for a row. This is the minimal step necessary to include some
* content from all the cells starting the row.
*/
private int rowFirstStep;
/**
* Flag used to produce an infinite penalty if the height of the current row is
* smaller than the first step for that row (may happen with row-spanning cells).
*
* @see #considerRowLastStep(int)
*/
private boolean rowHeightSmallerThanFirstStep;
/**
* The class of the next break. One of {@link Constants#EN_AUTO},
* {@link Constants#EN_COLUMN}, {@link Constants#EN_PAGE},
* {@link Constants#EN_EVEN_PAGE}, {@link Constants#EN_ODD_PAGE}. Defaults to
* EN_AUTO.
*/
private int nextBreakClass;
/**
* Main constructor
* @param tclm The parent TableContentLayoutManager
*/
public TableStepper(TableContentLayoutManager tclm) {
this.tclm = tclm;
this.columnCount = tclm.getTableLM().getTable().getNumberOfColumns();
}
/**
* Initializes the fields of this instance to handle a new row group.
*
* @param rows the new row group to handle
*/
private void setup(EffRow[] rows) {
rowGroup = rows;
previousRowsLength = 0;
activeRowIndex = 0;
activeCells.clear();
nextActiveCells.clear();
delayingNextRow = false;
rowFirstStep = 0;
rowHeightSmallerThanFirstStep = false;
}
private void calcTotalHeight() {
totalHeight = 0;
for (EffRow aRowGroup : rowGroup) {
totalHeight += aRowGroup.getHeight().getOpt();
}
if (log.isDebugEnabled()) {
log.debug("totalHeight=" + totalHeight);
}
}
private int getMaxRemainingHeight() {
int maxW = 0;
for (Object activeCell1 : activeCells) {
ActiveCell activeCell = (ActiveCell) activeCell1;
int remain = activeCell.getRemainingLength();
PrimaryGridUnit pgu = activeCell.getPrimaryGridUnit();
for (int i = activeRowIndex + 1; i < pgu.getRowIndex() - rowGroup[0].getIndex()
+ pgu.getCell().getNumberRowsSpanned(); i++) {
remain -= rowGroup[i].getHeight().getOpt();
}
maxW = Math.max(maxW, remain);
}
for (int i = activeRowIndex + 1; i < rowGroup.length; i++) {
maxW += rowGroup[i].getHeight().getOpt();
}
return maxW;
}
/**
* Creates ActiveCell instances for cells starting on the row at the given index.
*
* @param activeCellList the list that will hold the active cells
* @param rowIndex the index of the row from which cells must be activated
*/
private void activateCells(List activeCellList, int rowIndex) {
EffRow row = rowGroup[rowIndex];
for (int i = 0; i < columnCount; i++) {
GridUnit gu = row.getGridUnit(i);
if (!gu.isEmpty() && gu.isPrimary()) {
assert (gu instanceof PrimaryGridUnit);
activeCellList.add(new ActiveCell((PrimaryGridUnit) gu, row, rowIndex,
previousRowsLength, getTableLM()));
}
}
}
/**
* Creates the combined element list for a row group.
* @param context Active LayoutContext
* @param rows the row group
* @param bodyType Indicates what type of body is processed (body, header or footer)
* @return the combined element list
*/
public LinkedList getCombinedKnuthElementsForRowGroup(LayoutContext context, EffRow[] rows,
int bodyType) {
setup(rows);
activateCells(activeCells, 0);
calcTotalHeight();
int cumulateLength = 0; // Length of the content accumulated before the break
TableContentPosition lastTCPos = null;
LinkedList returnList = new LinkedList();
int laststep = 0;
int step = getFirstStep();
do {
int maxRemainingHeight = getMaxRemainingHeight();
int penaltyOrGlueLen = step + maxRemainingHeight - totalHeight;
int boxLen = step - cumulateLength - Math.max(0, penaltyOrGlueLen)/* penalty, if any */;
cumulateLength += boxLen + Math.max(0, -penaltyOrGlueLen)/* the glue, if any */;
if (log.isDebugEnabled()) {
log.debug("Next step: " + step + " (+" + (step - laststep) + ")");
log.debug(" max remaining height: " + maxRemainingHeight);
if (penaltyOrGlueLen >= 0) {
log.debug(" box = " + boxLen + " penalty = " + penaltyOrGlueLen);
} else {
log.debug(" box = " + boxLen + " glue = " + (-penaltyOrGlueLen));
}
}
LinkedList footnoteList = new LinkedList();
//Put all involved grid units into a list
List cellParts = new java.util.ArrayList(activeCells.size());
for (Object activeCell2 : activeCells) {
ActiveCell activeCell = (ActiveCell) activeCell2;
CellPart part = activeCell.createCellPart();
cellParts.add(part);
activeCell.addFootnotes(footnoteList);
}
//Create elements for step
TableContentPosition tcpos = new TableContentPosition(getTableLM(),
cellParts, rowGroup[activeRowIndex]);
if (delayingNextRow) {
tcpos.setNewPageRow(rowGroup[activeRowIndex + 1]);
}
if (returnList.size() == 0) {
tcpos.setFlag(TableContentPosition.FIRST_IN_ROWGROUP, true);
}
lastTCPos = tcpos;
// TODO TableStepper should remain as footnote-agnostic as possible
if (footnoteList.isEmpty()) {
returnList.add(new KnuthBox(boxLen, tcpos, false));
} else {
returnList.add(new KnuthBlockBox(boxLen, footnoteList, tcpos, false));
}
int effPenaltyLen = Math.max(0, penaltyOrGlueLen);
TableHFPenaltyPosition penaltyPos = new TableHFPenaltyPosition(getTableLM());
if (bodyType == TableRowIterator.BODY) {
if (!getTableLM().getTable().omitHeaderAtBreak()) {
effPenaltyLen += tclm.getHeaderNetHeight();
penaltyPos.headerElements = tclm.getHeaderElements();
}
if (!getTableLM().getTable().omitFooterAtBreak()) {
effPenaltyLen += tclm.getFooterNetHeight();
penaltyPos.footerElements = tclm.getFooterElements();
}
}
Keep keep = getTableLM().getKeepTogether();
int stepPenalty = 0;
for (Object activeCell1 : activeCells) {
ActiveCell activeCell = (ActiveCell) activeCell1;
keep = keep.compare(activeCell.getKeepWithNext());
stepPenalty = Math.max(stepPenalty, activeCell.getPenaltyValue());
}
if (!rowFinished) {
keep = keep.compare(rowGroup[activeRowIndex].getKeepTogether());
} else if (activeRowIndex < rowGroup.length - 1) {
keep = keep.compare(rowGroup[activeRowIndex].getKeepWithNext());
keep = keep.compare(rowGroup[activeRowIndex + 1].getKeepWithPrevious());
nextBreakClass = BreakUtil.compareBreakClasses(nextBreakClass,
rowGroup[activeRowIndex].getBreakAfter());
nextBreakClass = BreakUtil.compareBreakClasses(nextBreakClass,
rowGroup[activeRowIndex + 1].getBreakBefore());
}
int p = keep.getPenalty();
if (rowHeightSmallerThanFirstStep) {
rowHeightSmallerThanFirstStep = false;
p = KnuthPenalty.INFINITE;
}
p = Math.max(p, stepPenalty);
int breakClass = keep.getContext();
if (nextBreakClass != Constants.EN_AUTO) {
log.trace("Forced break encountered");
p = -KnuthPenalty.INFINITE; //Overrides any keeps (see 4.8 in XSL 1.0)
breakClass = nextBreakClass;
}
returnList.add(new BreakElement(penaltyPos, effPenaltyLen, p, breakClass, context));
laststep = step;
step = getNextStep();
if (penaltyOrGlueLen < 0) {
int shrink = 0;
int stretch = 0;
int width = -penaltyOrGlueLen;
LayoutManager bslm = getTableLM().getParent();
if (bslm instanceof BlockStackingLayoutManager && ((BlockStackingLayoutManager)bslm).isRestartAtLM()
&& keep.getPenalty() == KnuthPenalty.INFINITE) {
width = 0;
}
returnList.add(new KnuthGlue(width, stretch, shrink, new Position(null), true));
}
} while (step >= 0);
assert !returnList.isEmpty();
lastTCPos.setFlag(TableContentPosition.LAST_IN_ROWGROUP, true);
return returnList;
}
/**
* Returns the first step for the current row group.
*
* @return the first step for the current row group
*/
private int getFirstStep() {
computeRowFirstStep(activeCells);
signalRowFirstStep();
int minStep = considerRowLastStep(rowFirstStep);
signalNextStep(minStep);
return minStep;
}
/**
* Returns the next break possibility.
*
* @return the next step
*/
private int getNextStep() {
if (rowFinished) {
if (activeRowIndex == rowGroup.length - 1) {
// The row group is finished, no next step
return -1;
}
rowFinished = false;
removeCellsEndingOnCurrentRow();
log.trace("Delaying next row");
delayingNextRow = true;
}
if (delayingNextRow) {
int minStep = computeMinStep();
if (minStep < 0 || minStep >= rowFirstStep
|| minStep > rowGroup[activeRowIndex].getExplicitHeight().getMax()) {
if (log.isTraceEnabled()) {
log.trace("Step = " + minStep);
}
delayingNextRow = false;
minStep = rowFirstStep;
switchToNextRow();
signalRowFirstStep();
minStep = considerRowLastStep(minStep);
}
signalNextStep(minStep);
return minStep;
} else {
int minStep = computeMinStep();
minStep = considerRowLastStep(minStep);
signalNextStep(minStep);
return minStep;
}
}
/**
* Computes the minimal necessary step to make the next row fit. That is, so such as
* cell on the next row can contribute some content.
*
* @param cells the cells occupying the next row (may include cells starting on
* previous rows and spanning over this one)
*/
private void computeRowFirstStep(List cells) {
for (Object cell : cells) {
ActiveCell activeCell = (ActiveCell) cell;
rowFirstStep = Math.max(rowFirstStep, activeCell.getFirstStep());
}
}
/**
* Computes the next minimal step.
*
* @return the minimal step from the active cells, < 0 if there is no such step
*/
private int computeMinStep() {
int minStep = Integer.MAX_VALUE;
boolean stepFound = false;
for (Object activeCell1 : activeCells) {
ActiveCell activeCell = (ActiveCell) activeCell1;
int nextStep = activeCell.getNextStep();
if (nextStep >= 0) {
stepFound = true;
minStep = Math.min(minStep, nextStep);
}
}
if (stepFound) {
return minStep;
} else {
return -1;
}
}
/**
* Signals the first step to the active cells, to allow them to add more content to
* the step if possible.
*
* @see ActiveCell#signalRowFirstStep(int)
*/
private void signalRowFirstStep() {
for (Object activeCell1 : activeCells) {
ActiveCell activeCell = (ActiveCell) activeCell1;
activeCell.signalRowFirstStep(rowFirstStep);
}
}
/**
* Signals the next selected step to the active cells.
*
* @param step the next step
*/
private void signalNextStep(int step) {
nextBreakClass = Constants.EN_AUTO;
for (Object activeCell1 : activeCells) {
ActiveCell activeCell = (ActiveCell) activeCell1;
nextBreakClass = BreakUtil.compareBreakClasses(nextBreakClass,
activeCell.signalNextStep(step));
}
}
/**
* Determines if the given step will finish the current row, and if so switch to the
* last step for this row.
* <p>If the row is finished then the after borders for the cell may change (their
* conditionalities no longer apply for the cells ending on the current row). Thus the
* final step may grow with respect to the given one.</p>
* <p>In more rare occasions, the given step may correspond to the first step of a
* row-spanning cell, and may be greater than the height of the current row (consider,
* for example, an unbreakable cell spanning three rows). In such a case the returned
* step will correspond to the row height and a flag will be set to produce an
* infinite penalty for this step. This will prevent the breaking algorithm from
* choosing this break, but still allow to create the appropriate TableContentPosition
* for the cells ending on the current row.</p>
*
* @param step the next step
* @return the updated step if any
*/
private int considerRowLastStep(int step) {
rowFinished = true;
for (Object activeCell3 : activeCells) {
ActiveCell activeCell = (ActiveCell) activeCell3;
if (activeCell.endsOnRow(activeRowIndex)) {
if (!activeCell.finishes(step)) {
rowFinished = false;
}
}
}
if (rowFinished) {
if (log.isTraceEnabled()) {
log.trace("Step = " + step);
log.trace("Row finished, computing last step");
}
int maxStep = 0;
for (Object activeCell2 : activeCells) {
ActiveCell activeCell = (ActiveCell) activeCell2;
if (activeCell.endsOnRow(activeRowIndex)) {
maxStep = Math.max(maxStep, activeCell.getLastStep());
}
}
if (log.isTraceEnabled()) {
log.trace("Max step: " + maxStep);
}
for (Object activeCell1 : activeCells) {
ActiveCell activeCell = (ActiveCell) activeCell1;
activeCell.endRow(activeRowIndex);
if (!activeCell.endsOnRow(activeRowIndex)) {
activeCell.signalRowLastStep(maxStep);
}
}
if (maxStep < step) {
log.trace("Row height smaller than first step, produced penalty will be infinite");
rowHeightSmallerThanFirstStep = true;
}
step = maxStep;
prepareNextRow();
}
return step;
}
/**
* Pre-activates the cells that will start the next row, and computes the first step
* for that row.
*/
private void prepareNextRow() {
if (activeRowIndex < rowGroup.length - 1) {
previousRowsLength += rowGroup[activeRowIndex].getHeight().getOpt();
activateCells(nextActiveCells, activeRowIndex + 1);
if (log.isTraceEnabled()) {
log.trace("Computing first step for row " + (activeRowIndex + 2));
}
computeRowFirstStep(nextActiveCells);
if (log.isTraceEnabled()) {
log.trace("Next first step = " + rowFirstStep);
}
}
}
private void removeCellsEndingOnCurrentRow() {
for (Iterator iter = activeCells.iterator(); iter.hasNext();) {
ActiveCell activeCell = (ActiveCell) iter.next();
if (activeCell.endsOnRow(activeRowIndex)) {
iter.remove();
}
}
}
/**
* Actually switches to the next row, increasing activeRowIndex and transferring to
* activeCells the cells starting on the next row.
*/
private void switchToNextRow() {
activeRowIndex++;
if (log.isTraceEnabled()) {
log.trace("Switching to row " + (activeRowIndex + 1));
}
for (Object activeCell1 : activeCells) {
ActiveCell activeCell = (ActiveCell) activeCell1;
activeCell.nextRowStarts();
}
activeCells.addAll(nextActiveCells);
nextActiveCells.clear();
}
/** @return the table layout manager */
private TableLayoutManager getTableLM() {
return this.tclm.getTableLM();
}
}
⏎ org/apache/fop/layoutmgr/table/TableStepper.java
Or download all of them as a single archive file:
File name: fop-2.7-src.zip File size: 3401312 bytes Release date: 2022-01-20 Download
⇒ "fop" Command in fop-2.7-bin.zip
2016-07-07, 36185👍, 0💬
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