/* * $Id: PdfPTable.java,v 1.66 2005/11/19 18:17:51 psoares33 Exp $ * $Name: $ * * Copyright 2001, 2002 Paulo Soares * * The contents of this file are subject to the Mozilla Public License Version 1.1 * (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.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the License. * * The Original Code is 'iText, a free JAVA-PDF library'. * * The Initial Developer of the Original Code is Bruno Lowagie. Portions created by * the Initial Developer are Copyright (C) 1999, 2000, 2001, 2002 by Bruno Lowagie. * All Rights Reserved. * Co-Developer of the code is Paulo Soares. Portions created by the Co-Developer * are Copyright (C) 2000, 2001, 2002 by Paulo Soares. All Rights Reserved. * * Contributor(s): all the names of the contributors are added in the source code * where applicable. * * Alternatively, the contents of this file may be used under the terms of the * LGPL license (the "GNU LIBRARY GENERAL PUBLIC LICENSE"), in which case the * provisions of LGPL are applicable instead of those above. If you wish to * allow use of your version of this file only under the terms of the LGPL * License and not to allow others to use your version of this file under * the MPL, indicate your decision by deleting the provisions above and * replace them with the notice and other provisions required by the LGPL. * If you do not delete the provisions above, a recipient may use your version * of this file under either the MPL or the GNU LIBRARY GENERAL PUBLIC LICENSE. * * This library is free software; you can redistribute it and/or modify it * under the terms of the MPL as stated above or under the terms of the GNU * Library General Public License as published by the Free Software Foundation; * either version 2 of the License, or any later version. * * This library is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS * FOR A PARTICULAR PURPOSE. See the GNU Library general Public License for more * details. * * If you didn't download this code from the following link, you should check if * you aren't using an obsolete version: * http://www.lowagie.com/iText/ */ package com.lowagie.text.pdf; import java.util.ArrayList; import com.lowagie.text.Phrase; import com.lowagie.text.Element; import com.lowagie.text.Image; import com.lowagie.text.Rectangle; import com.lowagie.text.ElementListener; import com.lowagie.text.DocumentException; import com.lowagie.text.pdf.events.PdfPTableEventForwarder; /** This is a table that can be put at an absolute position but can also * be added to the document as the class Table. * In the last case when crossing pages the table always break at full rows; if a * row is bigger than the page it is dropped silently to avoid infinite loops. *

* A PdfPTableEvent can be associated to the table to do custom drawing * when the table is rendered. * @author Paulo Soares (psoares@consiste.pt) */ public class PdfPTable implements Element{ /** The index of the original PdfcontentByte. */ public static final int BASECANVAS = 0; /** The index of the duplicate PdfContentByte where the background will be drawn. */ public static final int BACKGROUNDCANVAS = 1; /** The index of the duplicate PdfContentByte where the border lines will be drawn. */ public static final int LINECANVAS = 2; /** The index of the duplicate PdfContentByte where the text will be drawn. */ public static final int TEXTCANVAS = 3; protected ArrayList rows = new ArrayList(); protected float totalHeight = 0; protected PdfPCell currentRow[]; protected int currentRowIdx = 0; protected PdfPCell defaultCell = new PdfPCell((Phrase)null); protected float totalWidth = 0; protected float relativeWidths[]; protected float absoluteWidths[]; protected PdfPTableEvent tableEvent; /** Holds value of property headerRows. */ protected int headerRows; /** Holds value of property widthPercentage. */ protected float widthPercentage = 80; /** Holds value of property horizontalAlignment. */ private int horizontalAlignment = Element.ALIGN_CENTER; /** Holds value of property skipFirstHeader. */ private boolean skipFirstHeader = false; protected boolean isColspan = false; protected int runDirection = PdfWriter.RUN_DIRECTION_DEFAULT; /** * Holds value of property lockedWidth. */ private boolean lockedWidth = false; /** * Holds value of property splitRows. */ private boolean splitRows = true; /** The spacing before the table. */ protected float spacingBefore; /** The spacing after the table. */ protected float spacingAfter; /** * Holds value of property extendLastRow. */ private boolean extendLastRow; /** * Holds value of property headersInEvent. */ private boolean headersInEvent; /** * Holds value of property splitLate. */ private boolean splitLate = true; /** * Defines if the table should be kept * on one page if possible */ private boolean keepTogether; /** * Holds value of property footerRows. */ private int footerRows; protected PdfPTable() { } /** Constructs a PdfPTable with the relative column widths. * @param relativeWidths the relative column widths */ public PdfPTable(float relativeWidths[]) { if (relativeWidths == null) throw new NullPointerException("The widths array in PdfPTable constructor can not be null."); if (relativeWidths.length == 0) throw new IllegalArgumentException("The widths array in PdfPTable constructor can not have zero length."); this.relativeWidths = new float[relativeWidths.length]; System.arraycopy(relativeWidths, 0, this.relativeWidths, 0, relativeWidths.length); absoluteWidths = new float[relativeWidths.length]; calculateWidths(); currentRow = new PdfPCell[absoluteWidths.length]; keepTogether = false; } /** Constructs a PdfPTable with numColumns columns. * @param numColumns the number of columns */ public PdfPTable(int numColumns) { if (numColumns <= 0) throw new IllegalArgumentException("The number of columns in PdfPTable constructor must be greater than zero."); relativeWidths = new float[numColumns]; for (int k = 0; k < numColumns; ++k) relativeWidths[k] = 1; absoluteWidths = new float[relativeWidths.length]; calculateWidths(); currentRow = new PdfPCell[absoluteWidths.length]; keepTogether = false; } /** Constructs a copy of a PdfPTable. * @param table the PdfPTable to be copied */ public PdfPTable(PdfPTable table) { copyFormat(table); for (int k = 0; k < currentRow.length; ++k) { if (table.currentRow[k] == null) break; currentRow[k] = new PdfPCell(table.currentRow[k]); } for (int k = 0; k < table.rows.size(); ++k) { PdfPRow row = (PdfPRow)(table.rows.get(k)); if (row != null) row = new PdfPRow(row); rows.add(row); } } /** * Makes a shallow copy of a table (format without content). * @param table * @return a shallow copy of the table */ public static PdfPTable shallowCopy(PdfPTable table) { PdfPTable nt = new PdfPTable(); nt.copyFormat(table); return nt; } /** * Copies the format of the sourceTable without copying the content. * @param sourceTable */ private void copyFormat(PdfPTable sourceTable) { relativeWidths = new float[sourceTable.relativeWidths.length]; absoluteWidths = new float[sourceTable.relativeWidths.length]; System.arraycopy(sourceTable.relativeWidths, 0, relativeWidths, 0, relativeWidths.length); System.arraycopy(sourceTable.absoluteWidths, 0, absoluteWidths, 0, relativeWidths.length); totalWidth = sourceTable.totalWidth; totalHeight = sourceTable.totalHeight; currentRowIdx = 0; tableEvent = sourceTable.tableEvent; runDirection = sourceTable.runDirection; defaultCell = new PdfPCell(sourceTable.defaultCell); currentRow = new PdfPCell[sourceTable.currentRow.length]; isColspan = sourceTable.isColspan; splitRows = sourceTable.splitRows; spacingAfter = sourceTable.spacingAfter; spacingBefore = sourceTable.spacingBefore; headerRows = sourceTable.headerRows; footerRows = sourceTable.footerRows; lockedWidth = sourceTable.lockedWidth; extendLastRow = sourceTable.extendLastRow; headersInEvent = sourceTable.headersInEvent; widthPercentage = sourceTable.widthPercentage; splitLate = sourceTable.splitLate; skipFirstHeader = sourceTable.skipFirstHeader; horizontalAlignment = sourceTable.horizontalAlignment; keepTogether = sourceTable.keepTogether; } /** Sets the relative widths of the table. * @param relativeWidths the relative widths of the table. * @throws DocumentException if the number of widths is different than the number * of columns */ public void setWidths(float relativeWidths[]) throws DocumentException { if (relativeWidths.length != this.relativeWidths.length) throw new DocumentException("Wrong number of columns."); this.relativeWidths = new float[relativeWidths.length]; System.arraycopy(relativeWidths, 0, this.relativeWidths, 0, relativeWidths.length); absoluteWidths = new float[relativeWidths.length]; totalHeight = 0; calculateWidths(); calculateHeights(); } /** Sets the relative widths of the table. * @param relativeWidths the relative widths of the table. * @throws DocumentException if the number of widths is different than the number * of columns */ public void setWidths(int relativeWidths[]) throws DocumentException { float tb[] = new float[relativeWidths.length]; for (int k = 0; k < relativeWidths.length; ++k) tb[k] = relativeWidths[k]; setWidths(tb); } private void calculateWidths() { if (totalWidth <= 0) return; float total = 0; for (int k = 0; k < absoluteWidths.length; ++k) { total += relativeWidths[k]; } for (int k = 0; k < absoluteWidths.length; ++k) { absoluteWidths[k] = totalWidth * relativeWidths[k] / total; } } /** Sets the full width of the table. * @param totalWidth the full width of the table. */ public void setTotalWidth(float totalWidth) { if (this.totalWidth == totalWidth) return; this.totalWidth = totalWidth; totalHeight = 0; calculateWidths(); calculateHeights(); } /** Sets the full width of the table from the absolute column width. * @param columnWidth the absolute width of each column * @throws DocumentException if the number of widths is different than the number * of columns */ public void setTotalWidth(float columnWidth[]) throws DocumentException { if (columnWidth.length != this.relativeWidths.length) throw new DocumentException("Wrong number of columns."); totalWidth = 0; for (int k = 0; k < columnWidth.length; ++k) totalWidth += columnWidth[k]; setWidths(columnWidth); } /** Sets the percentage width of the table from the absolute column width. * @param columnWidth the absolute width of each column * @param pageSize the page size * @throws DocumentException */ public void setWidthPercentage(float columnWidth[], Rectangle pageSize) throws DocumentException { if (columnWidth.length != this.relativeWidths.length) throw new IllegalArgumentException("Wrong number of columns."); float totalWidth = 0; for (int k = 0; k < columnWidth.length; ++k) totalWidth += columnWidth[k]; widthPercentage = totalWidth / (pageSize.right() - pageSize.left()) * 100f; setWidths(columnWidth); } /** Gets the full width of the table. * @return the full width of the table */ public float getTotalWidth() { return totalWidth; } void calculateHeights() { if (totalWidth <= 0) return; totalHeight = 0; for (int k = 0; k < rows.size(); ++k) { PdfPRow row = (PdfPRow)rows.get(k); if (row != null) { row.setWidths(absoluteWidths); totalHeight += row.getMaxHeights(); } } } /** * Calculates the heights of the table. */ public void calculateHeightsFast() { if (totalWidth <= 0) return; totalHeight = 0; for (int k = 0; k < rows.size(); ++k) { PdfPRow row = (PdfPRow)rows.get(k); if (row != null) totalHeight += row.getMaxHeights(); } } /** Gets the default PdfPCell that will be used as * reference for all the addCell methods except * addCell(PdfPCell). * @return default PdfPCell */ public PdfPCell getDefaultCell() { return defaultCell; } /** Adds a cell element. * @param cell the cell element */ public void addCell(PdfPCell cell) { PdfPCell ncell = new PdfPCell(cell); int colspan = ncell.getColspan(); colspan = Math.max(colspan, 1); colspan = Math.min(colspan, currentRow.length - currentRowIdx); ncell.setColspan(colspan); if (colspan != 1) isColspan = true; int rdir = ncell.getRunDirection(); if (rdir == PdfWriter.RUN_DIRECTION_DEFAULT) ncell.setRunDirection(runDirection); currentRow[currentRowIdx] = ncell; currentRowIdx += colspan; if (currentRowIdx >= currentRow.length) { if (runDirection == PdfWriter.RUN_DIRECTION_RTL) { PdfPCell rtlRow[] = new PdfPCell[absoluteWidths.length]; int rev = currentRow.length; for (int k = 0; k < currentRow.length; ++k) { PdfPCell rcell = currentRow[k]; int cspan = rcell.getColspan(); rev -= cspan; rtlRow[rev] = rcell; k += cspan - 1; } currentRow = rtlRow; } PdfPRow row = new PdfPRow(currentRow); if (totalWidth > 0) { row.setWidths(absoluteWidths); totalHeight += row.getMaxHeights(); } rows.add(row); currentRow = new PdfPCell[absoluteWidths.length]; currentRowIdx = 0; } } /** Adds a cell element. * @param text the text for the cell */ public void addCell(String text) { addCell(new Phrase(text)); } /** * Adds a nested table. * @param table the table to be added to the cell */ public void addCell(PdfPTable table) { defaultCell.setTable(table); addCell(defaultCell); defaultCell.setTable(null); } /** * Adds an Image as Cell. * @param image the Image to add to the table. This image will fit in the cell */ public void addCell(Image image) { defaultCell.setImage(image); addCell(defaultCell); defaultCell.setImage(null); } /** * Adds a cell element. * @param phrase the Phrase to be added to the cell */ public void addCell(Phrase phrase) { defaultCell.setPhrase(phrase); addCell(defaultCell); defaultCell.setPhrase(null); } /** * Writes the selected rows to the document. *

* canvases is obtained from beginWritingRows(). * @param rowStart the first row to be written, zero index * @param rowEnd the last row to be written + 1. If it is -1 all the * rows to the end are written * @param xPos the x write coodinate * @param yPos the y write coodinate * @param canvases an array of 4 PdfContentByte obtained from * beginWrittingRows() * @return the y coordinate position of the bottom of the last row * @see #beginWritingRows(com.lowagie.text.pdf.PdfContentByte) */ public float writeSelectedRows(int rowStart, int rowEnd, float xPos, float yPos, PdfContentByte[] canvases) { return writeSelectedRows(0, -1, rowStart, rowEnd, xPos, yPos, canvases); } /** Writes the selected rows and columns to the document. * This method does not clip the columns; this is only important * if there are columns with colspan at boundaries. *

* canvases is obtained from beginWritingRows(). *

* The table event is only fired for complete rows. * @param colStart the first column to be written, zero index * @param colEnd the last column to be written + 1. If it is -1 all the * columns to the end are written * @param rowStart the first row to be written, zero index * @param rowEnd the last row to be written + 1. If it is -1 all the * rows to the end are written * @param xPos the x write coodinate * @param yPos the y write coodinate * @param canvases an array of 4 PdfContentByte obtained from * beginWrittingRows() * @return the y coordinate position of the bottom of the last row * @see #beginWritingRows(com.lowagie.text.pdf.PdfContentByte) */ public float writeSelectedRows(int colStart, int colEnd, int rowStart, int rowEnd, float xPos, float yPos, PdfContentByte[] canvases) { if (totalWidth <= 0) throw new RuntimeException("The table width must be greater than zero."); int size = rows.size(); if (rowEnd < 0) rowEnd = size; rowEnd = Math.min(rowEnd, size); if (rowStart < 0) rowStart = 0; if (rowStart >= rowEnd) return yPos; if (colEnd < 0) colEnd = absoluteWidths.length; colEnd = Math.min(colEnd, absoluteWidths.length); if (colStart < 0) colStart = 0; colStart = Math.min(colStart, absoluteWidths.length); float yPosStart = yPos; for (int k = rowStart; k < rowEnd; ++k) { PdfPRow row = (PdfPRow)rows.get(k); if (row != null) { row.writeCells(colStart, colEnd, xPos, yPos, canvases); yPos -= row.getMaxHeights(); } } if (tableEvent != null && colStart == 0 && colEnd == absoluteWidths.length) { float heights[] = new float[rowEnd - rowStart + 1]; heights[0] = yPosStart; for (int k = rowStart; k < rowEnd; ++k) { PdfPRow row = (PdfPRow)rows.get(k); float hr = 0; if (row != null) hr = row.getMaxHeights(); heights[k - rowStart + 1] = heights[k - rowStart] - hr; } tableEvent.tableLayout(this, getEventWidths(xPos, rowStart, rowEnd, headersInEvent), heights, headersInEvent ? headerRows : 0, rowStart, canvases); } return yPos; } /** * Writes the selected rows to the document. * * @param rowStart the first row to be written, zero index * @param rowEnd the last row to be written + 1. If it is -1 all the * rows to the end are written * @param xPos the x write coodinate * @param yPos the y write coodinate * @param canvas the PdfContentByte where the rows will * be written to * @return the y coordinate position of the bottom of the last row */ public float writeSelectedRows(int rowStart, int rowEnd, float xPos, float yPos, PdfContentByte canvas) { return writeSelectedRows(0, -1, rowStart, rowEnd, xPos, yPos, canvas); } /** * Writes the selected rows to the document. * This method clips the columns; this is only important * if there are columns with colspan at boundaries. *

* The table event is only fired for complete rows. * * @param colStart the first column to be written, zero index * @param colEnd the last column to be written + 1. If it is -1 all the * @param rowStart the first row to be written, zero index * @param rowEnd the last row to be written + 1. If it is -1 all the * rows to the end are written * @param xPos the x write coodinate * @param yPos the y write coodinate * @param canvas the PdfContentByte where the rows will * be written to * @return the y coordinate position of the bottom of the last row */ public float writeSelectedRows(int colStart, int colEnd, int rowStart, int rowEnd, float xPos, float yPos, PdfContentByte canvas) { if (colEnd < 0) colEnd = absoluteWidths.length; colEnd = Math.min(colEnd, absoluteWidths.length); if (colStart < 0) colStart = 0; colStart = Math.min(colStart, absoluteWidths.length); if (colStart != 0 || colEnd != absoluteWidths.length) { float w = 0; for (int k = colStart; k < colEnd; ++k) w += absoluteWidths[k]; canvas.saveState(); float lx = 0; float rx = 0; if (colStart == 0) lx = 10000; if (colEnd == absoluteWidths.length) rx = 10000; canvas.rectangle(xPos - lx, -10000, w + lx + rx, 20000); canvas.clip(); canvas.newPath(); } PdfContentByte[] canvases = beginWritingRows(canvas); float y = writeSelectedRows(colStart, colEnd, rowStart, rowEnd, xPos, yPos, canvases); endWritingRows(canvases); if (colStart != 0 || colEnd != absoluteWidths.length) canvas.restoreState(); return y; } /** Gets and initializes the 4 layers where the table is written to. The text or graphics are added to * one of the 4 PdfContentByte returned with the following order:

*

* The layers are placed in sequence on top of each other. * @param canvas the PdfContentByte where the rows will * be written to * @return an array of 4 PdfContentByte * @see #writeSelectedRows(int, int, float, float, PdfContentByte[]) */ public static PdfContentByte[] beginWritingRows(PdfContentByte canvas) { return new PdfContentByte[]{ canvas, canvas.getDuplicate(), canvas.getDuplicate(), canvas.getDuplicate(), }; } /** Finishes writing the table. * @param canvases the array returned by beginWritingRows() */ public static void endWritingRows(PdfContentByte[] canvases) { PdfContentByte canvas = canvases[BASECANVAS]; canvas.saveState(); canvas.add(canvases[BACKGROUNDCANVAS]); canvas.restoreState(); canvas.saveState(); canvas.setLineCap(2); canvas.resetRGBColorStroke(); canvas.add(canvases[LINECANVAS]); canvas.restoreState(); canvas.add(canvases[TEXTCANVAS]); } /** Gets the number of rows in this table. * @return the number of rows in this table */ public int size() { return rows.size(); } /** Gets the total height of the table. * @return the total height of the table */ public float getTotalHeight() { return totalHeight; } /** Gets the height of a particular row. * @param idx the row index (starts at 0) * @return the height of a particular row */ public float getRowHeight(int idx) { if (totalWidth <= 0 || idx < 0 || idx >= rows.size()) return 0; PdfPRow row = (PdfPRow)rows.get(idx); if (row == null) return 0; return row.getMaxHeights(); } /** Gets the height of the rows that constitute the header as defined by * setHeaderRows(). * @return the height of the rows that constitute the header */ public float getHeaderHeight() { float total = 0; int size = Math.min(rows.size(), headerRows); for (int k = 0; k < size; ++k) { PdfPRow row = (PdfPRow)rows.get(k); if (row != null) total += row.getMaxHeights(); } return total; } /** Deletes a row from the table. * @param rowNumber the row to be deleted * @return true if the row was deleted */ public boolean deleteRow(int rowNumber) { if (rowNumber < 0 || rowNumber >= rows.size()) { return false; } if (totalWidth > 0) { PdfPRow row = (PdfPRow)rows.get(rowNumber); if (row != null) totalHeight -= row.getMaxHeights(); } rows.remove(rowNumber); return true; } /** Deletes the last row in the table. * @return true if the last row was deleted */ public boolean deleteLastRow() { return deleteRow(rows.size() - 1); } /** * Removes all of the rows except headers */ public void deleteBodyRows() { ArrayList rows2 = new ArrayList(); for (int k = 0; k < headerRows; ++k) rows2.add(rows.get(k)); rows = rows2; totalHeight = 0; if (totalWidth > 0) totalHeight = getHeaderHeight(); } /** Gets the number of the rows that constitute the header. * @return the number of the rows that constitute the header */ public int getHeaderRows() { return headerRows; } /** Sets the number of the top rows that constitute the header. * This header has only meaning if the table is added to Document * and the table crosses pages. * @param headerRows the number of the top rows that constitute the header */ public void setHeaderRows(int headerRows) { if (headerRows < 0) headerRows = 0; this.headerRows = headerRows; } /** * Gets all the chunks in this element. * * @return an ArrayList */ public ArrayList getChunks() { return new ArrayList(); } /** * Gets the type of the text element. * * @return a type */ public int type() { return Element.PTABLE; } /** * Processes the element by adding it (or the different parts) to an * ElementListener. * * @param listener an ElementListener * @return true if the element was processed successfully */ public boolean process(ElementListener listener) { try { return listener.add(this); } catch(DocumentException de) { return false; } } /** Gets the width percentage that the table will occupy in the page. * @return the width percentage that the table will occupy in the page */ public float getWidthPercentage() { return widthPercentage; } /** Sets the width percentage that the table will occupy in the page. * @param widthPercentage the width percentage that the table will occupy in the page */ public void setWidthPercentage(float widthPercentage) { this.widthPercentage = widthPercentage; } /** Gets the horizontal alignment of the table relative to the page. * @return the horizontal alignment of the table relative to the page */ public int getHorizontalAlignment() { return horizontalAlignment; } /** Sets the horizontal alignment of the table relative to the page. * It only has meaning if the width percentage is less than * 100%. * @param horizontalAlignment the horizontal alignment of the table relative to the page */ public void setHorizontalAlignment(int horizontalAlignment) { this.horizontalAlignment = horizontalAlignment; } /** * Gets a row with a given index * (added by Jin-Hsia Yang). * @param idx * @return the row at position idx */ public PdfPRow getRow(int idx) { return (PdfPRow)rows.get(idx); } /** * Gets an arraylist with all the rows in the table. * @return an arraylist */ public ArrayList getRows() { return rows; } /** Sets the table event for this table. * @param event the table event for this table */ public void setTableEvent(PdfPTableEvent event) { if (event == null) this.tableEvent = null; else if (this.tableEvent == null) this.tableEvent = event; else if (this.tableEvent instanceof PdfPTableEventForwarder) ((PdfPTableEventForwarder)this.tableEvent).addTableEvent(event); else { PdfPTableEventForwarder forward = new PdfPTableEventForwarder(); forward.addTableEvent(this.tableEvent); forward.addTableEvent(event); this.tableEvent = forward; } } /** Gets the table event for this page. * @return the table event for this page */ public PdfPTableEvent getTableEvent() { return tableEvent; } /** Gets the absolute sizes of each column width. * @return he absolute sizes of each column width */ public float[] getAbsoluteWidths() { return absoluteWidths; } float [][] getEventWidths(float xPos, int firstRow, int lastRow, boolean includeHeaders) { if (includeHeaders) { firstRow = Math.max(firstRow, headerRows); lastRow = Math.max(lastRow, headerRows); } float widths[][] = new float[(includeHeaders ? headerRows : 0) + lastRow - firstRow][]; if (isColspan) { int n = 0; if (includeHeaders) { for (int k = 0; k < headerRows; ++k) { PdfPRow row = (PdfPRow)rows.get(k); if (row == null) ++n; else widths[n++] = row.getEventWidth(xPos); } } for (; firstRow < lastRow; ++firstRow) { PdfPRow row = (PdfPRow)rows.get(firstRow); if (row == null) ++n; else widths[n++] = row.getEventWidth(xPos); } } else { float width[] = new float[absoluteWidths.length + 1]; width[0] = xPos; for (int k = 0; k < absoluteWidths.length; ++k) width[k + 1] = width[k] + absoluteWidths[k]; for (int k = 0; k < widths.length; ++k) widths[k] = width; } return widths; } /** Getter for property skipFirstHeader. * @return Value of property skipFirstHeader. */ public boolean isSkipFirstHeader() { return skipFirstHeader; } /** Skips the printing of the first header. Used when printing * tables in succession belonging to the same printed table aspect. * @param skipFirstHeader New value of property skipFirstHeader. */ public void setSkipFirstHeader(boolean skipFirstHeader) { this.skipFirstHeader = skipFirstHeader; } /** * Sets the run direction of the contents of the table. * @param runDirection */ public void setRunDirection(int runDirection) { if (runDirection < PdfWriter.RUN_DIRECTION_DEFAULT || runDirection > PdfWriter.RUN_DIRECTION_RTL) throw new RuntimeException("Invalid run direction: " + runDirection); this.runDirection = runDirection; } /** * Returns the run direction of the contents in the table. * @return One of the following values: PdfWriter.RUN_DIRECTION_DEFAULT, PdfWriter.RUN_DIRECTION_NO_BIDI, PdfWriter.RUN_DIRECTION_LTR or PdfWriter.RUN_DIRECTION_RTL. */ public int getRunDirection() { return runDirection; } /** * Getter for property lockedWidth. * @return Value of property lockedWidth. */ public boolean isLockedWidth() { return this.lockedWidth; } /** * Uses the value in setTotalWidth() in Document.add(). * @param lockedWidth true to use the value in setTotalWidth() in Document.add() */ public void setLockedWidth(boolean lockedWidth) { this.lockedWidth = lockedWidth; } /** * Gets the split value. * @return true to split; false otherwise */ public boolean isSplitRows() { return this.splitRows; } /** * When set the rows that won't fit in the page will be split. * Note that it takes at least twice the memory to handle a split table row * than a normal table. true by default. * @param splitRows true to split; false otherwise */ public void setSplitRows(boolean splitRows) { this.splitRows = splitRows; } /** * Sets the spacing before this table. * * @param spacing the new spacing */ public void setSpacingBefore(float spacing) { this.spacingBefore = spacing; } /** * Sets the spacing after this table. * * @param spacing the new spacing */ public void setSpacingAfter(float spacing) { this.spacingAfter = spacing; } /** * Gets the spacing before this table. * * @return the spacing */ public float spacingBefore() { return spacingBefore; } /** * Gets the spacing before this table. * * @return the spacing */ public float spacingAfter() { return spacingAfter; } /** * Gets the value of the last row extension. * @return true if the last row will extend; false otherwise */ public boolean isExtendLastRow() { return this.extendLastRow; } /** * When set the last row will be extended to fill all the remaining space to the * bottom boundary. * @param extendLastRow true to extend the last row; false otherwise */ public void setExtendLastRow(boolean extendLastRow) { this.extendLastRow = extendLastRow; } /** * Gets the header status inclusion in PdfPTableEvent. * @return true if the headers are included; false otherwise */ public boolean isHeadersInEvent() { return this.headersInEvent; } /** * When set the PdfPTableEvent will include the headers. * @param headersInEvent true to include the headers; false otherwise */ public void setHeadersInEvent(boolean headersInEvent) { this.headersInEvent = headersInEvent; } /** * Gets the property splitLate. * @return the property splitLate */ public boolean isSplitLate() { return this.splitLate; } /** * If true the row will only split if it's the first one in an empty page. * It's true by default. *

* It's only meaningful if setSplitRows(true). * @param splitLate the property value */ public void setSplitLate(boolean splitLate) { this.splitLate = splitLate; } /** * If true the table will be kept on one page if it fits, by forcing a * new page if it doesn't fit on the current page. The default is to * split the table over multiple pages. * * @param p_KeepTogether whether to try to keep the table on one page */ public void setKeepTogether(boolean p_KeepTogether) { keepTogether = p_KeepTogether; } public boolean getKeepTogether() { return keepTogether; } /** * Gets the number of rows in the footer. * @return the number of rows in the footer */ public int getFooterRows() { return this.footerRows; } /** * Sets the number of rows to be used for the footer. The number * of footer rows are subtracted from the header rows. For * example, for a table with two header rows and one footer row the * code would be: *

*

     * table.setHeaderRows(3);
     * table.setFooterRows(1);
     * 
*

* Row 0 and 1 will be the header rows and row 2 will be the footer row. * @param footerRows the number of rows to be used for the footer */ public void setFooterRows(int footerRows) { if (footerRows < 0) footerRows = 0; this.footerRows = footerRows; } }