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/*
 *
 * This file is part of the iText (R) project.
 * Copyright (c) 1998-2016 iText Group NV
 * Authors: Bruno Lowagie, Paulo Soares, et al.
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU Affero General Public License version 3
 * as published by the Free Software Foundation with the addition of the
 * following permission added to Section 15 as permitted in Section 7(a):
 * FOR ANY PART OF THE COVERED WORK IN WHICH THE COPYRIGHT IS OWNED BY
 * ITEXT GROUP. ITEXT GROUP DISCLAIMS THE WARRANTY OF NON INFRINGEMENT
 * OF THIRD PARTY RIGHTS
 *
 * This program 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 Affero General Public License for more details.
 * You should have received a copy of the GNU Affero General Public License
 * along with this program; if not, see http://www.gnu.org/licenses or write to
 * the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
 * Boston, MA, 02110-1301 USA, or download the license from the following URL:
 * http://itextpdf.com/terms-of-use/
 *
 * The interactive user interfaces in modified source and object code versions
 * of this program must display Appropriate Legal Notices, as required under
 * Section 5 of the GNU Affero General Public License.
 *
 * In accordance with Section 7(b) of the GNU Affero General Public License,
 * a covered work must retain the producer line in every PDF that is created
 * or manipulated using iText.
 *
 * You can be released from the requirements of the license by purchasing
 * a commercial license. Buying such a license is mandatory as soon as you
 * develop commercial activities involving the iText software without
 * disclosing the source code of your own applications.
 * These activities include: offering paid services to customers as an ASP,
 * serving PDFs on the fly in a web application, shipping iText with a closed
 * source product.
 *
 * For more information, please contact iText Software Corp. at this
 * address: [email protected]
 */
package com.itextpdf.text.pdf;

import com.itextpdf.text.*;

import java.util.ArrayList;
import java.util.Iterator;

/**
 * PdfLine defines an array with PdfChunk-objects
 * that fit into 1 line.
 */

public class PdfLine {

    // membervariables

    /** The arraylist containing the chunks. */
    protected ArrayList line;

    /** The left indentation of the line. */
    protected float left;

    /** The width of the line. */
    protected float width;

    /** The alignment of the line. */
    protected int alignment;

    /** The height of the line. */
    protected float height;

    /** The listsymbol (if necessary). */
//    protected Chunk listSymbol = null;

    /** The listsymbol (if necessary). */
//    protected float symbolIndent;

    /** true if the chunk splitting was caused by a newline. */
    protected boolean newlineSplit = false;

    /** The original width. */
    protected float originalWidth;

    protected boolean isRTL = false;

    protected ListItem listItem = null;
    
    protected TabStop tabStop = null;

    protected float tabStopAnchorPosition = Float.NaN;
    
    protected float tabPosition = Float.NaN;

    // constructors

    /**
     * Constructs a new PdfLine-object.
     *
     * @param	left		the limit of the line at the left
     * @param	right		the limit of the line at the right
     * @param	alignment	the alignment of the line
     * @param	height		the height of the line
     */

    PdfLine(float left, float right, int alignment, float height) {
        this.left = left;
        this.width = right - left;
        this.originalWidth = this.width;
        this.alignment = alignment;
        this.height = height;
        this.line = new ArrayList();
    }

    /**
     * Creates a PdfLine object.
     * @param left				the left offset
     * @param originalWidth		the original width of the line
     * @param remainingWidth	bigger than 0 if the line isn't completely filled
     * @param alignment			the alignment of the line
     * @param newlineSplit		was the line splitted (or does the paragraph end with this line)
     * @param line				an array of PdfChunk objects
     * @param isRTL				do you have to read the line from Right to Left?
     */
    PdfLine(float left, float originalWidth, float remainingWidth, int alignment, boolean newlineSplit, ArrayList line, boolean isRTL) {
        this.left = left;
        this.originalWidth = originalWidth;
        this.width = remainingWidth;
        this.alignment = alignment;
        this.line = line;
        this.newlineSplit = newlineSplit;
        this.isRTL = isRTL;
    }

    // methods

    /**
     * Adds a PdfChunk to the PdfLine.
     *
     * @param		chunk		        the PdfChunk to add
     * @param		currentLeading		new value for the height of the line
     * @return		null if the chunk could be added completely; if not
     *				a PdfChunk containing the part of the chunk that could
     *				not be added is returned
     */

    PdfChunk add(PdfChunk chunk, float currentLeading) {
        //we set line height to correspond to the current leading
        if (chunk != null && !chunk.toString().equals("")) {
            //whitespace shouldn't change leading
            if (!chunk.toString().equals(" ")) {
                if (this.height < currentLeading || this.line.isEmpty())
                    this.height = currentLeading;
            }
        }
        return add(chunk);
    }

    /**
     * Adds a PdfChunk to the PdfLine.
     *
     * @param		chunk		the PdfChunk to add
     * @return		null if the chunk could be added completely; if not
     *				a PdfChunk containing the part of the chunk that could
     *				not be added is returned
     */

    PdfChunk add(PdfChunk chunk) {
        // nothing happens if the chunk is null.
        if (chunk == null || chunk.toString().equals("")) {
        	return null;
        }

        // we split the chunk to be added
        PdfChunk overflow = chunk.split(width);
        newlineSplit = chunk.isNewlineSplit() || overflow == null;
        if (chunk.isTab()) {
        	Object[] tab = (Object[])chunk.getAttribute(Chunk.TAB);
            if (chunk.isAttribute(Chunk.TABSETTINGS))  {
                boolean isWhiteSpace = (Boolean)tab[1];
                if (!isWhiteSpace || !line.isEmpty()) {
                    flush();
                    tabStopAnchorPosition = Float.NaN;
                    tabStop = PdfChunk.getTabStop(chunk, originalWidth - width);
                    if (tabStop.getPosition() > originalWidth) {
                        if (isWhiteSpace)
                            overflow = null;
                        else if (Math.abs(originalWidth - width) < 0.001) {
                            addToLine(chunk);
                            overflow = null;
                        } else {
                            overflow = chunk;
                        }
                        width = 0;
                    } else {
                        chunk.setTabStop(tabStop);
                        if (!isRTL && tabStop.getAlignment() == TabStop.Alignment.LEFT) {
                            width = originalWidth - tabStop.getPosition();
                            tabStop = null;
                            tabPosition = Float.NaN;
                        } else
                            tabPosition = originalWidth - width;
                        addToLine(chunk);
                    }
                } else
                    return null;
            } else {
                //Keep deprecated tab logic for backward compatibility...
                Float tabStopPosition = ((Float)tab[1]).floatValue();
                boolean newline = ((Boolean)tab[2]).booleanValue();
                if (newline && tabStopPosition < originalWidth - width) {
                    return chunk;
                }
                chunk.adjustLeft(left);
                width = originalWidth - tabStopPosition;
                addToLine(chunk);
            }
        }
        // if the length of the chunk > 0 we add it to the line
        else if (chunk.length() > 0 || chunk.isImage()) {
            if (overflow != null)
                chunk.trimLastSpace();
            width -= chunk.width();
            addToLine(chunk);
        }
        // if the length == 0 and there were no other chunks added to the line yet,
        // we risk to end up in an endless loop trying endlessly to add the same chunk
        else if (line.size() < 1) {
            chunk = overflow;
            overflow = chunk.truncate(width);
            width -= chunk.width();
            if (chunk.length() > 0) {
                addToLine(chunk);
                return overflow;
            }
            // if the chunk couldn't even be truncated, we add everything, so be it
            else {
                if (overflow != null)
                    addToLine(overflow);
                return null;
            }
        }
        else {
            width += (line.get(line.size() - 1)).trimLastSpace();
        }
        return overflow;
    }

    private void addToLine(PdfChunk chunk) {
        if (chunk.changeLeading) {
        	float f;
        	if (chunk.isImage()) {
        		Image img = chunk.getImage();
        		f = chunk.getImageHeight() + chunk.getImageOffsetY()
        				+ img.getBorderWidthTop() + img.getSpacingBefore();
        	}
        	else {
        		f = chunk.getLeading();
        	}
        	if (f > height) height = f;
        }
        if (tabStop != null && tabStop.getAlignment() == TabStop.Alignment.ANCHOR && Float.isNaN(tabStopAnchorPosition)) {
            String value = chunk.toString();
            int anchorIndex = value.indexOf(tabStop.getAnchorChar());
            if (anchorIndex != -1) {
                float subWidth = chunk.width(value.substring(anchorIndex, value.length()));
                tabStopAnchorPosition = originalWidth - width - subWidth;
            }
        }
    	line.add(chunk);
    }

    // methods to retrieve information

    /**
     * Returns the number of chunks in the line.
     *
     * @return	a value
     */

    public int size() {
        return line.size();
    }

    /**
     * Returns an iterator of PdfChunks.
     *
     * @return	an Iterator
     */

    public Iterator iterator() {
        return line.iterator();
    }

    /**
     * Returns the height of the line.
     *
     * @return	a value
     */

    float height() {
        return height;
    }

    /**
     * Returns the left indentation of the line taking the alignment of the line into account.
     *
     * @return	a value
     */

    float indentLeft() {
        if (isRTL) {
            switch (alignment) {
                case Element.ALIGN_CENTER:
                    return left + width / 2f;
                case Element.ALIGN_RIGHT:
                    return left;
                case Element.ALIGN_JUSTIFIED:
                    return left + (hasToBeJustified() ? 0 : width);
                case Element.ALIGN_LEFT:
                default:
                    return left + width;
            }
        } else if (this.getSeparatorCount() <= 0) {
            switch (alignment) {
                case Element.ALIGN_RIGHT:
                    return left + width;
                case Element.ALIGN_CENTER:
                    return left + width / 2f;
            }
        }
        return left;
    }

    /**
     * Checks if this line has to be justified.
     *
     * @return	true if the alignment equals ALIGN_JUSTIFIED and there is some width left.
     */

    public boolean hasToBeJustified() {
        return ((alignment == Element.ALIGN_JUSTIFIED && !newlineSplit) || alignment == Element.ALIGN_JUSTIFIED_ALL) && width != 0;
    }

    /**
     * Resets the alignment of this line.
     * 

* The alignment of the last line of for instance a Paragraph * that has to be justified, has to be reset to ALIGN_LEFT. */ public void resetAlignment() { if (alignment == Element.ALIGN_JUSTIFIED) { alignment = Element.ALIGN_LEFT; } } /** Adds extra indentation to the left (for Paragraph.setFirstLineIndent). */ void setExtraIndent(float extra) { left += extra; width -= extra; originalWidth -= extra; } /** * Returns the width that is left, after a maximum of characters is added to the line. * * @return a value */ float widthLeft() { return width; } /** * Returns the number of space-characters in this line. * * @return a value */ int numberOfSpaces() { int numberOfSpaces = 0; for (PdfChunk pdfChunk : line) { String tmp = pdfChunk.toString(); int length = tmp.length(); for (int i = 0; i < length; i++) { if (tmp.charAt(i) == ' ') { numberOfSpaces++; } } } return numberOfSpaces; } /** * Sets the listsymbol of this line. *

* This is only necessary for the first line of a ListItem. * * @param listItem the list symbol */ public void setListItem(ListItem listItem) { this.listItem = listItem; // this.listSymbol = listItem.getListSymbol(); // this.symbolIndent = listItem.getIndentationLeft(); } /** * Returns the listsymbol of this line. * * @return a PdfChunk if the line has a listsymbol; null otherwise */ public Chunk listSymbol() { return listItem != null ? listItem.getListSymbol() : null; } /** * Return the indentation needed to show the listsymbol. * * @return a value */ public float listIndent() { return listItem != null ? listItem.getIndentationLeft() : 0; } public ListItem listItem() { return listItem; } /** * Get the string representation of what is in this line. * * @return a String */ @Override public String toString() { StringBuffer tmp = new StringBuffer(); for (PdfChunk pdfChunk : line) { tmp.append((pdfChunk).toString()); } return tmp.toString(); } /** * Returns the length of a line in UTF32 characters * @return the length in UTF32 characters * @since 2.1.2; Get changed into get in 5.0.2 */ public int getLineLengthUtf32() { int total = 0; for (Object element : line) { total += ((PdfChunk)element).lengthUtf32(); } return total; } /** * Checks if a newline caused the line split. * @return true if a newline caused the line split */ public boolean isNewlineSplit() { return newlineSplit && alignment != Element.ALIGN_JUSTIFIED_ALL; } /** * Gets the index of the last PdfChunk with metric attributes * @return the last PdfChunk with metric attributes */ public int getLastStrokeChunk() { int lastIdx = line.size() - 1; for (; lastIdx >= 0; --lastIdx) { PdfChunk chunk = line.get(lastIdx); if (chunk.isStroked()) break; } return lastIdx; } /** * Gets a PdfChunk by index. * @param idx the index * @return the PdfChunk or null if beyond the array */ public PdfChunk getChunk(int idx) { if (idx < 0 || idx >= line.size()) return null; return line.get(idx); } /** * Gets the original width of the line. * @return the original width of the line */ public float getOriginalWidth() { return originalWidth; } /* * Gets the maximum size of all the fonts used in this line * including images. * @return maximum size of all the fonts used in this line float getMaxSizeSimple() { float maxSize = 0; PdfChunk chunk; for (int k = 0; k < line.size(); ++k) { chunk = (PdfChunk)line.get(k); if (!chunk.isImage()) { maxSize = Math.max(chunk.font().size(), maxSize); } else { maxSize = Math.max(chunk.getImage().getScaledHeight() + chunk.getImageOffsetY() , maxSize); } } return maxSize; }*/ /** * Gets the difference between the "normal" leading and the maximum * size (for instance when there are images in the chunk and the leading * has to be taken into account). * @return an extra leading for images * @since 2.1.5 */ float[] getMaxSize(float fixedLeading, float multipliedLeading) { float normal_leading = 0; float image_leading = -10000; PdfChunk chunk; for (int k = 0; k < line.size(); ++k) { chunk = line.get(k); if (chunk.isImage()) { Image img = chunk.getImage(); if (chunk.changeLeading()) { float height = chunk.getImageHeight() + chunk.getImageOffsetY() + img.getSpacingBefore(); image_leading = Math.max(height, image_leading); } } else { if (chunk.changeLeading()) normal_leading = Math.max(chunk.getLeading(), normal_leading); else normal_leading = Math.max(fixedLeading + multipliedLeading * chunk.font().size(), normal_leading); } } return new float[]{normal_leading > 0 ? normal_leading : fixedLeading, image_leading}; } boolean isRTL() { return isRTL; } /** * Gets the number of separators in the line. * Returns -1 if there's a tab in the line. * @return the number of separators in the line * @since 2.1.2 */ int getSeparatorCount() { int s = 0; PdfChunk ck; for (Object element : line) { ck = (PdfChunk)element; if (ck.isTab()) { if (ck.isAttribute(Chunk.TABSETTINGS)) continue; //It seems justification was forbidden in the deprecated tab logic!!! return -1; } if (ck.isHorizontalSeparator()) { s++; } } return s; } /** * Gets a width corrected with a charSpacing and wordSpacing. * @param charSpacing * @param wordSpacing * @return a corrected width */ public float getWidthCorrected(float charSpacing, float wordSpacing) { float total = 0; for (int k = 0; k < line.size(); ++k) { PdfChunk ck = line.get(k); total += ck.getWidthCorrected(charSpacing, wordSpacing); } return total; } /** * Gets the maximum size of the ascender for all the fonts used * in this line. * @return maximum size of all the ascenders used in this line */ public float getAscender() { float ascender = 0; for (int k = 0; k < line.size(); ++k) { PdfChunk ck = line.get(k); if (ck.isImage()) ascender = Math.max(ascender, ck.getImageHeight() + ck.getImageOffsetY()); else { PdfFont font = ck.font(); float textRise = ck.getTextRise(); ascender = Math.max(ascender, (textRise > 0 ? textRise : 0) + font.getFont().getFontDescriptor(BaseFont.ASCENT, font.size())); } } return ascender; } /** * Gets the biggest descender for all the fonts used * in this line. Note that this is a negative number. * @return maximum size of all the descenders used in this line */ public float getDescender() { float descender = 0; for (int k = 0; k < line.size(); ++k) { PdfChunk ck = line.get(k); if (ck.isImage()) descender = Math.min(descender, ck.getImageOffsetY()); else { PdfFont font = ck.font(); float textRise = ck.getTextRise(); descender = Math.min(descender, (textRise < 0 ? textRise : 0) + font.getFont().getFontDescriptor(BaseFont.DESCENT, font.size())); } } return descender; } public void flush() { if (tabStop != null) { float textWidth = originalWidth - width - tabPosition; float tabStopPosition = tabStop.getPosition(tabPosition, originalWidth - width, tabStopAnchorPosition); width = originalWidth - tabStopPosition - textWidth; if (width < 0) tabStopPosition += width; if (!isRTL) tabStop.setPosition(tabStopPosition); else tabStop.setPosition(originalWidth - width - tabPosition); tabStop = null; tabPosition = Float.NaN; } } }





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