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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.
==================================================================== */
package org.apache.poi.xslf.usermodel;

import org.apache.poi.util.Beta;
import org.apache.poi.util.Internal;
import org.apache.poi.util.Units;
import org.apache.poi.xslf.model.ParagraphPropertyFetcher;
import org.apache.xmlbeans.XmlObject;
import org.openxmlformats.schemas.drawingml.x2006.main.*;
import org.openxmlformats.schemas.presentationml.x2006.main.CTPlaceholder;
import org.openxmlformats.schemas.presentationml.x2006.main.STPlaceholderType;

import java.awt.Color;
import java.awt.Graphics2D;
import java.awt.font.LineBreakMeasurer;
import java.awt.font.TextAttribute;
import java.awt.font.TextLayout;
import java.awt.geom.Rectangle2D;
import java.text.AttributedCharacterIterator;
import java.text.AttributedString;
import java.util.ArrayList;
import java.util.Iterator;
import java.util.List;

/**
 * Represents a paragraph of text within the containing text body.
 * The paragraph is the highest level text separation mechanism.
 *
 * @author Yegor Kozlov
 * @since POI-3.8
 */
@Beta
public class XSLFTextParagraph implements Iterable{
    private final CTTextParagraph _p;
    private final List _runs;
    private final XSLFTextShape _shape;
    private List _lines;
    private TextFragment _bullet;
    /**
     * the highest line in this paragraph. Used for line spacing.
     */
    private double _maxLineHeight;

    XSLFTextParagraph(CTTextParagraph p, XSLFTextShape shape){
        _p = p;
        _runs = new ArrayList();
        _shape = shape;

        for(XmlObject ch : _p.selectPath("*")){
            if(ch instanceof CTRegularTextRun){
                CTRegularTextRun r = (CTRegularTextRun)ch;
                _runs.add(new XSLFTextRun(r, this));
            } else if (ch instanceof CTTextLineBreak){
                CTTextLineBreak br = (CTTextLineBreak)ch;
                CTRegularTextRun r = CTRegularTextRun.Factory.newInstance();
                r.setRPr(br.getRPr());
                r.setT("\n");
                _runs.add(new XSLFTextRun(r, this));
            } else if (ch instanceof CTTextField){
                CTTextField f = (CTTextField)ch;
                CTRegularTextRun r = CTRegularTextRun.Factory.newInstance();
                r.setRPr(f.getRPr());
                r.setT(f.getT());
                _runs.add(new XSLFTextRun(r, this));
            }
        }
    }

    public String getText(){
        StringBuilder out = new StringBuilder();
        for (XSLFTextRun r : _runs) {
            out.append(r.getText());
        }
        return out.toString();
    }

    String getRenderableText(){
        StringBuilder out = new StringBuilder();
        for (XSLFTextRun r : _runs) {
            out.append(r.getRenderableText());
        }
        return out.toString();
    }

    @Internal
    public CTTextParagraph getXmlObject(){
        return _p;
    }

    XSLFTextShape getParentShape() {
        return _shape;

    }

    public List getTextRuns(){
        return _runs;
    }

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

    /**
     * Add a new run of text
     *
     * @return a new run of text
     */
    public XSLFTextRun addNewTextRun(){
        CTRegularTextRun r = _p.addNewR();
        CTTextCharacterProperties rPr = r.addNewRPr();
        rPr.setLang("en-US");
        XSLFTextRun run = new XSLFTextRun(r, this);
        _runs.add(run);
        return run;
    }

    /**
     * Insert a line break
     *
     * @return text run representing this line break ('\n')
     */
    public XSLFTextRun addLineBreak(){
        CTTextLineBreak br = _p.addNewBr();
        CTTextCharacterProperties brProps = br.addNewRPr();
        if(_runs.size() > 0){
            // by default line break has the font size of the last text run
            CTTextCharacterProperties prevRun = _runs.get(_runs.size() - 1).getRPr();
            brProps.set(prevRun);
        }
        CTRegularTextRun r = CTRegularTextRun.Factory.newInstance();
        r.setRPr(brProps);
        r.setT("\n");
        XSLFTextRun run = new XSLFLineBreak(r, this, brProps);
        _runs.add(run);
        return run;
    }

    /**
     * Returns the alignment that is applied to the paragraph.
     *
     * If this attribute is omitted, then a value of left is implied.
     * @return ??? alignment that is applied to the paragraph
     */
    public TextAlign getTextAlign(){
        ParagraphPropertyFetcher fetcher = new ParagraphPropertyFetcher(getLevel()){
            public boolean fetch(CTTextParagraphProperties props){
                if(props.isSetAlgn()){
                    TextAlign val = TextAlign.values()[props.getAlgn().intValue() - 1];
                    setValue(val);
                    return true;
                }
                return false;
            }
        };
        fetchParagraphProperty(fetcher);
        return fetcher.getValue() == null ? TextAlign.LEFT : fetcher.getValue();
    }

    /**
     * Specifies the alignment that is to be applied to the paragraph.
     * Possible values for this include left, right, centered, justified and distributed,
     * see {@link org.apache.poi.xslf.usermodel.TextAlign}.
     *
     * @param align text align
     */
    public void setTextAlign(TextAlign align){
        CTTextParagraphProperties pr = _p.isSetPPr() ? _p.getPPr() : _p.addNewPPr();
        if(align == null) {
            if(pr.isSetAlgn()) pr.unsetAlgn();
        } else {
            pr.setAlgn(STTextAlignType.Enum.forInt(align.ordinal() + 1));
        }
    }


    /**
     * @return the font to be used on bullet characters within a given paragraph
     */
    public String getBulletFont(){
        ParagraphPropertyFetcher fetcher = new ParagraphPropertyFetcher(getLevel()){
            public boolean fetch(CTTextParagraphProperties props){
                if(props.isSetBuFont()){
                    setValue(props.getBuFont().getTypeface());
                    return true;
                }
                return false;
            }
        };
        fetchParagraphProperty(fetcher);
        return fetcher.getValue();
    }

    public void setBulletFont(String typeface){
        CTTextParagraphProperties pr = _p.isSetPPr() ? _p.getPPr() : _p.addNewPPr();
        CTTextFont font = pr.isSetBuFont() ? pr.getBuFont() : pr.addNewBuFont();
        font.setTypeface(typeface);
    }

    /**
     * @return the character to be used in place of the standard bullet point
     */
    public String getBulletCharacter(){
        ParagraphPropertyFetcher fetcher = new ParagraphPropertyFetcher(getLevel()){
            public boolean fetch(CTTextParagraphProperties props){
                if(props.isSetBuChar()){
                    setValue(props.getBuChar().getChar());
                    return true;
                }
                return false;
            }
        };
        fetchParagraphProperty(fetcher);
        return fetcher.getValue();
    }

    public void setBulletCharacter(String str){
        CTTextParagraphProperties pr = _p.isSetPPr() ? _p.getPPr() : _p.addNewPPr();
        CTTextCharBullet c = pr.isSetBuChar() ? pr.getBuChar() : pr.addNewBuChar();
        c.setChar(str);
    }

    /**
     *
     * @return the color of bullet characters within a given paragraph.
     * A null value means to use the text font color.
     */
    public Color getBulletFontColor(){
        final XSLFTheme theme = getParentShape().getSheet().getTheme();
        ParagraphPropertyFetcher fetcher = new ParagraphPropertyFetcher(getLevel()){
            public boolean fetch(CTTextParagraphProperties props){
                if(props.isSetBuClr()){
                    XSLFColor c = new XSLFColor(props.getBuClr(), theme, null);
                    setValue(c.getColor());
                    return true;
                }
                return false;
            }
        };
        fetchParagraphProperty(fetcher);
        return fetcher.getValue();
    }

    /**
     * Set the color to be used on bullet characters within a given paragraph.
     *
     * @param color the bullet color
     */
    public void setBulletFontColor(Color color){
        CTTextParagraphProperties pr = _p.isSetPPr() ? _p.getPPr() : _p.addNewPPr();
        CTColor c = pr.isSetBuClr() ? pr.getBuClr() : pr.addNewBuClr();
        CTSRgbColor clr = c.isSetSrgbClr() ? c.getSrgbClr() : c.addNewSrgbClr();
        clr.setVal(new byte[]{(byte) color.getRed(), (byte) color.getGreen(), (byte) color.getBlue()});
    }

    /**
     * Returns the bullet size that is to be used within a paragraph.
     * This may be specified in two different ways, percentage spacing and font point spacing:
     * 

* If bulletSize >= 0, then bulletSize is a percentage of the font size. * If bulletSize < 0, then it specifies the size in points *

* * @return the bullet size */ public double getBulletFontSize(){ ParagraphPropertyFetcher fetcher = new ParagraphPropertyFetcher(getLevel()){ public boolean fetch(CTTextParagraphProperties props){ if(props.isSetBuSzPct()){ setValue(props.getBuSzPct().getVal() * 0.001); return true; } if(props.isSetBuSzPts()){ setValue( - props.getBuSzPts().getVal() * 0.01); return true; } return false; } }; fetchParagraphProperty(fetcher); return fetcher.getValue() == null ? 100 : fetcher.getValue(); } /** * Sets the bullet size that is to be used within a paragraph. * This may be specified in two different ways, percentage spacing and font point spacing: *

* If bulletSize >= 0, then bulletSize is a percentage of the font size. * If bulletSize < 0, then it specifies the size in points *

*/ public void setBulletFontSize(double bulletSize){ CTTextParagraphProperties pr = _p.isSetPPr() ? _p.getPPr() : _p.addNewPPr(); if(bulletSize >= 0) { CTTextBulletSizePercent pt = pr.isSetBuSzPct() ? pr.getBuSzPct() : pr.addNewBuSzPct(); pt.setVal((int)(bulletSize*1000)); if(pr.isSetBuSzPts()) pr.unsetBuSzPts(); } else { CTTextBulletSizePoint pt = pr.isSetBuSzPts() ? pr.getBuSzPts() : pr.addNewBuSzPts(); pt.setVal((int)(-bulletSize*100)); if(pr.isSetBuSzPct()) pr.unsetBuSzPct(); } } /** * Specifies the indent size that will be applied to the first line of text in the paragraph. * * @param value the indent in points. */ public void setIndent(double value){ CTTextParagraphProperties pr = _p.isSetPPr() ? _p.getPPr() : _p.addNewPPr(); if(value == -1) { if(pr.isSetIndent()) pr.unsetIndent(); } else { pr.setIndent(Units.toEMU(value)); } } /** * * @return the indent applied to the first line of text in the paragraph. */ public double getIndent(){ ParagraphPropertyFetcher fetcher = new ParagraphPropertyFetcher(getLevel()){ public boolean fetch(CTTextParagraphProperties props){ if(props.isSetIndent()){ setValue(Units.toPoints(props.getIndent())); return true; } return false; } }; fetchParagraphProperty(fetcher); return fetcher.getValue() == null ? 0 : fetcher.getValue(); } /** * Specifies the left margin of the paragraph. This is specified in addition to the text body * inset and applies only to this text paragraph. That is the text body Inset and the LeftMargin * attributes are additive with respect to the text position. * * @param value the left margin of the paragraph */ public void setLeftMargin(double value){ CTTextParagraphProperties pr = _p.isSetPPr() ? _p.getPPr() : _p.addNewPPr(); if(value == -1) { if(pr.isSetMarL()) pr.unsetMarL(); } else { pr.setMarL(Units.toEMU(value)); } } /** * * @return the left margin of the paragraph */ public double getLeftMargin(){ ParagraphPropertyFetcher fetcher = new ParagraphPropertyFetcher(getLevel()){ public boolean fetch(CTTextParagraphProperties props){ if(props.isSetMarL()){ double val = Units.toPoints(props.getMarL()); setValue(val); return true; } return false; } }; fetchParagraphProperty(fetcher); // if the marL attribute is omitted, then a value of 347663 is implied return fetcher.getValue() == null ? 0 : fetcher.getValue(); } /** * * @return the default size for a tab character within this paragraph in points */ public double getDefaultTabSize(){ ParagraphPropertyFetcher fetcher = new ParagraphPropertyFetcher(getLevel()){ public boolean fetch(CTTextParagraphProperties props){ if(props.isSetDefTabSz()){ double val = Units.toPoints(props.getDefTabSz()); setValue(val); return true; } return false; } }; fetchParagraphProperty(fetcher); return fetcher.getValue() == null ? 0 : fetcher.getValue(); } public double getTabStop(final int idx){ ParagraphPropertyFetcher fetcher = new ParagraphPropertyFetcher(getLevel()){ public boolean fetch(CTTextParagraphProperties props){ if(props.isSetTabLst()){ CTTextTabStopList tabStops = props.getTabLst(); if(idx < tabStops.sizeOfTabArray() ) { CTTextTabStop ts = tabStops.getTabArray(idx); double val = Units.toPoints(ts.getPos()); setValue(val); return true; } } return false; } }; fetchParagraphProperty(fetcher); return fetcher.getValue() == null ? 0. : fetcher.getValue(); } public void addTabStop(double value){ CTTextParagraphProperties pr = _p.isSetPPr() ? _p.getPPr() : _p.addNewPPr(); CTTextTabStopList tabStops = pr.isSetTabLst() ? pr.getTabLst() : pr.addNewTabLst(); tabStops.addNewTab().setPos(Units.toEMU(value)); } /** * This element specifies the vertical line spacing that is to be used within a paragraph. * This may be specified in two different ways, percentage spacing and font point spacing: *

* If linespacing >= 0, then linespacing is a percentage of normal line height * If linespacing < 0, the absolute value of linespacing is the spacing in points *

* Examples: *

     *      // spacing will be 120% of the size of the largest text on each line
     *      paragraph.setLineSpacing(120);
     *
     *      // spacing will be 200% of the size of the largest text on each line
     *      paragraph.setLineSpacing(200);
     *
     *      // spacing will be 48 points
     *      paragraph.setLineSpacing(-48.0);
     * 
* * @param linespacing the vertical line spacing */ public void setLineSpacing(double linespacing){ CTTextParagraphProperties pr = _p.isSetPPr() ? _p.getPPr() : _p.addNewPPr(); CTTextSpacing spc = CTTextSpacing.Factory.newInstance(); if(linespacing >= 0) spc.addNewSpcPct().setVal((int)(linespacing*1000)); else spc.addNewSpcPts().setVal((int)(-linespacing*100)); pr.setLnSpc(spc); } /** * Returns the vertical line spacing that is to be used within a paragraph. * This may be specified in two different ways, percentage spacing and font point spacing: *

* If linespacing >= 0, then linespacing is a percentage of normal line height. * If linespacing < 0, the absolute value of linespacing is the spacing in points *

* * @return the vertical line spacing. */ public double getLineSpacing(){ ParagraphPropertyFetcher fetcher = new ParagraphPropertyFetcher(getLevel()){ public boolean fetch(CTTextParagraphProperties props){ if(props.isSetLnSpc()){ CTTextSpacing spc = props.getLnSpc(); if(spc.isSetSpcPct()) setValue( spc.getSpcPct().getVal()*0.001 ); else if (spc.isSetSpcPts()) setValue( -spc.getSpcPts().getVal()*0.01 ); return true; } return false; } }; fetchParagraphProperty(fetcher); double lnSpc = fetcher.getValue() == null ? 100 : fetcher.getValue(); if(lnSpc > 0) { // check if the percentage value is scaled CTTextNormalAutofit normAutofit = getParentShape().getTextBodyPr().getNormAutofit(); if(normAutofit != null) { double scale = 1 - (double)normAutofit.getLnSpcReduction() / 100000; lnSpc *= scale; } } return lnSpc; } /** * Set the amount of vertical white space that will be present before the paragraph. * This space is specified in either percentage or points: *

* If spaceBefore >= 0, then space is a percentage of normal line height. * If spaceBefore < 0, the absolute value of linespacing is the spacing in points *

* Examples: *

     *      // The paragraph will be formatted to have a spacing before the paragraph text.
     *      // The spacing will be 200% of the size of the largest text on each line
     *      paragraph.setSpaceBefore(200);
     *
     *      // The spacing will be a size of 48 points
     *      paragraph.setSpaceBefore(-48.0);
     * 
* * @param spaceBefore the vertical white space before the paragraph. */ public void setSpaceBefore(double spaceBefore){ CTTextParagraphProperties pr = _p.isSetPPr() ? _p.getPPr() : _p.addNewPPr(); CTTextSpacing spc = CTTextSpacing.Factory.newInstance(); if(spaceBefore >= 0) spc.addNewSpcPct().setVal((int)(spaceBefore*1000)); else spc.addNewSpcPts().setVal((int)(-spaceBefore*100)); pr.setSpcBef(spc); } /** * The amount of vertical white space before the paragraph * This may be specified in two different ways, percentage spacing and font point spacing: *

* If spaceBefore >= 0, then space is a percentage of normal line height. * If spaceBefore < 0, the absolute value of linespacing is the spacing in points *

* * @return the vertical white space before the paragraph */ public double getSpaceBefore(){ ParagraphPropertyFetcher fetcher = new ParagraphPropertyFetcher(getLevel()){ public boolean fetch(CTTextParagraphProperties props){ if(props.isSetSpcBef()){ CTTextSpacing spc = props.getSpcBef(); if(spc.isSetSpcPct()) setValue( spc.getSpcPct().getVal()*0.001 ); else if (spc.isSetSpcPts()) setValue( -spc.getSpcPts().getVal()*0.01 ); return true; } return false; } }; fetchParagraphProperty(fetcher); double spcBef = fetcher.getValue() == null ? 0 : fetcher.getValue(); return spcBef; } /** * Set the amount of vertical white space that will be present after the paragraph. * This space is specified in either percentage or points: *

* If spaceAfter >= 0, then space is a percentage of normal line height. * If spaceAfter < 0, the absolute value of linespacing is the spacing in points *

* Examples: *

     *      // The paragraph will be formatted to have a spacing after the paragraph text.
     *      // The spacing will be 200% of the size of the largest text on each line
     *      paragraph.setSpaceAfter(200);
     *
     *      // The spacing will be a size of 48 points
     *      paragraph.setSpaceAfter(-48.0);
     * 
* * @param spaceAfter the vertical white space after the paragraph. */ public void setSpaceAfter(double spaceAfter){ CTTextParagraphProperties pr = _p.isSetPPr() ? _p.getPPr() : _p.addNewPPr(); CTTextSpacing spc = CTTextSpacing.Factory.newInstance(); if(spaceAfter >= 0) spc.addNewSpcPct().setVal((int)(spaceAfter*1000)); else spc.addNewSpcPts().setVal((int)(-spaceAfter*100)); pr.setSpcAft(spc); } /** * The amount of vertical white space after the paragraph * This may be specified in two different ways, percentage spacing and font point spacing: *

* If spaceBefore >= 0, then space is a percentage of normal line height. * If spaceBefore < 0, the absolute value of linespacing is the spacing in points *

* * @return the vertical white space after the paragraph */ public double getSpaceAfter(){ ParagraphPropertyFetcher fetcher = new ParagraphPropertyFetcher(getLevel()){ public boolean fetch(CTTextParagraphProperties props){ if(props.isSetSpcAft()){ CTTextSpacing spc = props.getSpcAft(); if(spc.isSetSpcPct()) setValue( spc.getSpcPct().getVal()*0.001 ); else if (spc.isSetSpcPts()) setValue( -spc.getSpcPts().getVal()*0.01 ); return true; } return false; } }; fetchParagraphProperty(fetcher); return fetcher.getValue() == null ? 0 : fetcher.getValue(); } /** * Specifies the particular level text properties that this paragraph will follow. * The value for this attribute formats the text according to the corresponding level * paragraph properties defined in the SlideMaster. * * @param level the level (0 ... 4) */ public void setLevel(int level){ CTTextParagraphProperties pr = _p.isSetPPr() ? _p.getPPr() : _p.addNewPPr(); pr.setLvl(level); } /** * * @return the text level of this paragraph (0-based). Default is 0. */ public int getLevel(){ CTTextParagraphProperties pr = _p.getPPr(); if(pr == null) return 0; return pr.getLvl(); } /** * Returns whether this paragraph has bullets */ public boolean isBullet() { ParagraphPropertyFetcher fetcher = new ParagraphPropertyFetcher(getLevel()){ public boolean fetch(CTTextParagraphProperties props){ if(props.isSetBuNone()) { setValue(false); return true; } if(props.isSetBuFont() || props.isSetBuChar()){ setValue(true); return true; } return false; } }; fetchParagraphProperty(fetcher); return fetcher.getValue() == null ? false : fetcher.getValue(); } /** * * @param flag whether text in this paragraph has bullets */ public void setBullet(boolean flag) { if(isBullet() == flag) return; CTTextParagraphProperties pr = _p.isSetPPr() ? _p.getPPr() : _p.addNewPPr(); if(!flag) { pr.addNewBuNone(); } else { pr.addNewBuFont().setTypeface("Arial"); pr.addNewBuChar().setChar("\u2022"); } } /** * Specifies that automatic numbered bullet points should be applied to this paragraph * * @param scheme type of auto-numbering * @param startAt the number that will start number for a given sequence of automatically numbered bullets (1-based). */ public void setBulletAutoNumber(ListAutoNumber scheme, int startAt) { if(startAt < 1) throw new IllegalArgumentException("Start Number must be greater or equal that 1") ; CTTextParagraphProperties pr = _p.isSetPPr() ? _p.getPPr() : _p.addNewPPr(); CTTextAutonumberBullet lst = pr.isSetBuAutoNum() ? pr.getBuAutoNum() : pr.addNewBuAutoNum(); lst.setType(STTextAutonumberScheme.Enum.forInt(scheme.ordinal() + 1)); lst.setStartAt(startAt); } @Override public String toString(){ return "[" + getClass() + "]" + getText(); } List getTextLines(){ return _lines; } /** * Returns wrapping width to break lines in this paragraph * * @param firstLine whether the first line is breaking * * @return wrapping width in points */ double getWrappingWidth(boolean firstLine, Graphics2D graphics){ // internal margins for the text box double leftInset = _shape.getLeftInset(); double rightInset = _shape.getRightInset(); RenderableShape rShape = new RenderableShape(_shape); Rectangle2D anchor = rShape.getAnchor(graphics); double leftMargin = getLeftMargin(); double indent = getIndent(); double width; if(!_shape.getWordWrap()) { // if wordWrap == false then we return the advance to the right border of the sheet width = _shape.getSheet().getSlideShow().getPageSize().getWidth() - anchor.getX(); } else { width = anchor.getWidth() - leftInset - rightInset - leftMargin; if(firstLine) { if(isBullet()){ if(indent > 0) width -= indent; } else { if(indent > 0) width -= indent; // first line indentation else if (indent < 0) { // hanging indentation: the first line start at the left margin width += leftMargin; } } } } return width; } public double draw(Graphics2D graphics, double x, double y){ double leftInset = _shape.getLeftInset(); double rightInset = _shape.getRightInset(); RenderableShape rShape = new RenderableShape(_shape); Rectangle2D anchor = rShape.getAnchor(graphics); double penY = y; double leftMargin = getLeftMargin(); boolean firstLine = true; double indent = getIndent(); //The vertical line spacing double spacing = getLineSpacing(); for(TextFragment line : _lines){ double penX = x + leftMargin; if(firstLine) { if(_bullet != null){ if(indent < 0) { // a negative value means "Hanging" indentation and // indicates the position of the actual bullet character. // (the bullet is shifted to right relative to the text) _bullet.draw(graphics, penX + indent, penY); } else if(indent > 0){ // a positive value means the "First Line" indentation: // the first line is indented and other lines start at the bullet ofset _bullet.draw(graphics, penX, penY); penX += indent; } else { // a zero indent means that the bullet and text have the same offset _bullet.draw(graphics, penX, penY); // don't let text overlay the bullet and advance by the bullet width penX += _bullet._layout.getAdvance() + 1; } } else { penX += indent; } } switch (getTextAlign()) { case CENTER: penX += (anchor.getWidth() - leftMargin - line.getWidth() - leftInset - rightInset) / 2; break; case RIGHT: penX += (anchor.getWidth() - line.getWidth() - leftInset - rightInset); break; default: break; } line.draw(graphics, penX, penY); if(spacing > 0) { // If linespacing >= 0, then linespacing is a percentage of normal line height. penY += spacing*0.01* line.getHeight(); } else { // positive value means absolute spacing in points penY += -spacing; } firstLine = false; } return penY - y; } AttributedString getAttributedString(Graphics2D graphics){ String text = getRenderableText(); AttributedString string = new AttributedString(text); XSLFFontManager fontHandler = (XSLFFontManager)graphics.getRenderingHint(XSLFRenderingHint.FONT_HANDLER); int startIndex = 0; for (XSLFTextRun run : _runs){ int length = run.getRenderableText().length(); if(length == 0) { // skip empty runs continue; } int endIndex = startIndex + length; string.addAttribute(TextAttribute.FOREGROUND, run.getFontColor(), startIndex, endIndex); // user can pass an custom object to convert fonts String fontFamily = run.getFontFamily(); if(fontHandler != null) { fontFamily = fontHandler.getRendererableFont(fontFamily, run.getPitchAndFamily()); } string.addAttribute(TextAttribute.FAMILY, fontFamily, startIndex, endIndex); float fontSz = (float)run.getFontSize(); string.addAttribute(TextAttribute.SIZE, fontSz , startIndex, endIndex); if(run.isBold()) { string.addAttribute(TextAttribute.WEIGHT, TextAttribute.WEIGHT_BOLD, startIndex, endIndex); } if(run.isItalic()) { string.addAttribute(TextAttribute.POSTURE, TextAttribute.POSTURE_OBLIQUE, startIndex, endIndex); } if(run.isUnderline()) { string.addAttribute(TextAttribute.UNDERLINE, TextAttribute.UNDERLINE_ON, startIndex, endIndex); string.addAttribute(TextAttribute.INPUT_METHOD_UNDERLINE, TextAttribute.UNDERLINE_LOW_TWO_PIXEL, startIndex, endIndex); } if(run.isStrikethrough()) { string.addAttribute(TextAttribute.STRIKETHROUGH, TextAttribute.STRIKETHROUGH_ON, startIndex, endIndex); } if(run.isSubscript()) { string.addAttribute(TextAttribute.SUPERSCRIPT, TextAttribute.SUPERSCRIPT_SUB, startIndex, endIndex); } if(run.isSuperscript()) { string.addAttribute(TextAttribute.SUPERSCRIPT, TextAttribute.SUPERSCRIPT_SUPER, startIndex, endIndex); } startIndex = endIndex; } return string; } /** * ensure that the paragraph contains at least one character. * We need this trick to correctly measure text */ private void ensureNotEmpty(){ XSLFTextRun r = addNewTextRun(); r.setText(" "); CTTextCharacterProperties endPr = _p.getEndParaRPr(); if(endPr != null) { if(endPr.isSetSz()) r.setFontSize(endPr.getSz() / 100); } } /** * break text into lines * * @param graphics * @return array of text fragments, * each representing a line of text that fits in the wrapping width */ List breakText(Graphics2D graphics){ _lines = new ArrayList(); // does this paragraph contain text? boolean emptyParagraph = _runs.size() == 0; // ensure that the paragraph contains at least one character if(_runs.size() == 0) ensureNotEmpty(); String text = getRenderableText(); if(text.length() == 0) return _lines; AttributedString at = getAttributedString(graphics); AttributedCharacterIterator it = at.getIterator(); LineBreakMeasurer measurer = new LineBreakMeasurer(it, graphics.getFontRenderContext()) ; for (;;) { int startIndex = measurer.getPosition(); double wrappingWidth = getWrappingWidth(_lines.size() == 0, graphics) + 1; // add a pixel to compensate rounding errors // shape width can be smaller that the sum of insets (this was proved by a test file) if(wrappingWidth < 0) wrappingWidth = 1; int nextBreak = text.indexOf('\n', startIndex + 1); if(nextBreak == -1) nextBreak = it.getEndIndex(); TextLayout layout = measurer.nextLayout((float)wrappingWidth, nextBreak, true); if (layout == null) { // layout can be null if the entire word at the current position // does not fit within the wrapping width. Try with requireNextWord=false. layout = measurer.nextLayout((float)wrappingWidth, nextBreak, false); } if(layout == null) { // exit if can't break any more break; } int endIndex = measurer.getPosition(); // skip over new line breaks (we paint 'clear' text runs not starting or ending with \n) if(endIndex < it.getEndIndex() && text.charAt(endIndex) == '\n'){ measurer.setPosition(endIndex + 1); } TextAlign hAlign = getTextAlign(); if(hAlign == TextAlign.JUSTIFY || hAlign == TextAlign.JUSTIFY_LOW) { layout = layout.getJustifiedLayout((float)wrappingWidth); } AttributedString str = new AttributedString(it, startIndex, endIndex); TextFragment line = new TextFragment( layout, // we will not paint empty paragraphs emptyParagraph ? null : str); _lines.add(line); _maxLineHeight = Math.max(_maxLineHeight, line.getHeight()); if(endIndex == it.getEndIndex()) break; } if(isBullet() && !emptyParagraph) { String buCharacter = getBulletCharacter(); String buFont = getBulletFont(); if(buFont == null) buFont = getTextRuns().get(0).getFontFamily(); if(buCharacter != null && buFont != null && _lines.size() > 0) { AttributedString str = new AttributedString(buCharacter); TextFragment firstLine = _lines.get(0); AttributedCharacterIterator bit = firstLine._str.getIterator(); Color buColor = getBulletFontColor(); str.addAttribute(TextAttribute.FOREGROUND, buColor == null ? bit.getAttribute(TextAttribute.FOREGROUND) : buColor); str.addAttribute(TextAttribute.FAMILY, buFont); float fontSize = (Float)bit.getAttribute(TextAttribute.SIZE); float buSz = (float)getBulletFontSize(); if(buSz > 0) fontSize *= buSz* 0.01; else fontSize = -buSz; str.addAttribute(TextAttribute.SIZE, fontSize); TextLayout layout = new TextLayout(str.getIterator(), graphics.getFontRenderContext()); _bullet = new TextFragment(layout, str); } } return _lines; } CTTextParagraphProperties getDefaultMasterStyle(){ CTPlaceholder ph = _shape.getCTPlaceholder(); String defaultStyleSelector; if(ph == null) defaultStyleSelector = "otherStyle"; // no placeholder means plain text box else { switch(ph.getType().intValue()){ case STPlaceholderType.INT_TITLE: case STPlaceholderType.INT_CTR_TITLE: defaultStyleSelector = "titleStyle"; break; case STPlaceholderType.INT_FTR: case STPlaceholderType.INT_SLD_NUM: case STPlaceholderType.INT_DT: defaultStyleSelector = "otherStyle"; break; default: defaultStyleSelector = "bodyStyle"; break; } } int level = getLevel(); // wind up and find the root master sheet which must be slide master XSLFSheet masterSheet = _shape.getSheet(); while (masterSheet.getMasterSheet() != null){ masterSheet = masterSheet.getMasterSheet(); } XmlObject[] o = masterSheet.getXmlObject().selectPath( "declare namespace p='http://schemas.openxmlformats.org/presentationml/2006/main' " + "declare namespace a='http://schemas.openxmlformats.org/drawingml/2006/main' " + ".//p:txStyles/p:" + defaultStyleSelector +"/a:lvl" +(level+1)+ "pPr"); if (o.length == 1){ return (CTTextParagraphProperties)o[0]; } else { o = masterSheet.getXmlObject().selectPath( "declare namespace p='http://schemas.openxmlformats.org/presentationml/2006/main' " + "declare namespace a='http://schemas.openxmlformats.org/drawingml/2006/main' " + ".//p:notesStyle/a:lvl" +(level+1)+ "pPr"); if (o.length == 1){ return (CTTextParagraphProperties)o[0]; } throw new IllegalArgumentException("Failed to fetch default style for " + defaultStyleSelector + " and level=" + level); } } private boolean fetchParagraphProperty(ParagraphPropertyFetcher visitor){ boolean ok = false; if(_p.isSetPPr()) ok = visitor.fetch(_p.getPPr()); if(!ok) { XSLFTextShape shape = getParentShape(); ok = shape.fetchShapeProperty(visitor); if(!ok){ CTPlaceholder ph = shape.getCTPlaceholder(); if(ph == null){ // if it is a plain text box then take defaults from presentation.xml XMLSlideShow ppt = getParentShape().getSheet().getSlideShow(); CTTextParagraphProperties themeProps = ppt.getDefaultParagraphStyle(getLevel()); if(themeProps != null) ok = visitor.fetch(themeProps); } if(!ok){ // defaults for placeholders are defined in the slide master CTTextParagraphProperties defaultProps = getDefaultMasterStyle(); if(defaultProps != null) ok = visitor.fetch(defaultProps); } } } return ok; } void copy(XSLFTextParagraph p){ TextAlign srcAlign = p.getTextAlign(); if(srcAlign != getTextAlign()){ setTextAlign(srcAlign); } boolean isBullet = p.isBullet(); if(isBullet != isBullet()){ setBullet(isBullet); if(isBullet) { String buFont = p.getBulletFont(); if(buFont != null && !buFont.equals(getBulletFont())){ setBulletFont(buFont); } String buChar = p.getBulletCharacter(); if(buChar != null && !buChar.equals(getBulletCharacter())){ setBulletCharacter(buChar); } Color buColor = p.getBulletFontColor(); if(buColor != null && !buColor.equals(getBulletFontColor())){ setBulletFontColor(buColor); } double buSize = p.getBulletFontSize(); if(buSize != getBulletFontSize()){ setBulletFontSize(buSize); } } } double leftMargin = p.getLeftMargin(); if(leftMargin != getLeftMargin()){ setLeftMargin(leftMargin); } double indent = p.getIndent(); if(indent != getIndent()){ setIndent(indent); } double spaceAfter = p.getSpaceAfter(); if(spaceAfter != getSpaceAfter()){ setSpaceAfter(spaceAfter); } double spaceBefore = p.getSpaceBefore(); if(spaceBefore != getSpaceBefore()){ setSpaceBefore(spaceBefore); } double lineSpacing = p.getLineSpacing(); if(lineSpacing != getLineSpacing()){ setLineSpacing(lineSpacing); } List srcR = p.getTextRuns(); List tgtR = getTextRuns(); for(int i = 0; i < srcR.size(); i++){ XSLFTextRun r1 = srcR.get(i); XSLFTextRun r2 = tgtR.get(i); r2.copy(r1); } } }




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