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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.hslf.model;


import java.awt.BasicStroke;
import java.awt.Color;
import java.awt.Composite;
import java.awt.Font;
import java.awt.FontMetrics;
import java.awt.Graphics;
import java.awt.Graphics2D;
import java.awt.GraphicsConfiguration;
import java.awt.GraphicsEnvironment;
import java.awt.Image;
import java.awt.Paint;
import java.awt.Rectangle;
import java.awt.RenderingHints;
import java.awt.Shape;
import java.awt.Stroke;
import java.awt.Toolkit;
import java.awt.font.FontRenderContext;
import java.awt.font.GlyphVector;
import java.awt.font.TextLayout;
import java.awt.geom.AffineTransform;
import java.awt.geom.Arc2D;
import java.awt.geom.Ellipse2D;
import java.awt.geom.GeneralPath;
import java.awt.geom.Line2D;
import java.awt.geom.Path2D;
import java.awt.geom.RoundRectangle2D;
import java.awt.image.BufferedImage;
import java.awt.image.BufferedImageOp;
import java.awt.image.ImageObserver;
import java.awt.image.RenderedImage;
import java.awt.image.renderable.RenderableImage;
import java.text.AttributedCharacterIterator;
import java.util.Map;

import org.apache.poi.hslf.exceptions.HSLFException;
import org.apache.poi.hslf.usermodel.HSLFFreeformShape;
import org.apache.poi.hslf.usermodel.HSLFGroupShape;
import org.apache.poi.hslf.usermodel.HSLFSimpleShape;
import org.apache.poi.hslf.usermodel.HSLFTextBox;
import org.apache.poi.hslf.usermodel.HSLFTextRun;
import org.apache.poi.sl.draw.DrawPaint;
import org.apache.poi.sl.usermodel.StrokeStyle;
import org.apache.poi.sl.usermodel.VerticalAlignment;
import org.apache.poi.util.NotImplemented;
import org.apache.poi.util.POILogFactory;
import org.apache.poi.util.POILogger;
import org.apache.poi.util.SuppressForbidden;

/**
 * Translates Graphics2D calls into PowerPoint.
 */
public final class PPGraphics2D extends Graphics2D implements Cloneable {

    private static final POILogger LOG = POILogFactory.getLogger(PPGraphics2D.class);

    //The ppt object to write into.
    private HSLFGroupShape _group;

    private AffineTransform _transform;
    private Stroke _stroke;
    private Paint _paint;
    private Font _font;
    private Color _foreground;
    private Color _background;
    private RenderingHints _hints;

    /**
     * Construct Java Graphics object which translates graphic calls in ppt drawing layer.
     *
     * @param group           The shape group to write the graphics calls into.
     */
    public PPGraphics2D(HSLFGroupShape group){
        this._group = group;

        _transform = new AffineTransform();
        _stroke = new BasicStroke();
        _paint = Color.black;
        _font = new Font("Arial", Font.PLAIN, 12);
        _background = Color.black;
        _foreground = Color.white;
        _hints = new RenderingHints(null);
    }

    /**
     * @return  the shape group being used for drawing
     */
    public HSLFGroupShape getShapeGroup(){
        return _group;
    }

    /**
     * Gets the current font.
     * @return    this graphics context's current font.
     * @see       java.awt.Font
     * @see       java.awt.Graphics#setFont(Font)
     */
    public Font getFont(){
        return _font;
    }

    /**
     * Sets this graphics context's font to the specified font.
     * All subsequent text operations using this graphics context
     * use this font.
     * @param  font   the font.
     * @see     java.awt.Graphics#getFont
     * @see     java.awt.Graphics#drawString(java.lang.String, int, int)
     * @see     java.awt.Graphics#drawBytes(byte[], int, int, int, int)
     * @see     java.awt.Graphics#drawChars(char[], int, int, int, int)
    */
    public void setFont(Font font){
        this._font = font;
    }

    /**
     * Gets this graphics context's current color.
     * @return    this graphics context's current color.
     * @see       java.awt.Color
     * @see       java.awt.Graphics#setColor
     */
    public Color getColor(){
        return _foreground;
    }

    /**
     * Sets this graphics context's current color to the specified
     * color. All subsequent graphics operations using this graphics
     * context use this specified color.
     * @param     c   the new rendering color.
     * @see       java.awt.Color
     * @see       java.awt.Graphics#getColor
     */
    public void setColor(Color c) {
        setPaint(c);
    }

    /**
     * Returns the current Stroke in the
     * Graphics2D context.
     * @return the current Graphics2D Stroke,
     *                 which defines the line style.
     * @see #setStroke
     */
    public Stroke getStroke(){
        return _stroke;
    }

    /**
     * Sets the Stroke for the Graphics2D context.
     * @param s the Stroke object to be used to stroke a
     * Shape during the rendering process
     */
    public void setStroke(Stroke s){
        this._stroke = s;
    }

    /**
     * Returns the current Paint of the
     * Graphics2D context.
     * @return the current Graphics2D Paint,
     * which defines a color or pattern.
     * @see #setPaint
     * @see java.awt.Graphics#setColor
     */
    public Paint getPaint(){
        return _paint;
    }

    /**
     * Sets the Paint attribute for the
     * Graphics2D context.  Calling this method
     * with a null Paint object does
     * not have any effect on the current Paint attribute
     * of this Graphics2D.
     * @param paint the Paint object to be used to generate
     * color during the rendering process, or null
     * @see java.awt.Graphics#setColor
     */
    public void setPaint(Paint paint){
        if(paint == null) return;

        this._paint = paint;
        if (paint instanceof Color) _foreground = (Color)paint;
    }

    /**
     * Returns a copy of the current Transform in the
     * Graphics2D context.
     * @return the current AffineTransform in the
     *             Graphics2D context.
     * @see #_transform
     * @see #setTransform
     */
    public AffineTransform getTransform(){
        return new AffineTransform(_transform);
    }

    /**
     * Sets the Transform in the Graphics2D
     * context.
     * @param Tx the AffineTransform object to be used in the
     * rendering process
     * @see #_transform
     * @see AffineTransform
     */
    public void setTransform(AffineTransform Tx) {
        _transform = new AffineTransform(Tx);
    }

    /**
     * Strokes the outline of a Shape using the settings of the
     * current Graphics2D context.  The rendering attributes
     * applied include the Clip, Transform,
     * Paint, Composite and
     * Stroke attributes.
     * @param shape the Shape to be rendered
     * @see #setStroke
     * @see #setPaint
     * @see java.awt.Graphics#setColor
     * @see #_transform
     * @see #setTransform
     * @see #clip
     * @see #setClip
     * @see #setComposite
     */
    public void draw(Shape shape){
        Path2D.Double path = new Path2D.Double(_transform.createTransformedShape(shape));
        HSLFFreeformShape p = new HSLFFreeformShape(_group);
        p.setPath(path);
        p.getFill().setForegroundColor(null);
        applyStroke(p);
        if (_paint instanceof Color) {
            p.setLineColor((Color)_paint);
        }
        _group.addShape(p);
    }

    /**
     * Renders the text specified by the specified String,
     * using the current text attribute state in the Graphics2D context.
     * The baseline of the first character is at position
     * (xy) in the User Space.
     * The rendering attributes applied include the Clip,
     * Transform, Paint, Font and
     * Composite attributes. For characters in script systems
     * such as Hebrew and Arabic, the glyphs can be rendered from right to
     * left, in which case the coordinate supplied is the location of the
     * leftmost character on the baseline.
     * @param s the String to be rendered
     * @param x the x coordinate of the location where the
     * String should be rendered
     * @param y the y coordinate of the location where the
     * String should be rendered
     * @throws NullPointerException if str is
     *         null
     * @see #setPaint
     * @see java.awt.Graphics#setColor
     * @see java.awt.Graphics#setFont
     * @see #setTransform
     * @see #setComposite
     * @see #setClip
     */
    public void drawString(String s, float x, float y) {
        HSLFTextBox txt = new HSLFTextBox(_group);
        txt.setSheet(_group.getSheet());
        txt.setText(s);

        HSLFTextRun rt = txt.getTextParagraphs().get(0).getTextRuns().get(0);
        rt.setFontSize((double)_font.getSize());
        rt.setFontFamily(_font.getFamily());

        if (getColor() != null) rt.setFontColor(DrawPaint.createSolidPaint(getColor()));
        if (_font.isBold()) rt.setBold(true);
        if (_font.isItalic()) rt.setItalic(true);

        txt.setBottomInset(0);
        txt.setTopInset(0);
        txt.setLeftInset(0);
        txt.setRightInset(0);
        txt.setWordWrap(false);
        txt.setHorizontalCentered(false);
        txt.setVerticalAlignment(VerticalAlignment.MIDDLE);


        TextLayout layout = new TextLayout(s, _font, getFontRenderContext());
        float ascent = layout.getAscent();

        float width = (float) Math.floor(layout.getAdvance());
        /**
         * Even if top and bottom margins are set to 0 PowerPoint
         * always sets extra space between the text and its bounding box.
         *
         * The approximation height = ascent*2 works good enough in most cases
         */
        float height = ascent * 2;

        /*
          In powerpoint anchor of a shape is its top left corner.
          Java graphics sets string coordinates by the baseline of the first character
          so we need to shift up by the height of the textbox
        */
        y -= height / 2 + ascent / 2;

        /*
          In powerpoint anchor of a shape is its top left corner.
          Java graphics sets string coordinates by the baseline of the first character
          so we need to shift down by the height of the textbox
        */
        txt.setAnchor(new Rectangle((int)x, (int)y, (int)width, (int)height));

        _group.addShape(txt);
    }

    /**
     * Fills the interior of a Shape using the settings of the
     * Graphics2D context. The rendering attributes applied
     * include the Clip, Transform,
     * Paint, and Composite.
     * @param shape the Shape to be filled
     * @see #setPaint
     * @see java.awt.Graphics#setColor
     * @see #_transform
     * @see #setTransform
     * @see #setComposite
     * @see #clip
     * @see #setClip
     */
    public void fill(Shape shape){
        Path2D.Double path = new Path2D.Double(_transform.createTransformedShape(shape));
        HSLFFreeformShape p = new HSLFFreeformShape(_group);
        p.setPath(path);
        applyPaint(p);
        p.setLineColor(null);   //Fills must be "No Line"
        _group.addShape(p);
    }

    /**
     * Translates the origin of the graphics context to the point
     * (xy) in the current coordinate system.
     * Modifies this graphics context so that its new origin corresponds
     * to the point (xy) in this graphics context's
     * original coordinate system.  All coordinates used in subsequent
     * rendering operations on this graphics context will be relative
     * to this new origin.
     * @param  x   the x coordinate.
     * @param  y   the y coordinate.
     */
    public void translate(int x, int y){
        _transform.translate(x, y);
    }

    /**
     * Intersects the current Clip with the interior of the
     * specified Shape and sets the Clip to the
     * resulting intersection.  The specified Shape is
     * transformed with the current Graphics2D
     * Transform before being intersected with the current
     * Clip.  This method is used to make the current
     * Clip smaller.
     * To make the Clip larger, use setClip.
     * The user clip modified by this method is independent of the
     * clipping associated with device bounds and visibility.  If no clip has
     * previously been set, or if the clip has been cleared using
     * {@link java.awt.Graphics#setClip(Shape) setClip} with a
     * null argument, the specified Shape becomes
     * the new user clip.
     * @param s the Shape to be intersected with the current
     *          Clip.  If s is null,
     *          this method clears the current Clip.
     */
    @NotImplemented
    public void clip(Shape s){
        if (LOG.check(POILogger.WARN)) {
            LOG.log(POILogger.WARN, "Not implemented");
        }
    }

    /**
     * Gets the current clipping area.
     * This method returns the user clip, which is independent of the
     * clipping associated with device bounds and window visibility.
     * If no clip has previously been set, or if the clip has been
     * cleared using setClip(null), this method returns
     * null.
     * @return      a Shape object representing the
     *              current clipping area, or null if
     *              no clip is set.
     * @see         java.awt.Graphics#getClipBounds()
     * @see         java.awt.Graphics#clipRect
     * @see         java.awt.Graphics#setClip(int, int, int, int)
     * @see         java.awt.Graphics#setClip(Shape)
     * @since       JDK1.1
     */
    @NotImplemented
    public Shape getClip(){
        if (LOG.check(POILogger.WARN)) {
            LOG.log(POILogger.WARN, "Not implemented");
        }
        return null;
    }

    /**
     * Concatenates the current Graphics2D
     * Transform with a scaling transformation
     * Subsequent rendering is resized according to the specified scaling
     * factors relative to the previous scaling.
     * This is equivalent to calling transform(S), where S is an
     * AffineTransform represented by the following matrix:
     * 
     *          [   sx   0    0   ]
     *          [   0    sy   0   ]
     *          [   0    0    1   ]
     * 
* @param sx the amount by which X coordinates in subsequent * rendering operations are multiplied relative to previous * rendering operations. * @param sy the amount by which Y coordinates in subsequent * rendering operations are multiplied relative to previous * rendering operations. */ public void scale(double sx, double sy){ _transform.scale(sx, sy); } /** * Draws an outlined round-cornered rectangle using this graphics * context's current color. The left and right edges of the rectangle * are at x and x + width, * respectively. The top and bottom edges of the rectangle are at * y and y + height. * @param x the x coordinate of the rectangle to be drawn. * @param y the y coordinate of the rectangle to be drawn. * @param width the width of the rectangle to be drawn. * @param height the height of the rectangle to be drawn. * @param arcWidth the horizontal diameter of the arc * at the four corners. * @param arcHeight the vertical diameter of the arc * at the four corners. * @see java.awt.Graphics#fillRoundRect */ public void drawRoundRect(int x, int y, int width, int height, int arcWidth, int arcHeight){ RoundRectangle2D rect = new RoundRectangle2D.Float(x, y, width, height, arcWidth, arcHeight); draw(rect); } /** * Draws the text given by the specified string, using this * graphics context's current font and color. The baseline of the * first character is at position (xy) in this * graphics context's coordinate system. * @param str the string to be drawn. * @param x the x coordinate. * @param y the y coordinate. * @see java.awt.Graphics#drawBytes * @see java.awt.Graphics#drawChars */ public void drawString(String str, int x, int y){ drawString(str, (float)x, (float)y); } /** * Fills an oval bounded by the specified rectangle with the * current color. * @param x the x coordinate of the upper left corner * of the oval to be filled. * @param y the y coordinate of the upper left corner * of the oval to be filled. * @param width the width of the oval to be filled. * @param height the height of the oval to be filled. * @see java.awt.Graphics#drawOval */ public void fillOval(int x, int y, int width, int height){ Ellipse2D oval = new Ellipse2D.Float(x, y, width, height); fill(oval); } /** * Fills the specified rounded corner rectangle with the current color. * The left and right edges of the rectangle * are at x and x + width - 1, * respectively. The top and bottom edges of the rectangle are at * y and y + height - 1. * @param x the x coordinate of the rectangle to be filled. * @param y the y coordinate of the rectangle to be filled. * @param width the width of the rectangle to be filled. * @param height the height of the rectangle to be filled. * @param arcWidth the horizontal diameter * of the arc at the four corners. * @param arcHeight the vertical diameter * of the arc at the four corners. * @see java.awt.Graphics#drawRoundRect */ public void fillRoundRect(int x, int y, int width, int height, int arcWidth, int arcHeight){ RoundRectangle2D rect = new RoundRectangle2D.Float(x, y, width, height, arcWidth, arcHeight); fill(rect); } /** * Fills a circular or elliptical arc covering the specified rectangle. *

* The resulting arc begins at startAngle and extends * for arcAngle degrees. * Angles are interpreted such that 0 degrees * is at the 3 o'clock position. * A positive value indicates a counter-clockwise rotation * while a negative value indicates a clockwise rotation. *

* The center of the arc is the center of the rectangle whose origin * is (xy) and whose size is specified by the * width and height arguments. *

* The resulting arc covers an area * width + 1 pixels wide * by height + 1 pixels tall. *

* The angles are specified relative to the non-square extents of * the bounding rectangle such that 45 degrees always falls on the * line from the center of the ellipse to the upper right corner of * the bounding rectangle. As a result, if the bounding rectangle is * noticeably longer in one axis than the other, the angles to the * start and end of the arc segment will be skewed farther along the * longer axis of the bounds. * @param x the x coordinate of the * upper-left corner of the arc to be filled. * @param y the y coordinate of the * upper-left corner of the arc to be filled. * @param width the width of the arc to be filled. * @param height the height of the arc to be filled. * @param startAngle the beginning angle. * @param arcAngle the angular extent of the arc, * relative to the start angle. * @see java.awt.Graphics#drawArc */ public void fillArc(int x, int y, int width, int height, int startAngle, int arcAngle){ Arc2D arc = new Arc2D.Float(x, y, width, height, startAngle, arcAngle, Arc2D.PIE); fill(arc); } /** * Draws the outline of a circular or elliptical arc * covering the specified rectangle. *

* The resulting arc begins at startAngle and extends * for arcAngle degrees, using the current color. * Angles are interpreted such that 0 degrees * is at the 3 o'clock position. * A positive value indicates a counter-clockwise rotation * while a negative value indicates a clockwise rotation. *

* The center of the arc is the center of the rectangle whose origin * is (xy) and whose size is specified by the * width and height arguments. *

* The resulting arc covers an area * width + 1 pixels wide * by height + 1 pixels tall. *

* The angles are specified relative to the non-square extents of * the bounding rectangle such that 45 degrees always falls on the * line from the center of the ellipse to the upper right corner of * the bounding rectangle. As a result, if the bounding rectangle is * noticeably longer in one axis than the other, the angles to the * start and end of the arc segment will be skewed farther along the * longer axis of the bounds. * @param x the x coordinate of the * upper-left corner of the arc to be drawn. * @param y the y coordinate of the * upper-left corner of the arc to be drawn. * @param width the width of the arc to be drawn. * @param height the height of the arc to be drawn. * @param startAngle the beginning angle. * @param arcAngle the angular extent of the arc, * relative to the start angle. * @see java.awt.Graphics#fillArc */ public void drawArc(int x, int y, int width, int height, int startAngle, int arcAngle) { Arc2D arc = new Arc2D.Float(x, y, width, height, startAngle, arcAngle, Arc2D.OPEN); draw(arc); } /** * Draws a sequence of connected lines defined by * arrays of x and y coordinates. * Each pair of (xy) coordinates defines a point. * The figure is not closed if the first point * differs from the last point. * @param xPoints an array of x points * @param yPoints an array of y points * @param nPoints the total number of points * @see java.awt.Graphics#drawPolygon(int[], int[], int) * @since JDK1.1 */ public void drawPolyline(int[] xPoints, int[] yPoints, int nPoints){ if(nPoints > 0){ GeneralPath path = new GeneralPath(); path.moveTo(xPoints[0], yPoints[0]); for(int i=1; ix, y, * width, and height arguments. *

* The oval covers an area that is * width + 1 pixels wide * and height + 1 pixels tall. * @param x the x coordinate of the upper left * corner of the oval to be drawn. * @param y the y coordinate of the upper left * corner of the oval to be drawn. * @param width the width of the oval to be drawn. * @param height the height of the oval to be drawn. * @see java.awt.Graphics#fillOval */ public void drawOval(int x, int y, int width, int height){ Ellipse2D oval = new Ellipse2D.Float(x, y, width, height); draw(oval); } /** * Draws as much of the specified image as is currently available. * The image is drawn with its top-left corner at * (xy) in this graphics context's coordinate * space. Transparent pixels are drawn in the specified * background color. *

* This operation is equivalent to filling a rectangle of the * width and height of the specified image with the given color and then * drawing the image on top of it, but possibly more efficient. *

* This method returns immediately in all cases, even if the * complete image has not yet been loaded, and it has not been dithered * and converted for the current output device. *

* If the image has not yet been completely loaded, then * drawImage returns false. As more of * the image becomes available, the process that draws the image notifies * the specified image observer. * @param img the specified image to be drawn. * @param x the x coordinate. * @param y the y coordinate. * @param bgcolor the background color to paint under the * non-opaque portions of the image. * @param observer object to be notified as more of * the image is converted. * @see java.awt.Image * @see java.awt.image.ImageObserver * @see java.awt.image.ImageObserver#imageUpdate(java.awt.Image, int, int, int, int, int) */ @NotImplemented public boolean drawImage(Image img, int x, int y, Color bgcolor, ImageObserver observer){ if (LOG.check(POILogger.WARN)) { LOG.log(POILogger.WARN, "Not implemented"); } return false; } /** * Draws as much of the specified image as has already been scaled * to fit inside the specified rectangle. *

* The image is drawn inside the specified rectangle of this * graphics context's coordinate space, and is scaled if * necessary. Transparent pixels are drawn in the specified * background color. * This operation is equivalent to filling a rectangle of the * width and height of the specified image with the given color and then * drawing the image on top of it, but possibly more efficient. *

* This method returns immediately in all cases, even if the * entire image has not yet been scaled, dithered, and converted * for the current output device. * If the current output representation is not yet complete then * drawImage returns false. As more of * the image becomes available, the process that draws the image notifies * the specified image observer. *

* A scaled version of an image will not necessarily be * available immediately just because an unscaled version of the * image has been constructed for this output device. Each size of * the image may be cached separately and generated from the original * data in a separate image production sequence. * @param img the specified image to be drawn. * @param x the x coordinate. * @param y the y coordinate. * @param width the width of the rectangle. * @param height the height of the rectangle. * @param bgcolor the background color to paint under the * non-opaque portions of the image. * @param observer object to be notified as more of * the image is converted. * @see java.awt.Image * @see java.awt.image.ImageObserver * @see java.awt.image.ImageObserver#imageUpdate(java.awt.Image, int, int, int, int, int) */ @NotImplemented public boolean drawImage(Image img, int x, int y, int width, int height, Color bgcolor, ImageObserver observer){ if (LOG.check(POILogger.WARN)) { LOG.log(POILogger.WARN, "Not implemented"); } return false; } /** * Draws as much of the specified area of the specified image as is * currently available, scaling it on the fly to fit inside the * specified area of the destination drawable surface. Transparent pixels * do not affect whatever pixels are already there. *

* This method returns immediately in all cases, even if the * image area to be drawn has not yet been scaled, dithered, and converted * for the current output device. * If the current output representation is not yet complete then * drawImage returns false. As more of * the image becomes available, the process that draws the image notifies * the specified image observer. *

* This method always uses the unscaled version of the image * to render the scaled rectangle and performs the required * scaling on the fly. It does not use a cached, scaled version * of the image for this operation. Scaling of the image from source * to destination is performed such that the first coordinate * of the source rectangle is mapped to the first coordinate of * the destination rectangle, and the second source coordinate is * mapped to the second destination coordinate. The subimage is * scaled and flipped as needed to preserve those mappings. * @param img the specified image to be drawn * @param dx1 the x coordinate of the first corner of the * destination rectangle. * @param dy1 the y coordinate of the first corner of the * destination rectangle. * @param dx2 the x coordinate of the second corner of the * destination rectangle. * @param dy2 the y coordinate of the second corner of the * destination rectangle. * @param sx1 the x coordinate of the first corner of the * source rectangle. * @param sy1 the y coordinate of the first corner of the * source rectangle. * @param sx2 the x coordinate of the second corner of the * source rectangle. * @param sy2 the y coordinate of the second corner of the * source rectangle. * @param observer object to be notified as more of the image is * scaled and converted. * @see java.awt.Image * @see java.awt.image.ImageObserver * @see java.awt.image.ImageObserver#imageUpdate(java.awt.Image, int, int, int, int, int) * @since JDK1.1 */ @NotImplemented public boolean drawImage(Image img, int dx1, int dy1, int dx2, int dy2, int sx1, int sy1, int sx2, int sy2, ImageObserver observer){ if (LOG.check(POILogger.WARN)) { LOG.log(POILogger.WARN, "Not implemented"); } return false; } /** * Draws as much of the specified area of the specified image as is * currently available, scaling it on the fly to fit inside the * specified area of the destination drawable surface. *

* Transparent pixels are drawn in the specified background color. * This operation is equivalent to filling a rectangle of the * width and height of the specified image with the given color and then * drawing the image on top of it, but possibly more efficient. *

* This method returns immediately in all cases, even if the * image area to be drawn has not yet been scaled, dithered, and converted * for the current output device. * If the current output representation is not yet complete then * drawImage returns false. As more of * the image becomes available, the process that draws the image notifies * the specified image observer. *

* This method always uses the unscaled version of the image * to render the scaled rectangle and performs the required * scaling on the fly. It does not use a cached, scaled version * of the image for this operation. Scaling of the image from source * to destination is performed such that the first coordinate * of the source rectangle is mapped to the first coordinate of * the destination rectangle, and the second source coordinate is * mapped to the second destination coordinate. The subimage is * scaled and flipped as needed to preserve those mappings. * @param img the specified image to be drawn * @param dx1 the x coordinate of the first corner of the * destination rectangle. * @param dy1 the y coordinate of the first corner of the * destination rectangle. * @param dx2 the x coordinate of the second corner of the * destination rectangle. * @param dy2 the y coordinate of the second corner of the * destination rectangle. * @param sx1 the x coordinate of the first corner of the * source rectangle. * @param sy1 the y coordinate of the first corner of the * source rectangle. * @param sx2 the x coordinate of the second corner of the * source rectangle. * @param sy2 the y coordinate of the second corner of the * source rectangle. * @param bgcolor the background color to paint under the * non-opaque portions of the image. * @param observer object to be notified as more of the image is * scaled and converted. * @see java.awt.Image * @see java.awt.image.ImageObserver * @see java.awt.image.ImageObserver#imageUpdate(java.awt.Image, int, int, int, int, int) * @since JDK1.1 */ @NotImplemented public boolean drawImage(Image img, int dx1, int dy1, int dx2, int dy2, int sx1, int sy1, int sx2, int sy2, Color bgcolor, ImageObserver observer){ if (LOG.check(POILogger.WARN)) { LOG.log(POILogger.WARN, "Not implemented"); } return false; } /** * Draws as much of the specified image as is currently available. * The image is drawn with its top-left corner at * (xy) in this graphics context's coordinate * space. Transparent pixels in the image do not affect whatever * pixels are already there. *

* This method returns immediately in all cases, even if the * complete image has not yet been loaded, and it has not been dithered * and converted for the current output device. *

* If the image has completely loaded and its pixels are * no longer being changed, then * drawImage returns true. * Otherwise, drawImage returns false * and as more of * the image becomes available * or it is time to draw another frame of animation, * the process that loads the image notifies * the specified image observer. * @param img the specified image to be drawn. This method does * nothing if img is null. * @param x the x coordinate. * @param y the y coordinate. * @param observer object to be notified as more of * the image is converted. * @return false if the image pixels are still changing; * true otherwise. * @see java.awt.Image * @see java.awt.image.ImageObserver * @see java.awt.image.ImageObserver#imageUpdate(java.awt.Image, int, int, int, int, int) */ @NotImplemented public boolean drawImage(Image img, int x, int y, ImageObserver observer) { if (LOG.check(POILogger.WARN)) { LOG.log(POILogger.WARN, "Not implemented"); } return false; } /** * Disposes of this graphics context and releases * any system resources that it is using. * A Graphics object cannot be used after * disposehas been called. *

* When a Java program runs, a large number of Graphics * objects can be created within a short time frame. * Although the finalization process of the garbage collector * also disposes of the same system resources, it is preferable * to manually free the associated resources by calling this * method rather than to rely on a finalization process which * may not run to completion for a long period of time. *

* Graphics objects which are provided as arguments to the * paint and update methods * of components are automatically released by the system when * those methods return. For efficiency, programmers should * call dispose when finished using * a Graphics object only if it was created * directly from a component or another Graphics object. * @see java.awt.Graphics#finalize * @see java.awt.Component#paint * @see java.awt.Component#update * @see java.awt.Component#getGraphics * @see java.awt.Graphics#create */ public void dispose() { } /** * Draws a line, using the current color, between the points * (x1, y1) and (x2, y2) * in this graphics context's coordinate system. * @param x1 the first point's x coordinate. * @param y1 the first point's y coordinate. * @param x2 the second point's x coordinate. * @param y2 the second point's y coordinate. */ public void drawLine(int x1, int y1, int x2, int y2){ Line2D line = new Line2D.Float(x1, y1, x2, y2); draw(line); } /** * Fills a closed polygon defined by * arrays of x and y coordinates. *

* This method draws the polygon defined by nPoint line * segments, where the first nPoint - 1 * line segments are line segments from * (xPoints[i - 1], yPoints[i - 1]) * to (xPoints[i], yPoints[i]), for * 1 ≤ i ≤ nPoints. * The figure is automatically closed by drawing a line connecting * the final point to the first point, if those points are different. *

* The area inside the polygon is defined using an * even-odd fill rule, also known as the alternating rule. * @param xPoints a an array of x coordinates. * @param yPoints a an array of y coordinates. * @param nPoints a the total number of points. * @see java.awt.Graphics#drawPolygon(int[], int[], int) */ public void fillPolygon(int[] xPoints, int[] yPoints, int nPoints){ java.awt.Polygon polygon = new java.awt.Polygon(xPoints, yPoints, nPoints); fill(polygon); } /** * Fills the specified rectangle. * The left and right edges of the rectangle are at * x and x + width - 1. * The top and bottom edges are at * y and y + height - 1. * The resulting rectangle covers an area * width pixels wide by * height pixels tall. * The rectangle is filled using the graphics context's current color. * @param x the x coordinate * of the rectangle to be filled. * @param y the y coordinate * of the rectangle to be filled. * @param width the width of the rectangle to be filled. * @param height the height of the rectangle to be filled. * @see java.awt.Graphics#clearRect * @see java.awt.Graphics#drawRect */ public void fillRect(int x, int y, int width, int height){ Rectangle rect = new Rectangle(x, y, width, height); fill(rect); } /** * Draws the outline of the specified rectangle. * The left and right edges of the rectangle are at * x and x + width. * The top and bottom edges are at * y and y + height. * The rectangle is drawn using the graphics context's current color. * @param x the x coordinate * of the rectangle to be drawn. * @param y the y coordinate * of the rectangle to be drawn. * @param width the width of the rectangle to be drawn. * @param height the height of the rectangle to be drawn. * @see java.awt.Graphics#fillRect * @see java.awt.Graphics#clearRect */ public void drawRect(int x, int y, int width, int height) { Rectangle rect = new Rectangle(x, y, width, height); draw(rect); } /** * Draws a closed polygon defined by * arrays of x and y coordinates. * Each pair of (xy) coordinates defines a point. *

* This method draws the polygon defined by nPoint line * segments, where the first nPoint - 1 * line segments are line segments from * (xPoints[i - 1], yPoints[i - 1]) * to (xPoints[i], yPoints[i]), for * 1 ≤ i ≤ nPoints. * The figure is automatically closed by drawing a line connecting * the final point to the first point, if those points are different. * @param xPoints a an array of x coordinates. * @param yPoints a an array of y coordinates. * @param nPoints a the total number of points. * @see java.awt.Graphics#fillPolygon(int[],int[],int) * @see java.awt.Graphics#drawPolyline */ public void drawPolygon(int[] xPoints, int[] yPoints, int nPoints){ java.awt.Polygon polygon = new java.awt.Polygon(xPoints, yPoints, nPoints); draw(polygon); } /** * Intersects the current clip with the specified rectangle. * The resulting clipping area is the intersection of the current * clipping area and the specified rectangle. If there is no * current clipping area, either because the clip has never been * set, or the clip has been cleared using setClip(null), * the specified rectangle becomes the new clip. * This method sets the user clip, which is independent of the * clipping associated with device bounds and window visibility. * This method can only be used to make the current clip smaller. * To set the current clip larger, use any of the setClip methods. * Rendering operations have no effect outside of the clipping area. * @param x the x coordinate of the rectangle to intersect the clip with * @param y the y coordinate of the rectangle to intersect the clip with * @param width the width of the rectangle to intersect the clip with * @param height the height of the rectangle to intersect the clip with * @see #setClip(int, int, int, int) * @see #setClip(Shape) */ public void clipRect(int x, int y, int width, int height){ clip(new Rectangle(x, y, width, height)); } /** * Sets the current clipping area to an arbitrary clip shape. * Not all objects that implement the Shape * interface can be used to set the clip. The only * Shape objects that are guaranteed to be * supported are Shape objects that are * obtained via the getClip method and via * Rectangle objects. This method sets the * user clip, which is independent of the clipping associated * with device bounds and window visibility. * @param clip the Shape to use to set the clip * @see java.awt.Graphics#getClip() * @see java.awt.Graphics#clipRect * @see java.awt.Graphics#setClip(int, int, int, int) * @since JDK1.1 */ @NotImplemented public void setClip(Shape clip) { if (LOG.check(POILogger.WARN)) { LOG.log(POILogger.WARN, "Not implemented"); } } /** * Returns the bounding rectangle of the current clipping area. * This method refers to the user clip, which is independent of the * clipping associated with device bounds and window visibility. * If no clip has previously been set, or if the clip has been * cleared using setClip(null), this method returns * null. * The coordinates in the rectangle are relative to the coordinate * system origin of this graphics context. * @return the bounding rectangle of the current clipping area, * or null if no clip is set. * @see java.awt.Graphics#getClip * @see java.awt.Graphics#clipRect * @see java.awt.Graphics#setClip(int, int, int, int) * @see java.awt.Graphics#setClip(Shape) * @since JDK1.1 */ public Rectangle getClipBounds(){ Shape c = getClip(); if (c==null) { return null; } return c.getBounds(); } /** * Draws the text given by the specified iterator, using this * graphics context's current color. The iterator has to specify a font * for each character. The baseline of the * first character is at position (xy) in this * graphics context's coordinate system. * @param iterator the iterator whose text is to be drawn * @param x the x coordinate. * @param y the y coordinate. * @see java.awt.Graphics#drawBytes * @see java.awt.Graphics#drawChars */ public void drawString(AttributedCharacterIterator iterator, int x, int y){ drawString(iterator, (float)x, (float)y); } /** * Clears the specified rectangle by filling it with the background * color of the current drawing surface. This operation does not * use the current paint mode. *

* Beginning with Java 1.1, the background color * of offscreen images may be system dependent. Applications should * use setColor followed by fillRect to * ensure that an offscreen image is cleared to a specific color. * @param x the x coordinate of the rectangle to clear. * @param y the y coordinate of the rectangle to clear. * @param width the width of the rectangle to clear. * @param height the height of the rectangle to clear. * @see java.awt.Graphics#fillRect(int, int, int, int) * @see java.awt.Graphics#drawRect * @see java.awt.Graphics#setColor(java.awt.Color) * @see java.awt.Graphics#setPaintMode * @see java.awt.Graphics#setXORMode(java.awt.Color) */ public void clearRect(int x, int y, int width, int height) { Paint paint = getPaint(); setColor(getBackground()); fillRect(x, y, width, height); setPaint(paint); } public void copyArea(int x, int y, int width, int height, int dx, int dy) { } /** * Sets the current clip to the rectangle specified by the given * coordinates. This method sets the user clip, which is * independent of the clipping associated with device bounds * and window visibility. * Rendering operations have no effect outside of the clipping area. * @param x the x coordinate of the new clip rectangle. * @param y the y coordinate of the new clip rectangle. * @param width the width of the new clip rectangle. * @param height the height of the new clip rectangle. * @see java.awt.Graphics#clipRect * @see java.awt.Graphics#setClip(Shape) * @since JDK1.1 */ public void setClip(int x, int y, int width, int height){ setClip(new Rectangle(x, y, width, height)); } /** * Concatenates the current Graphics2D * Transform with a rotation transform. * Subsequent rendering is rotated by the specified radians relative * to the previous origin. * This is equivalent to calling transform(R), where R is an * AffineTransform represented by the following matrix: *

     *          [   cos(theta)    -sin(theta)    0   ]
     *          [   sin(theta)     cos(theta)    0   ]
     *          [       0              0         1   ]
     * 
* Rotating with a positive angle theta rotates points on the positive * x axis toward the positive y axis. * @param theta the angle of rotation in radians */ public void rotate(double theta){ _transform.rotate(theta); } /** * Concatenates the current Graphics2D * Transform with a translated rotation * transform. Subsequent rendering is transformed by a transform * which is constructed by translating to the specified location, * rotating by the specified radians, and translating back by the same * amount as the original translation. This is equivalent to the * following sequence of calls: *
     *          translate(x, y);
     *          rotate(theta);
     *          translate(-x, -y);
     * 
* Rotating with a positive angle theta rotates points on the positive * x axis toward the positive y axis. * @param theta the angle of rotation in radians * @param x x coordinate of the origin of the rotation * @param y y coordinate of the origin of the rotation */ public void rotate(double theta, double x, double y){ _transform.rotate(theta, x, y); } /** * Concatenates the current Graphics2D * Transform with a shearing transform. * Subsequent renderings are sheared by the specified * multiplier relative to the previous position. * This is equivalent to calling transform(SH), where SH * is an AffineTransform represented by the following * matrix: *
     *          [   1   shx   0   ]
     *          [  shy   1    0   ]
     *          [   0    0    1   ]
     * 
* @param shx the multiplier by which coordinates are shifted in * the positive X axis direction as a function of their Y coordinate * @param shy the multiplier by which coordinates are shifted in * the positive Y axis direction as a function of their X coordinate */ public void shear(double shx, double shy){ _transform.shear(shx, shy); } /** * Get the rendering context of the Font within this * Graphics2D context. * The {@link FontRenderContext} * encapsulates application hints such as anti-aliasing and * fractional metrics, as well as target device specific information * such as dots-per-inch. This information should be provided by the * application when using objects that perform typographical * formatting, such as Font and * TextLayout. This information should also be provided * by applications that perform their own layout and need accurate * measurements of various characteristics of glyphs such as advance * and line height when various rendering hints have been applied to * the text rendering. * * @return a reference to an instance of FontRenderContext. * @see java.awt.font.FontRenderContext * @see java.awt.Font#createGlyphVector(FontRenderContext,char[]) * @see java.awt.font.TextLayout * @since JDK1.2 */ public FontRenderContext getFontRenderContext() { boolean isAntiAliased = RenderingHints.VALUE_TEXT_ANTIALIAS_ON.equals( getRenderingHint(RenderingHints.KEY_TEXT_ANTIALIASING)); boolean usesFractionalMetrics = RenderingHints.VALUE_FRACTIONALMETRICS_ON.equals( getRenderingHint(RenderingHints.KEY_FRACTIONALMETRICS)); return new FontRenderContext(new AffineTransform(), isAntiAliased, usesFractionalMetrics); } /** * Composes an AffineTransform object with the * Transform in this Graphics2D according * to the rule last-specified-first-applied. If the current * Transform is Cx, the result of composition * with Tx is a new Transform Cx'. Cx' becomes the * current Transform for this Graphics2D. * Transforming a point p by the updated Transform Cx' is * equivalent to first transforming p by Tx and then transforming * the result by the original Transform Cx. In other * words, Cx'(p) = Cx(Tx(p)). A copy of the Tx is made, if necessary, * so further modifications to Tx do not affect rendering. * @param Tx the AffineTransform object to be composed with * the current Transform * @see #setTransform * @see AffineTransform */ public void transform(AffineTransform Tx) { _transform.concatenate(Tx); } /** * Renders a BufferedImage that is * filtered with a * {@link BufferedImageOp}. * The rendering attributes applied include the Clip, * Transform * and Composite attributes. This is equivalent to: *
     * img1 = op.filter(img, null);
     * drawImage(img1, new AffineTransform(1f,0f,0f,1f,x,y), null);
     * 
* @param img the BufferedImage to be rendered * @param op the filter to be applied to the image before rendering * @param x the x coordinate in user space where the image is rendered * @param y the y coordinate in user space where the image is rendered * @see #_transform * @see #setTransform * @see #setComposite * @see #clip * @see #setClip(Shape) */ public void drawImage(BufferedImage img, BufferedImageOp op, int x, int y){ img = op.filter(img, null); drawImage(img, x, y, null); } /** * Sets the background color for the Graphics2D context. * The background color is used for clearing a region. * When a Graphics2D is constructed for a * Component, the background color is * inherited from the Component. Setting the background color * in the Graphics2D context only affects the subsequent * clearRect calls and not the background color of the * Component. To change the background * of the Component, use appropriate methods of * the Component. * @param color the background color that isused in * subsequent calls to clearRect * @see #getBackground * @see java.awt.Graphics#clearRect */ public void setBackground(Color color) { if(color == null) return; _background = color; } /** * Returns the background color used for clearing a region. * @return the current Graphics2D Color, * which defines the background color. * @see #setBackground */ public Color getBackground(){ return _background; } /** * Sets the Composite for the Graphics2D context. * The Composite is used in all drawing methods such as * drawImage, drawString, draw, * and fill. It specifies how new pixels are to be combined * with the existing pixels on the graphics device during the rendering * process. *

If this Graphics2D context is drawing to a * Component on the display screen and the * Composite is a custom object rather than an * instance of the AlphaComposite class, and if * there is a security manager, its checkPermission * method is called with an AWTPermission("readDisplayPixels") * permission. * * @param comp the Composite object to be used for rendering * @throws SecurityException * if a custom Composite object is being * used to render to the screen and a security manager * is set and its checkPermission method * does not allow the operation. * @see java.awt.Graphics#setXORMode * @see java.awt.Graphics#setPaintMode * @see java.awt.AlphaComposite */ @NotImplemented public void setComposite(Composite comp){ if (LOG.check(POILogger.WARN)) { LOG.log(POILogger.WARN, "Not implemented"); } } /** * Returns the current Composite in the * Graphics2D context. * @return the current Graphics2D Composite, * which defines a compositing style. * @see #setComposite */ @NotImplemented public Composite getComposite(){ if (LOG.check(POILogger.WARN)) { LOG.log(POILogger.WARN, "Not implemented"); } return null; } /** * Returns the value of a single preference for the rendering algorithms. * Hint categories include controls for rendering quality and overall * time/quality trade-off in the rendering process. Refer to the * RenderingHints class for definitions of some common * keys and values. * @param hintKey the key corresponding to the hint to get. * @return an object representing the value for the specified hint key. * Some of the keys and their associated values are defined in the * RenderingHints class. * @see RenderingHints */ public Object getRenderingHint(RenderingHints.Key hintKey){ return _hints.get(hintKey); } /** * Sets the value of a single preference for the rendering algorithms. * Hint categories include controls for rendering quality and overall * time/quality trade-off in the rendering process. Refer to the * RenderingHints class for definitions of some common * keys and values. * @param hintKey the key of the hint to be set. * @param hintValue the value indicating preferences for the specified * hint category. * @see RenderingHints */ public void setRenderingHint(RenderingHints.Key hintKey, Object hintValue){ _hints.put(hintKey, hintValue); } /** * Renders the text of the specified * {@link GlyphVector} using * the Graphics2D context's rendering attributes. * The rendering attributes applied include the Clip, * Transform, Paint, and * Composite attributes. The GlyphVector * specifies individual glyphs from a {@link Font}. * The GlyphVector can also contain the glyph positions. * This is the fastest way to render a set of characters to the * screen. * * @param g the GlyphVector to be rendered * @param x the x position in user space where the glyphs should be * rendered * @param y the y position in user space where the glyphs should be * rendered * * @see java.awt.Font#createGlyphVector(FontRenderContext, char[]) * @see java.awt.font.GlyphVector * @see #setPaint * @see java.awt.Graphics#setColor * @see #setTransform * @see #setComposite * @see #setClip(Shape) */ public void drawGlyphVector(GlyphVector g, float x, float y) { Shape glyphOutline = g.getOutline(x, y); fill(glyphOutline); } /** * Returns the device configuration associated with this * Graphics2D. * @return the device configuration */ public GraphicsConfiguration getDeviceConfiguration() { return GraphicsEnvironment.getLocalGraphicsEnvironment(). getDefaultScreenDevice().getDefaultConfiguration(); } /** * Sets the values of an arbitrary number of preferences for the * rendering algorithms. * Only values for the rendering hints that are present in the * specified Map object are modified. * All other preferences not present in the specified * object are left unmodified. * Hint categories include controls for rendering quality and * overall time/quality trade-off in the rendering process. * Refer to the RenderingHints class for definitions of * some common keys and values. * @param hints the rendering hints to be set * @see RenderingHints */ public void addRenderingHints(Map hints){ this._hints.putAll(hints); } /** * Concatenates the current * Graphics2D Transform * with a translation transform. * Subsequent rendering is translated by the specified * distance relative to the previous position. * This is equivalent to calling transform(T), where T is an * AffineTransform represented by the following matrix: *

     *          [   1    0    tx  ]
     *          [   0    1    ty  ]
     *          [   0    0    1   ]
     * 
* @param tx the distance to translate along the x-axis * @param ty the distance to translate along the y-axis */ public void translate(double tx, double ty){ _transform.translate(tx, ty); } /** * Renders the text of the specified iterator, using the * Graphics2D context's current Paint. The * iterator must specify a font * for each character. The baseline of the * first character is at position (xy) in the * User Space. * The rendering attributes applied include the Clip, * Transform, Paint, and * Composite attributes. * For characters in script systems such as Hebrew and Arabic, * the glyphs can be rendered from right to left, in which case the * coordinate supplied is the location of the leftmost character * on the baseline. * @param iterator the iterator whose text is to be rendered * @param x the x coordinate where the iterator's text is to be * rendered * @param y the y coordinate where the iterator's text is to be * rendered * @see #setPaint * @see java.awt.Graphics#setColor * @see #setTransform * @see #setComposite * @see #setClip */ @NotImplemented public void drawString(AttributedCharacterIterator iterator, float x, float y) { if (LOG.check(POILogger.WARN)) { LOG.log(POILogger.WARN, "Not implemented"); } } /** * Checks whether or not the specified Shape intersects * the specified {@link Rectangle}, which is in device * space. If onStroke is false, this method checks * whether or not the interior of the specified Shape * intersects the specified Rectangle. If * onStroke is true, this method checks * whether or not the Stroke of the specified * Shape outline intersects the specified * Rectangle. * The rendering attributes taken into account include the * Clip, Transform, and Stroke * attributes. * @param rect the area in device space to check for a hit * @param s the Shape to check for a hit * @param onStroke flag used to choose between testing the * stroked or the filled shape. If the flag is true, the * Stroke oultine is tested. If the flag is * false, the filled Shape is tested. * @return true if there is a hit; false * otherwise. * @see #setStroke * @see #fill(Shape) * @see #draw(Shape) * @see #_transform * @see #setTransform * @see #clip * @see #setClip(Shape) */ public boolean hit(Rectangle rect, Shape s, boolean onStroke){ if (onStroke) { s = getStroke().createStrokedShape(s); } s = getTransform().createTransformedShape(s); return s.intersects(rect); } /** * Gets the preferences for the rendering algorithms. Hint categories * include controls for rendering quality and overall time/quality * trade-off in the rendering process. * Returns all of the hint key/value pairs that were ever specified in * one operation. Refer to the * RenderingHints class for definitions of some common * keys and values. * @return a reference to an instance of RenderingHints * that contains the current preferences. * @see RenderingHints */ public RenderingHints getRenderingHints(){ return _hints; } /** * Replaces the values of all preferences for the rendering * algorithms with the specified hints. * The existing values for all rendering hints are discarded and * the new set of known hints and values are initialized from the * specified {@link Map} object. * Hint categories include controls for rendering quality and * overall time/quality trade-off in the rendering process. * Refer to the RenderingHints class for definitions of * some common keys and values. * @param hints the rendering hints to be set * @see RenderingHints */ public void setRenderingHints(Map hints){ this._hints = new RenderingHints(null); this._hints.putAll(hints); } /** * Renders an image, applying a transform from image space into user space * before drawing. * The transformation from user space into device space is done with * the current Transform in the Graphics2D. * The specified transformation is applied to the image before the * transform attribute in the Graphics2D context is applied. * The rendering attributes applied include the Clip, * Transform, and Composite attributes. * Note that no rendering is done if the specified transform is * noninvertible. * @param img the Image to be rendered * @param xform the transformation from image space into user space * @param obs the {@link ImageObserver} * to be notified as more of the Image * is converted * @return true if the Image is * fully loaded and completely rendered; * false if the Image is still being loaded. * @see #_transform * @see #setTransform * @see #setComposite * @see #clip * @see #setClip(Shape) */ @NotImplemented public boolean drawImage(Image img, AffineTransform xform, ImageObserver obs) { if (LOG.check(POILogger.WARN)) { LOG.log(POILogger.WARN, "Not implemented"); } return false; } /** * Draws as much of the specified image as has already been scaled * to fit inside the specified rectangle. *

* The image is drawn inside the specified rectangle of this * graphics context's coordinate space, and is scaled if * necessary. Transparent pixels do not affect whatever pixels * are already there. *

* This method returns immediately in all cases, even if the * entire image has not yet been scaled, dithered, and converted * for the current output device. * If the current output representation is not yet complete, then * drawImage returns false. As more of * the image becomes available, the process that loads the image notifies * the image observer by calling its imageUpdate method. *

* A scaled version of an image will not necessarily be * available immediately just because an unscaled version of the * image has been constructed for this output device. Each size of * the image may be cached separately and generated from the original * data in a separate image production sequence. * @param img the specified image to be drawn. This method does * nothing if img is null. * @param x the x coordinate. * @param y the y coordinate. * @param width the width of the rectangle. * @param height the height of the rectangle. * @param observer object to be notified as more of * the image is converted. * @return false if the image pixels are still changing; * true otherwise. * @see java.awt.Image * @see java.awt.image.ImageObserver * @see java.awt.image.ImageObserver#imageUpdate(java.awt.Image, int, int, int, int, int) */ @NotImplemented public boolean drawImage(Image img, int x, int y, int width, int height, ImageObserver observer) { if (LOG.check(POILogger.WARN)) { LOG.log(POILogger.WARN, "Not implemented"); } return false; } /** * Creates a new Graphics object that is * a copy of this Graphics object. * @return a new graphics context that is a copy of * this graphics context. */ public Graphics create() { try { return (Graphics)clone(); } catch (CloneNotSupportedException e){ throw new HSLFException(e); } } /** * Gets the font metrics for the specified font. * @return the font metrics for the specified font. * @param f the specified font * @see java.awt.Graphics#getFont * @see java.awt.FontMetrics * @see java.awt.Graphics#getFontMetrics() */ @SuppressWarnings("deprecation") @SuppressForbidden public FontMetrics getFontMetrics(Font f) { return Toolkit.getDefaultToolkit().getFontMetrics(f); } /** * Sets the paint mode of this graphics context to alternate between * this graphics context's current color and the new specified color. * This specifies that logical pixel operations are performed in the * XOR mode, which alternates pixels between the current color and * a specified XOR color. *

* When drawing operations are performed, pixels which are the * current color are changed to the specified color, and vice versa. *

* Pixels that are of colors other than those two colors are changed * in an unpredictable but reversible manner; if the same figure is * drawn twice, then all pixels are restored to their original values. * @param c1 the XOR alternation color */ @NotImplemented public void setXORMode(Color c1) { if (LOG.check(POILogger.WARN)) { LOG.log(POILogger.WARN, "Not implemented"); } } /** * Sets the paint mode of this graphics context to overwrite the * destination with this graphics context's current color. * This sets the logical pixel operation function to the paint or * overwrite mode. All subsequent rendering operations will * overwrite the destination with the current color. */ @NotImplemented public void setPaintMode() { if (LOG.check(POILogger.WARN)) { LOG.log(POILogger.WARN, "Not implemented"); } } /** * Renders a * {@link RenderableImage}, * applying a transform from image space into user space before drawing. * The transformation from user space into device space is done with * the current Transform in the Graphics2D. * The specified transformation is applied to the image before the * transform attribute in the Graphics2D context is applied. * The rendering attributes applied include the Clip, * Transform, and Composite attributes. Note * that no rendering is done if the specified transform is * noninvertible. *

* Rendering hints set on the Graphics2D object might * be used in rendering the RenderableImage. * If explicit control is required over specific hints recognized by a * specific RenderableImage, or if knowledge of which hints * are used is required, then a RenderedImage should be * obtained directly from the RenderableImage * and rendered using *{@link #drawRenderedImage(RenderedImage, AffineTransform) drawRenderedImage}. * @param img the image to be rendered. This method does * nothing if img is null. * @param xform the transformation from image space into user space * @see #_transform * @see #setTransform * @see #setComposite * @see #clip * @see #setClip * @see #drawRenderedImage */ @NotImplemented public void drawRenderedImage(RenderedImage img, AffineTransform xform) { if (LOG.check(POILogger.WARN)) { LOG.log(POILogger.WARN, "Not implemented"); } } /** * Renders a {@link RenderedImage}, * applying a transform from image * space into user space before drawing. * The transformation from user space into device space is done with * the current Transform in the Graphics2D. * The specified transformation is applied to the image before the * transform attribute in the Graphics2D context is applied. * The rendering attributes applied include the Clip, * Transform, and Composite attributes. Note * that no rendering is done if the specified transform is * noninvertible. * @param img the image to be rendered. This method does * nothing if img is null. * @param xform the transformation from image space into user space * @see #_transform * @see #setTransform * @see #setComposite * @see #clip * @see #setClip */ @NotImplemented public void drawRenderableImage(RenderableImage img, AffineTransform xform) { if (LOG.check(POILogger.WARN)) { LOG.log(POILogger.WARN, "Not implemented"); } } protected void applyStroke(HSLFSimpleShape shape) { if (_stroke instanceof BasicStroke){ BasicStroke bs = (BasicStroke)_stroke; shape.setLineWidth(bs.getLineWidth()); float[] dash = bs.getDashArray(); if (dash != null) { //TODO: implement more dashing styles shape.setLineDash(StrokeStyle.LineDash.DASH); } } } protected void applyPaint(HSLFSimpleShape shape) { if (_paint instanceof Color) { shape.getFill().setForegroundColor((Color)_paint); } } }





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