mirror of https://github.com/apache/poi.git
Bug 53191 - Problems with line style when converting ppt to png
git-svn-id: https://svn.apache.org/repos/asf/poi/trunk@1765196 13f79535-47bb-0310-9956-ffa450edef68
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@ -18,6 +18,8 @@
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package org.apache.poi.sl.draw;
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import java.awt.Graphics2D;
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import java.awt.geom.AffineTransform;
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import java.awt.geom.Path2D;
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import java.util.ArrayList;
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import java.util.Collection;
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import java.util.List;
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@ -32,14 +34,23 @@ public class DrawFreeformShape extends DrawAutoShape {
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public DrawFreeformShape(FreeformShape<?,?> shape) {
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super(shape);
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}
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protected Collection<Outline> computeOutlines(Graphics2D graphics) {
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List<Outline> lst = new ArrayList<Outline>();
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java.awt.Shape sh = getShape().getPath();
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FillStyle fs = getShape().getFillStyle();
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StrokeStyle ss = getShape().getStrokeStyle();
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FreeformShape<?,?> fsh = getShape();
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Path2D sh = fsh.getPath();
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AffineTransform tx = (AffineTransform)graphics.getRenderingHint(Drawable.GROUP_TRANSFORM);
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if (tx == null) {
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tx = new AffineTransform();
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}
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java.awt.Shape canvasShape = tx.createTransformedShape(sh);
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FillStyle fs = fsh.getFillStyle();
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StrokeStyle ss = fsh.getStrokeStyle();
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Path path = new Path(fs != null, ss != null);
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lst.add(new Outline(sh, path));
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lst.add(new Outline(canvasShape, path));
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return lst;
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}
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@ -47,85 +47,95 @@ public class DrawShape implements Drawable {
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if (!(shape instanceof PlaceableShape)) return;
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PlaceableShape<?,?> ps = (PlaceableShape<?,?>)shape;
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final boolean isHSLF = ps.getClass().getCanonicalName().toLowerCase(Locale.ROOT).contains("hslf");
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AffineTransform tx = (AffineTransform)graphics.getRenderingHint(Drawable.GROUP_TRANSFORM);
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if (tx == null) tx = new AffineTransform();
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final Rectangle2D anchor = tx.createTransformedShape(ps.getAnchor()).getBounds2D();
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// rotation
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double rotation = ps.getRotation();
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if (rotation != 0.) {
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// PowerPoint rotates shapes relative to the geometric center
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double centerX = anchor.getCenterX();
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double centerY = anchor.getCenterY();
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// normalize rotation
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rotation %= 360.;
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if (rotation < 0) rotation += 360.;
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int quadrant = (((int)rotation+45)/90)%4;
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double scaleX = 1.0, scaleY = 1.0;
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// scale to bounding box (bug #53176)
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if (quadrant == 1 || quadrant == 3) {
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// In quadrant 1 and 3, which is basically a shape in a more or less portrait orientation
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// (45-135 degrees and 225-315 degrees), we need to first rotate the shape by a multiple
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// of 90 degrees and then resize the bounding box to its original bbox. After that we can
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// rotate the shape to the exact rotation amount.
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// It's strange that you'll need to rotate the shape back and forth again, but you can
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// think of it, as if you paint the shape on a canvas. First you rotate the canvas, which might
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// be already (differently) scaled, so you can paint the shape in its default orientation
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// and later on, turn it around again to compare it with its original size ...
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AffineTransform txs;
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if (ps.getClass().getCanonicalName().toLowerCase(Locale.ROOT).contains("hslf")) {
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txs = new AffineTransform(tx);
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} else {
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// this handling is only based on try and error ... not sure why xslf is handled differently.
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txs = new AffineTransform();
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txs.translate(centerX, centerY);
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txs.rotate(Math.PI/2.); // actually doesn't matter if +/- 90 degrees
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txs.translate(-centerX, -centerY);
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txs.concatenate(tx);
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char cmds[] = isHSLF ? new char[]{ 'h','v','r' } : new char[]{ 'r','h','v' };
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for (char ch : cmds) {
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switch (ch) {
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case 'h':
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//flip horizontal
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if (ps.getFlipHorizontal()) {
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graphics.translate(anchor.getX() + anchor.getWidth(), anchor.getY());
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graphics.scale(-1, 1);
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graphics.translate(-anchor.getX(), -anchor.getY());
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}
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break;
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case 'v':
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//flip vertical
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if (ps.getFlipVertical()) {
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graphics.translate(anchor.getX(), anchor.getY() + anchor.getHeight());
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graphics.scale(1, -1);
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graphics.translate(-anchor.getX(), -anchor.getY());
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}
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break;
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case 'r':
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// rotation
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double rotation = ps.getRotation();
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if (rotation != 0.) {
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// PowerPoint rotates shapes relative to the geometric center
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double centerX = anchor.getCenterX();
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double centerY = anchor.getCenterY();
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txs.translate(centerX, centerY);
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txs.rotate(Math.PI/2.);
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txs.translate(-centerX, -centerY);
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// normalize rotation
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rotation %= 360.;
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if (rotation < 0) rotation += 360.;
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Rectangle2D anchor2 = txs.createTransformedShape(ps.getAnchor()).getBounds2D();
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int quadrant = (((int)rotation+45)/90)%4;
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double scaleX = 1.0, scaleY = 1.0;
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scaleX = safeScale(anchor.getWidth(), anchor2.getWidth());
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scaleY = safeScale(anchor.getHeight(), anchor2.getHeight());
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} else {
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quadrant = 0;
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// scale to bounding box (bug #53176)
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if (quadrant == 1 || quadrant == 3) {
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// In quadrant 1 and 3, which is basically a shape in a more or less portrait orientation
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// (45-135 degrees and 225-315 degrees), we need to first rotate the shape by a multiple
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// of 90 degrees and then resize the bounding box to its original bbox. After that we can
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// rotate the shape to the exact rotation amount.
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// It's strange that you'll need to rotate the shape back and forth again, but you can
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// think of it, as if you paint the shape on a canvas. First you rotate the canvas, which might
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// be already (differently) scaled, so you can paint the shape in its default orientation
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// and later on, turn it around again to compare it with its original size ...
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AffineTransform txs;
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if (isHSLF) {
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txs = new AffineTransform(tx);
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} else {
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// this handling is only based on try and error ... not sure why xslf is handled differently.
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txs = new AffineTransform();
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txs.translate(centerX, centerY);
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txs.rotate(Math.PI/2.); // actually doesn't matter if +/- 90 degrees
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txs.translate(-centerX, -centerY);
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txs.concatenate(tx);
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}
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txs.translate(centerX, centerY);
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txs.rotate(Math.PI/2.);
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txs.translate(-centerX, -centerY);
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Rectangle2D anchor2 = txs.createTransformedShape(ps.getAnchor()).getBounds2D();
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scaleX = safeScale(anchor.getWidth(), anchor2.getWidth());
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scaleY = safeScale(anchor.getHeight(), anchor2.getHeight());
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} else {
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quadrant = 0;
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}
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// transformation is applied reversed ...
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graphics.translate(centerX, centerY);
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double rot = Math.toRadians(rotation-quadrant*90.);
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if (rot != 0) {
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graphics.rotate(rot);
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}
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graphics.scale(scaleX, scaleY);
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rot = Math.toRadians(quadrant*90);
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if (rot != 0) {
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graphics.rotate(rot);
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}
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graphics.translate(-centerX, -centerY);
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}
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break;
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}
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// transformation is applied reversed ...
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graphics.translate(centerX, centerY);
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double rot = Math.toRadians(rotation-quadrant*90.);
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if (rot != 0) {
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graphics.rotate(rot);
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}
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graphics.scale(scaleX, scaleY);
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rot = Math.toRadians(quadrant*90);
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if (rot != 0) {
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graphics.rotate(rot);
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}
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graphics.translate(-centerX, -centerY);
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}
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//flip horizontal
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if (ps.getFlipHorizontal()) {
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graphics.translate(anchor.getX() + anchor.getWidth(), anchor.getY());
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graphics.scale(-1, 1);
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graphics.translate(-anchor.getX(), -anchor.getY());
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}
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//flip vertical
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if (ps.getFlipVertical()) {
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graphics.translate(anchor.getX(), anchor.getY() + anchor.getHeight());
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graphics.scale(1, -1);
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graphics.translate(-anchor.getX(), -anchor.getY());
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}
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}
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@ -230,12 +230,12 @@ public final class HSLFFreeformShape extends HSLFAutoShape implements FreeformSh
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EscherArrayProperty verticesProp = new EscherArrayProperty((short)(EscherProperties.GEOMETRY__VERTICES + 0x4000), false, null);
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verticesProp.setNumberOfElementsInArray(pntInfo.size());
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verticesProp.setNumberOfElementsInMemory(pntInfo.size());
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verticesProp.setSizeOfElements(0xFFF0);
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verticesProp.setSizeOfElements(8);
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for (int i = 0; i < pntInfo.size(); i++) {
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Point2D.Double pnt = pntInfo.get(i);
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byte[] data = new byte[4];
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LittleEndian.putShort(data, 0, (short)Units.pointsToMaster(pnt.getX() - bounds.getX()));
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LittleEndian.putShort(data, 2, (short)Units.pointsToMaster(pnt.getY() - bounds.getY()));
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byte[] data = new byte[8];
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LittleEndian.putInt(data, 0, Units.pointsToMaster(pnt.getX() - bounds.getX()));
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LittleEndian.putInt(data, 4, Units.pointsToMaster(pnt.getY() - bounds.getY()));
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verticesProp.setElement(i, data);
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}
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opt.addEscherProperty(verticesProp);
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@ -282,6 +282,7 @@ public final class HSLFFreeformShape extends HSLFAutoShape implements FreeformSh
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Iterator<byte[]> vertIter = verticesProp.iterator();
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Iterator<byte[]> segIter = segmentsProp.iterator();
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double xyPoints[] = new double[2];
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while (vertIter.hasNext() && segIter.hasNext()) {
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byte[] segElem = segIter.next();
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@ -292,30 +293,30 @@ public final class HSLFFreeformShape extends HSLFAutoShape implements FreeformSh
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break;
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}
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case moveTo: {
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byte[] p = vertIter.next();
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double x = Units.masterToPoints(LittleEndian.getShort(p, 0));
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double y = Units.masterToPoints(LittleEndian.getShort(p, 2));
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fillPoint(vertIter.next(), xyPoints);
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double x = xyPoints[0];
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double y = xyPoints[1];
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path.moveTo(x,y);
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break;
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}
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case curveTo: {
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byte[] p1 = vertIter.next();
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double x1 = Units.masterToPoints(LittleEndian.getShort(p1, 0));
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double y1 = Units.masterToPoints(LittleEndian.getShort(p1, 2));
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byte[] p2 = vertIter.next();
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double x2 = Units.masterToPoints(LittleEndian.getShort(p2, 0));
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double y2 = Units.masterToPoints(LittleEndian.getShort(p2, 2));
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byte[] p3 = vertIter.next();
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double x3 = Units.masterToPoints(LittleEndian.getShort(p3, 0));
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double y3 = Units.masterToPoints(LittleEndian.getShort(p3, 2));
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fillPoint(vertIter.next(), xyPoints);
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double x1 = xyPoints[0];
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double y1 = xyPoints[1];
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fillPoint(vertIter.next(), xyPoints);
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double x2 = xyPoints[0];
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double y2 = xyPoints[1];
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fillPoint(vertIter.next(), xyPoints);
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double x3 = xyPoints[0];
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double y3 = xyPoints[1];
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path.curveTo(x1,y1,x2,y2,x3,y3);
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break;
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}
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case lineTo:
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if (vertIter.hasNext()) {
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byte[] p = vertIter.next();
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double x = Units.masterToPoints(LittleEndian.getShort(p, 0));
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double y = Units.masterToPoints(LittleEndian.getShort(p, 2));
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fillPoint(vertIter.next(), xyPoints);
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double x = xyPoints[0];
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double y = xyPoints[1];
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path.lineTo(x,y);
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}
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break;
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@ -344,6 +345,25 @@ public final class HSLFFreeformShape extends HSLFAutoShape implements FreeformSh
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return new Path2D.Double(at.createTransformedShape(path));
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}
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private void fillPoint(byte xyMaster[], double xyPoints[]) {
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if (xyMaster == null || xyPoints == null || (xyMaster.length != 4 && xyMaster.length != 8) || xyPoints.length != 2) {
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logger.log(POILogger.WARN, "Invalid number of master bytes for a single point - ignore point");
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return;
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}
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int x, y;
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if (xyMaster.length == 4) {
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x = LittleEndian.getShort(xyMaster, 0);
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y = LittleEndian.getShort(xyMaster, 2);
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} else {
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x = LittleEndian.getInt(xyMaster, 0);
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y = LittleEndian.getInt(xyMaster, 4);
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}
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xyPoints[0] = Units.masterToPoints(x);
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xyPoints[1] = Units.masterToPoints(y);
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}
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private static <T extends EscherProperty> T getShapeProp(AbstractEscherOptRecord opt, int propId) {
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T prop = getEscherProperty(opt, (short)(propId + 0x4000));
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if (prop == null) {
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