/** This method is invoked before the rendered image of the figure is composited. */
public void drawFigure(Graphics2D g) {
AffineTransform savedTransform = null;
if (get(TRANSFORM) != null) {
savedTransform = g.getTransform();
g.transform(get(TRANSFORM));
}
if (get(FILL_STYLE) != ODGConstants.FillStyle.NONE) {
Paint paint = ODGAttributeKeys.getFillPaint(this);
if (paint != null) {
g.setPaint(paint);
drawFill(g);
}
}
if (get(STROKE_STYLE) != ODGConstants.StrokeStyle.NONE) {
Paint paint = ODGAttributeKeys.getStrokePaint(this);
if (paint != null) {
g.setPaint(paint);
g.setStroke(ODGAttributeKeys.getStroke(this));
drawStroke(g);
}
}
if (get(TRANSFORM) != null) {
g.setTransform(savedTransform);
}
}
/**
* Render the View to the given graphic context. This implementation render the interior first,
* then the outline.
*/
public void paint(Graphics2D g, Rectangle2D a) {
if (!a.intersects(getBounds())) return;
if (image != null) { // paint bitmap
g.drawImage(image, text2ModelTr, null);
// debug:
g.setPaint(Color.red);
g.draw(this.bounds);
super.paint(g, a); // possibly paint framebox if non-null
} else { // paint textlayout
super.paint(g, a); // possibly paint framebox if non-null
AffineTransform oldAT = g.getTransform();
// paint text in black
g.setPaint(Color.black);
// from now on, we work in Y-direct (<0) coordinates to avoid inextricable problems with font
// being mirrored...
g.transform(text2ModelTr); // also include rotation
textLayout.draw(g, 0.0f, 0.0f);
// [pending] ajouter un cadre si areDimensionsComputed (wysiwyg du pauvre)
// get back to previous transform
g.setTransform(oldAT);
if (DEBUG) {
g.setPaint(Color.red);
g.draw(bounds);
}
}
}
private void paintBars(Graphics2D g) {
g.transform(AffineTransform.getTranslateInstance(getWidth() / 2, getHeight() / 2));
for (int i = 0; i < bars.length; ++i) {
g.setColor(colors[(currentBar + i) % colors.length]);
g.fill(bars[i]);
}
}
public void paint(Graphics g) {
Graphics2D g2 = (Graphics2D) g;
g2.setColor(Color.white);
g2.fillRect(0, 0, getWidth(), getHeight());
AffineTransform at = new AffineTransform(0.5, 0, 0, -0.5, 30, getHeight() * 3 / 4);
g2.transform(at);
g2.setColor(Color.black);
g2.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
g2.setRenderingHint(
RenderingHints.KEY_TEXT_ANTIALIASING, RenderingHints.VALUE_TEXT_ANTIALIAS_ON);
// System.out.println("Showing="+showing);
if (showing != null) {
showing.draw(g2);
}
}
public void paintComponent(Graphics g) {
super.paintComponent(g);
Graphics2D g2 = (Graphics2D) g;
if (!text.equals("")) {
g2.translate(0, getSize().getHeight());
g2.rotate(-Math.PI / 2);
g2.setColor(Color.black);
g2.drawString(text, 20, 14);
g2.translate(0, -getSize().getHeight());
g2.transform(AffineTransform.getQuadrantRotateInstance(1));
}
}
public void paint(Graphics g) {
// repaint the whole transformer in case the view component was repainted
Rectangle clipBounds = g.getClipBounds();
if (clipBounds != null && !clipBounds.equals(visibleRect)) {
repaint();
}
// clear the background
g.setColor(getBackground());
g.fillRect(0, 0, getWidth(), getHeight());
if (view != null && at.getDeterminant() != 0) {
Graphics2D g2 = (Graphics2D) g.create();
Insets insets = getInsets();
Rectangle bounds = getBounds();
// don't forget about insets
bounds.x += insets.left;
bounds.y += insets.top;
bounds.width -= insets.left + insets.right;
bounds.height -= insets.top + insets.bottom;
double centerX1 = bounds.getCenterX();
double centerY1 = bounds.getCenterY();
Rectangle tb = getTransformedSize();
double centerX2 = tb.getCenterX();
double centerY2 = tb.getCenterY();
// set antialiasing by default
g2.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
if (renderingHints != null) {
g2.addRenderingHints(renderingHints);
}
// translate it to the center of the view component again
double tx = centerX1 - centerX2 - getX();
double ty = centerY1 - centerY2 - getY();
g2.translate((int) tx, (int) ty);
g2.transform(at);
view.paint(g2);
g2.dispose();
}
// paint the border
paintBorder(g);
}
// Although it presently returns a boolean, that was only needed
// during my aborted attempted at animated graphics primitives.
// Until those become a reality the boolean value returned by this
// routine is unnecessary
public boolean animate(int sAt, boolean forward) {
int x;
LinkedList lt = null;
animation_done =
true; // May be re-set in paintComponent via indirect paintImmediately call at end
// Was used in aborted attempted to
// introduce animated primitives. Now
// it's probably excess baggage that
// remains because I still have hopes
// of eventually having animated
// primitives
if (getSize().width != 0 && getSize().height != 0) {
my_width = getSize().width; // set dimensions
my_height = getSize().height;
} else {
my_width = GaigsAV.preferred_width; // set dimensions
my_height = GaigsAV.preferred_height;
}
// First capture the new image in a buffer called image2
SnapAt = sAt;
BufferedImage image2 = new BufferedImage(my_width, my_height, BufferedImage.TYPE_INT_RGB);
Graphics2D g2 = (Graphics2D) image2.getGraphics(); // need a separate object each time?
g2.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
g2.setColor(Color.WHITE);
g2.fillRect(0, 0, my_width, my_height);
// Set horizoff and vertoff to properly center the visualization in the
// viewing window. This is not quite perfect because visualizations
// that are not properly centered within their [0,1] localized
// coordinates will not be perfectly centered, but it is much better
// than it was previously.
if (no_mouse_drag) {
horizoff = (my_width - GaigsAV.preferred_width) / 2;
vertoff = (my_height - GaigsAV.preferred_height) / 2;
}
list_of_snapshots.reset();
x = 0;
lt = new LinkedList();
while (x < SnapAt && list_of_snapshots.hasMoreElements()) {
lt = (LinkedList) list_of_snapshots.nextElement();
x++;
}
lt.reset();
animation_done = true;
// System.out.println("before loop " + horizoff);
while (lt.hasMoreElements()) {
obj tempObj = (obj) lt.nextElement();
animation_done =
animation_done && (tempObj.execute(g2 /*offscreen*/, zoom, vertoff, horizoff));
// System.out.println("in loop");
}
// Next capture the image we are coming from in a buffer called image1
SnapAt = (forward ? sAt - 1 : sAt + 1);
BufferedImage image1 = new BufferedImage(my_width, my_height, BufferedImage.TYPE_INT_RGB);
Graphics2D g1 = (Graphics2D) image1.getGraphics(); // need a separate object each time?
g1.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
g1.setColor(Color.WHITE);
g1.fillRect(0, 0, my_width, my_height);
// Set horizoff and vertoff to properly center the visualization in the
// viewing window. This is not quite perfect because visualizations
// that are not properly centered within their [0,1] localized
// coordinates will not be perfectly centered, but it is much better
// than it was previously.
if (no_mouse_drag) {
horizoff = (my_width - GaigsAV.preferred_width) / 2;
vertoff = (my_height - GaigsAV.preferred_height) / 2;
}
list_of_snapshots.reset();
x = 0;
lt = new LinkedList();
while (x < SnapAt && list_of_snapshots.hasMoreElements()) {
lt = (LinkedList) list_of_snapshots.nextElement();
x++;
}
lt.reset();
animation_done = true;
// System.out.println("before loop " + horizoff);
while (lt.hasMoreElements()) {
obj tempObj = (obj) lt.nextElement();
animation_done =
animation_done && (tempObj.execute(g1 /*offscreen*/, zoom, vertoff, horizoff));
// System.out.println("in loop");
}
// Now slide from image1 to image2
// From the gaff Visualizer by Chris Gaffney
// double step = 4; // Adjust this for more/less granularity between images
double step = 40; // Adjust this for more/less granularity between images
Image buffer = getGraphicsConfiguration().createCompatibleVolatileImage(my_width, my_height);
Graphics2D g2d = (Graphics2D) buffer.getGraphics();
AffineTransform trans = AffineTransform.getTranslateInstance(step * (forward ? -1 : 1), 0);
// AffineTransform orig = g2d.getTransform();
Shape mask = createMask(my_width, my_height);
for (double i = 0; i < my_width; i += step) {
if (i + step > my_width) // last time through loop, so adjust transform
trans =
AffineTransform.getTranslateInstance(((double) (my_width - i)) * (forward ? -1 : 1), 0);
g2d.transform(trans);
g2d.drawImage(image1, 0, 0, this);
g2d.setColor(Color.BLACK);
g2d.fill(mask);
AffineTransform last = g2d.getTransform();
g2d.transform(AffineTransform.getTranslateInstance(my_width * (-1 * (forward ? -1 : 1)), 0));
g2d.drawImage(image2, 0, 0, this);
g2d.setColor(Color.BLACK);
g2d.fill(mask);
g2d.setTransform(last);
this.my_image = buffer;
repaint();
try {
Thread.sleep(10);
} catch (InterruptedException e) {
}
}
Image b = getGraphicsConfiguration().createCompatibleImage(my_width, my_height);
b.getGraphics().drawImage(buffer, 0, 0, null);
this.my_image = b;
return animation_done;
}
public void paintComponent(Graphics g1) {
Graphics2D g = (Graphics2D) g1;
float width = getWidth();
float height = getHeight();
AffineTransform save = g.getTransform();
AffineTransform save_tmp;
g.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
if (45.0 <= rotate && rotate < 135.0) {
g.translate(width, 0.0);
g.rotate(Math.PI * rotate / 180, 0.0, 0.0);
g.transform(
AffineTransform.getScaleInstance(height / original_width, width / original_height));
} else if (135.0 <= rotate && rotate < 225.0) {
g.rotate(Math.PI * rotate / 180, width / 2, height / 2);
g.transform(
AffineTransform.getScaleInstance(width / original_width, height / original_height));
} else if (225.0 <= rotate && rotate < 315.0) {
g.translate(-height, 0.0);
g.rotate(Math.PI * rotate / 180, height, 0.0);
g.transform(
AffineTransform.getScaleInstance(height / original_width, width / original_height));
} else
g.transform(
AffineTransform.getScaleInstance(width / original_width, height / original_height));
g.setStroke(new BasicStroke(2F));
g.setColor(
GeColor.getColor(
30,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
borderColor,
false));
g.draw(shapes[0]);
g.setStroke(new BasicStroke(2F));
g.setColor(
GeColor.getColor(
32,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
borderColor,
false));
g.draw(shapes[1]);
g.setStroke(new BasicStroke(2F));
g.setColor(
GeColor.getColor(
32,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
borderColor,
false));
g.draw(shapes[2]);
g.setStroke(new BasicStroke(2F));
g.setColor(
GeColor.getColor(
33,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
borderColor,
false));
g.draw(shapes[3]);
g.setStroke(new BasicStroke(2F));
g.setColor(
GeColor.getColor(
33,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
borderColor,
false));
g.draw(shapes[4]);
g.setStroke(new BasicStroke(2F));
g.setColor(
GeColor.getColor(
32,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
borderColor,
false));
g.draw(shapes[5]);
g.setStroke(new BasicStroke(2F));
g.setColor(
GeColor.getColor(
30,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
borderColor,
false));
g.draw(shapes[6]);
g.setStroke(new BasicStroke(2F));
g.setColor(
GeColor.getColor(
33,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
borderColor,
false));
g.draw(shapes[7]);
g.setStroke(new BasicStroke(2F));
g.setColor(
GeColor.getColor(
32,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
borderColor,
false));
g.draw(shapes[8]);
g.setStroke(new BasicStroke(2F));
g.setColor(
GeColor.getColor(
30,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
borderColor,
false));
g.draw(shapes[9]);
g.setStroke(new BasicStroke(2F));
g.setColor(
GeColor.getColor(
32,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
borderColor,
false));
g.draw(shapes[10]);
g.setStroke(new BasicStroke(2F));
g.setColor(
GeColor.getColor(
32,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
borderColor,
false));
g.draw(shapes[11]);
g.setTransform(save);
}
public void paintComponent(Graphics g1) {
animationCount = 1;
if (!visible) return;
Graphics2D g = (Graphics2D) g1;
float width = getWidth();
float height = getHeight();
g.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
if (45.0 <= rotate && rotate < 135.0) {
g.translate(width, 0.0);
g.rotate(Math.PI * rotate / 180, 0.0, 0.0);
g.transform(
AffineTransform.getScaleInstance(height / original_width, width / original_height));
} else if (135.0 <= rotate && rotate < 225.0) {
g.rotate(Math.PI * rotate / 180, width / 2, height / 2);
g.transform(
AffineTransform.getScaleInstance(width / original_width, height / original_height));
} else if (225.0 <= rotate && rotate < 315.0) {
g.translate(-height, 0.0);
g.rotate(Math.PI * rotate / 180, height, 0.0);
g.transform(
AffineTransform.getScaleInstance(height / original_width, width / original_height));
} else
g.transform(
AffineTransform.getScaleInstance(width / original_width, height / original_height));
if ((dd.dynType & GeDyn.mDynType_Rotate) != 0 && dd.rotate != 0) {
g.rotate(
Math.PI * dd.rotate / 180,
(dd.x0 - getX()) * original_width / width,
(dd.y0 - getY()) * original_height / height);
}
AffineTransform save = g.getTransform();
AffineTransform save_tmp;
int rounds = 1;
if (fillLevel != 1F) rounds = 2;
int oldColor = 0;
for (int i = 0; i < rounds; i++) {
if (rounds == 2) {
switch (i) {
case 0:
if (levelColorTone != GeColor.COLOR_TONE_NO) {
oldColor = colorTone;
colorTone = levelColorTone;
} else if (levelFillColor != GeColor.COLOR_NO) {
oldColor = fillColor;
fillColor = levelFillColor;
}
break;
case 1:
if (levelColorTone != GeColor.COLOR_TONE_NO) colorTone = oldColor;
else if (levelFillColor != GeColor.COLOR_NO) fillColor = oldColor;
break;
}
switch (levelDirection) {
case Ge.DIRECTION_UP:
if (i == 0)
g.setClip(
new Rectangle2D.Float(
0F,
fillLevel * original_height + Ge.cJBean_Offset,
original_width,
original_height));
else
g.setClip(
new Rectangle2D.Float(
0F, 0F, original_width, fillLevel * original_height + Ge.cJBean_Offset));
break;
case Ge.DIRECTION_DOWN:
if (i == 0)
g.setClip(
new Rectangle2D.Float(
0F,
0F,
original_width,
(1 - fillLevel) * original_height + Ge.cJBean_Offset));
else
g.setClip(
new Rectangle2D.Float(
0F,
(1 - fillLevel) * original_height + Ge.cJBean_Offset,
original_width,
original_height));
break;
case Ge.DIRECTION_RIGHT:
if (i == 0)
g.setClip(
new Rectangle2D.Float(
fillLevel * original_width + Ge.cJBean_Offset,
0F,
original_width,
original_height));
else
g.setClip(
new Rectangle2D.Float(0F, 0F, fillLevel * width + Ge.cJBean_Offset, height));
break;
case Ge.DIRECTION_LEFT:
if (i == 0)
g.setClip(
new Rectangle2D.Float(
0F,
0F,
(1 - fillLevel) * original_width + Ge.cJBean_Offset,
original_height));
else
g.setClip(
new Rectangle2D.Float(
(1 - fillLevel) * original_width + Ge.cJBean_Offset,
0F,
original_width,
original_height));
break;
}
}
{
int fcolor =
GeColor.getDrawtype(
293,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
fillColor,
dimmed);
if (gradient == GeGradient.eGradient_No) {
g.setColor(GeColor.getColor(fcolor));
g.fill(shapes[0]);
} else {
GeGradient.paint(
g,
gradient,
2,
-2,
2F,
2F,
13.6808F,
14.8208F,
false,
293,
colorTone,
colorShift,
colorIntensity,
colorInverse,
fillColor,
dimmed);
g.fill(shapes[0]);
}
if (shadow != 0) {
g.setColor(GeColor.shiftColor(fcolor, -2, colorInverse));
g.fill(shapes[1]);
g.setColor(GeColor.shiftColor(fcolor, 2, colorInverse));
g.fill(shapes[2]);
}
g.setStroke(new BasicStroke(1F));
g.setColor(
GeColor.getColor(
0,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
borderColor,
dimmed));
g.draw(shapes[0]);
}
}
if (rounds == 2) g.setClip(null);
g.setTransform(save);
}
public void paintComponent(Graphics g1) {
Graphics2D g = (Graphics2D) g1;
float width = getWidth();
float height = getHeight();
g.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
double scaleWidth = (1.0 * width / original_width);
double scaleHeight = (1.0 * height / original_height);
AffineTransform save = g.getTransform();
g.setColor(getBackground());
g.fill(new Rectangle(0, 0, getWidth(), getHeight()));
g.transform(AffineTransform.getScaleInstance(scaleWidth, scaleHeight)); // scaletest
AffineTransform save_tmp;
g.setColor(
GeColor.getColor(
0,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
textColor,
dimmed));
g.setFont(new Font("Helvetica", Font.BOLD, 12));
g.drawString(JopLang.transl("Status"), 13, 91);
g.setColor(
GeColor.getColor(
0,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
textColor,
dimmed));
g.setFont(new Font("Helvetica", Font.BOLD, 12));
g.drawString(JopLang.transl("LogMessage"), 13, 114);
g.setColor(
GeColor.getColor(
0,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
textColor,
dimmed));
g.setFont(new Font("Helvetica", Font.BOLD, 12));
g.drawString(JopLang.transl("EventListSize"), 13, 23);
g.setColor(
GeColor.getColor(
0,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
textColor,
dimmed));
g.setFont(new Font("Helvetica", Font.BOLD, 12));
g.drawString(JopLang.transl("EventLogSize"), 13, 44);
g.setColor(
GeColor.getColor(
0,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
textColor,
dimmed));
g.setFont(new Font("Helvetica", Font.BOLD, 12));
g.drawString(JopLang.transl("MaxApplAlarms"), 13, 67);
g.setTransform(save);
}
// also clip, transform, composite,
// public boolean isOpaque(){return false;}//theOpaque!=null&&theOpaque;}
// ---------------------------------------------------------
private void doPaint(Graphics2D g, int s, Object o) {
// process an operation from the buffer
// System.out.println(s);
Object o1 = null,
o2 = null,
o3 = null,
o4 = null,
o5 = null,
o6 = null,
o7 = null,
o8 = null,
o9 = null,
o10 = null,
o11 = null;
if (o instanceof Object[]) {
Object[] a = (Object[]) o;
if (a.length > 0) o1 = a[0];
if (a.length > 1) o2 = a[1];
if (a.length > 2) o3 = a[2];
if (a.length > 3) o4 = a[3];
if (a.length > 4) o5 = a[4];
if (a.length > 5) o6 = a[5];
if (a.length > 6) o7 = a[6];
if (a.length > 7) o8 = a[7];
if (a.length > 8) o9 = a[8];
if (a.length > 9) o10 = a[9];
if (a.length > 10) o11 = a[10];
}
switch (s) {
case clear:
paintBackground(g, theBackground);
break;
// public void addRenderingHints(Map<?,?> hints)
// {toBuffer("addRenderingHints",hints );}
case addRenderingHints:
g.addRenderingHints((Map<?, ?>) o);
break;
case clip1:
g.clip((Shape) o);
break;
case draw1:
g.draw((Shape) o);
break;
case draw3DRect:
g.draw3DRect((Integer) o1, (Integer) o2, (Integer) o3, (Integer) o4, (Boolean) o5);
break;
case drawGlyphVector:
g.drawGlyphVector((GlyphVector) o1, (Float) o2, (Float) o3);
break;
case drawImage1:
g.drawImage((BufferedImage) o1, (BufferedImageOp) o2, (Integer) o3, (Integer) o4);
break;
case drawImage2:
g.drawImage((Image) o1, (AffineTransform) o2, (ImageObserver) o3);
break;
case drawRenderableImage:
g.drawRenderableImage((RenderableImage) o1, (AffineTransform) o2);
break;
case drawRenderedImage:
g.drawRenderedImage((RenderedImage) o1, (AffineTransform) o2);
break;
case drawString1:
g.drawString((AttributedCharacterIterator) o1, (Float) o2, (Float) o3);
break;
case drawString2:
g.drawString((AttributedCharacterIterator) o1, (Integer) o2, (Integer) o3);
break;
case drawString3:
g.drawString((String) o1, (Float) o2, (Float) o3);
break;
case drawString4:
g.drawString((String) o1, (Integer) o2, (Integer) o3);
break;
case fill:
g.fill((Shape) o);
break;
case fill3DRect:
g.fill3DRect((Integer) o1, (Integer) o2, (Integer) o3, (Integer) o4, (Boolean) o5);
break;
case rotate1:
g.rotate((Double) o);
break;
case rotate2:
g.rotate((Double) o1, (Double) o2, (Double) o3);
break;
case scale1:
g.scale((Double) o1, (Double) o2);
break;
case setBackground:
g.setBackground(
(Color) o); // paintBackground(g,(Color)o); /*super.setBackground((Color)o) ;*/
break;
case setComposite:
g.setComposite((Composite) o);
break;
case setPaint:
g.setPaint((Paint) o);
break;
case setRenderingHint:
g.setRenderingHint((RenderingHints.Key) o1, o2);
break;
case setRenderingHints:
g.setRenderingHints((Map<?, ?>) o);
break;
case setStroke:
g.setStroke((Stroke) o);
break;
case setTransform:
g.setTransform(makeTransform(o));
break;
case shear:
g.shear((Double) o1, (Double) o2);
break;
case transform1:
g.transform(makeTransform(o));
break;
case translate1:
g.translate((Double) o1, (Double) o2);
break;
case translate2:
g.translate((Integer) o1, (Integer) o2);
break;
case clearRect:
g.clearRect((Integer) o1, (Integer) o2, (Integer) o3, (Integer) o4);
break;
case copyArea:
g.copyArea(
(Integer) o1, (Integer) o2, (Integer) o3, (Integer) o4, (Integer) o5, (Integer) o6);
break;
case drawArc:
g.drawArc(
(Integer) o1, (Integer) o2, (Integer) o3, (Integer) o4, (Integer) o5, (Integer) o6);
break;
case drawBytes:
g.drawBytes((byte[]) o1, (Integer) o2, (Integer) o3, (Integer) o4, (Integer) o5);
break;
case drawChars:
g.drawChars((char[]) o1, (Integer) o2, (Integer) o3, (Integer) o4, (Integer) o5);
break;
case drawImage4:
g.drawImage((Image) o1, (Integer) o2, (Integer) o3, (Color) o4, (ImageObserver) o5);
break;
case drawImage5:
g.drawImage((Image) o1, (Integer) o2, (Integer) o3, (ImageObserver) o4);
break;
case drawImage6:
g.drawImage(
(Image) o1,
(Integer) o2,
(Integer) o3,
(Integer) o4,
(Integer) o5,
(Color) o6,
(ImageObserver) o7);
break;
case drawImage7:
g.drawImage(
(Image) o1, (Integer) o2, (Integer) o3, (Integer) o4, (Integer) o5, (ImageObserver) o6);
break;
case drawImage8:
g.drawImage(
(Image) o1,
(Integer) o2,
(Integer) o3,
(Integer) o4,
(Integer) o5,
(Integer) o6,
(Integer) o7,
(Integer) o8,
(Integer) o9,
(Color) o10,
(ImageObserver) o11);
break;
case drawImage9:
g.drawImage(
(Image) o1,
(Integer) o2,
(Integer) o3,
(Integer) o4,
(Integer) o5,
(Integer) o6,
(Integer) o7,
(Integer) o8,
(Integer) o9,
(ImageObserver) o10);
break;
case drawLine:
g.drawLine((Integer) o1, (Integer) o2, (Integer) o3, (Integer) o4);
break;
case drawOval:
g.drawOval((Integer) o1, (Integer) o2, (Integer) o3, (Integer) o4);
break;
case drawPolygon1:
g.drawPolygon((int[]) o1, (int[]) o2, (Integer) o3);
break;
case drawPolygon2:
g.drawPolygon((Polygon) o);
break;
case drawPolyline:
g.drawPolyline((int[]) o1, (int[]) o2, (Integer) o3);
break;
case drawRect:
g.drawRect((Integer) o1, (Integer) o2, (Integer) o3, (Integer) o4);
break;
case drawRoundRect:
g.drawRoundRect(
(Integer) o1, (Integer) o2, (Integer) o3, (Integer) o4, (Integer) o5, (Integer) o6);
break;
case fillArc:
g.fillArc(
(Integer) o1, (Integer) o2, (Integer) o3, (Integer) o4, (Integer) o5, (Integer) o6);
break;
case fillOval:
g.fillOval((Integer) o1, (Integer) o2, (Integer) o3, (Integer) o4);
break;
// {toBuffer("fillPolygon",mkArg(xPoints, yPoints, nPoints) );}
case fillPolygon1:
g.fillPolygon((int[]) o1, (int[]) o2, (Integer) o3);
break;
case fillPolygon2:
g.fillPolygon((Polygon) o);
break;
case fillRect:
g.fillRect((Integer) o1, (Integer) o2, (Integer) o3, (Integer) o4);
break;
case fillRoundRect:
g.fillRoundRect(
(Integer) o1, (Integer) o2, (Integer) o3, (Integer) o4, (Integer) o5, (Integer) o6);
break;
case setClip1:
g.setClip((Shape) o);
break;
case setColor:
g.setColor((Color) o);
break;
case setFont:
g.setFont((Font) o);
break;
case setPaintMode:
g.setPaintMode();
break;
case setXORMode:
g.setXORMode((Color) o);
break;
case opaque:
super.setOpaque((Boolean) o);
break;
case drawOutline: // g.drawString((String)o1, (Integer)o2, (Integer)o3) ;break;
{
FontRenderContext frc = g.getFontRenderContext();
TextLayout tl = new TextLayout((String) o1, g.getFont(), frc);
Shape s1 = tl.getOutline(null);
AffineTransform af = g.getTransform();
g.translate((Integer) o2, (Integer) o3);
g.draw(s1);
g.setTransform(af);
}
;
break;
default:
System.out.println("Unknown image operation " + s);
}
}
public void paintComponent(Graphics g1) {
Graphics2D g = (Graphics2D) g1;
float width = getWidth();
float height = getHeight();
AffineTransform save = g.getTransform();
AffineTransform save_tmp;
g.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_ON);
if (45.0 <= rotate && rotate < 135.0) {
g.translate(width, 0.0);
g.rotate(Math.PI * rotate / 180, 0.0, 0.0);
g.transform(
AffineTransform.getScaleInstance(height / original_width, width / original_height));
} else if (135.0 <= rotate && rotate < 225.0) {
g.rotate(Math.PI * rotate / 180, width / 2, height / 2);
g.transform(
AffineTransform.getScaleInstance(width / original_width, height / original_height));
} else if (225.0 <= rotate && rotate < 315.0) {
g.translate(-height, 0.0);
g.rotate(Math.PI * rotate / 180, height, 0.0);
g.transform(
AffineTransform.getScaleInstance(height / original_width, width / original_height));
} else
g.transform(
AffineTransform.getScaleInstance(width / original_width, height / original_height));
g.setColor(
GeColor.getColor(
22,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
fillColor,
false));
g.fill(shapes[0]);
g.setColor(
GeColor.getColor(
20,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
fillColor,
false));
g.fill(shapes[1]);
g.setColor(
GeColor.getColor(
23,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
fillColor,
false));
g.fill(shapes[2]);
g.setStroke(new BasicStroke(1F));
g.setColor(
GeColor.getColor(
0,
colorTone,
colorShift,
colorIntensity,
colorBrightness,
colorInverse,
borderColor,
false));
g.draw(shapes[3]);
g.setColor(Color.black);
g.setFont(annot1Font);
save_tmp = g.getTransform();
g.setRenderingHint(RenderingHints.KEY_ANTIALIASING, RenderingHints.VALUE_ANTIALIAS_OFF);
g.transform(
AffineTransform.getScaleInstance(original_width / width * height / original_height, 1));
g.drawString(annot1, 13 * original_height / height * width / original_width, 22F);
g.setTransform(save_tmp);
g.setTransform(save);
}