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android / platform / libcore / 71f2c75111e87091616f0f3b86bea6c4d345dad1 / . / test / jdk / java / awt / Window / ShapedAndTranslucentWindows / Common.java
blob: a97ef2e053868e6076d5f9e6fd9bbed1802595de [file] [log] [blame]
/*
* Copyright (c) 2014, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*/
import java.awt.*;
import java.awt.event.*;
import java.awt.geom.Area;
import java.awt.geom.Rectangle2D;
import java.awt.image.BufferedImage;
import java.security.SecureRandom;
/*
* @author Dmitriy Ermashov (dmitriy.ermashov@oracle.com)
*/
public abstract class Common {
ExtendedRobot robot;
Class<? extends Frame> windowClass;
Frame background;
BufferedImage foreground;
Window window;
Container componentsContainer;
float opacity = 1.0f;
static final int STATIC_STEP = 30;
static final int STATIC_WIDTH = 25;
static final int STATIC_BLOCKS = 30;
static final Color BG_COLOR = Color.BLUE;
static final Color FG_COLOR = Color.RED;
static final int delay = 55000;
static final SecureRandom random = new SecureRandom();
static final int dl = 100;
static final Class[] WINDOWS_TO_TEST = { Window.class, Frame.class, Dialog.class };
public Common(Class windowClass, float opacity) throws Exception{
this.opacity = opacity;
robot = new ExtendedRobot();
this.windowClass = windowClass;
EventQueue.invokeAndWait(this::initBackgroundFrame);
EventQueue.invokeAndWait(this::initGUI);
}
public Common(Class windowClass) throws Exception{
this(windowClass, 1.0f);
}
public void doTest() throws Exception {
robot.waitForIdle(delay);
};
public void dispose() {
window.dispose();
background.dispose();
}
public abstract void applyShape();
public void applyDynamicShape() {
final Area a = new Area();
Dimension size = window.getSize();
for (int x = 0; x < 3; x++) {
for (int y = 0; y < 3; y++) {
a.add(new Area(new Rectangle2D.Double(
x * size.getWidth() / 17*6, y * size.getHeight() / 17*6,
size.getWidth() / 17*5, size.getHeight() / 17*5)));
}
}
window.setShape(a);
}
public void applyStaticShape() {
final Area a = new Area();
for (int x = 0; x < STATIC_BLOCKS; x++) {
for (int y = 0; y < STATIC_BLOCKS; y++) {
a.add(new Area(new Rectangle2D.Float(
x*STATIC_STEP, y*STATIC_STEP,
STATIC_WIDTH, STATIC_WIDTH)));
}
}
window.setShape(a);
}
public BufferedImage getForegroundWindow() throws Exception {
final BufferedImage f[] = new BufferedImage[1];
EventQueue.invokeAndWait( () -> {
f[0] = new BufferedImage(window.getWidth(),
window.getHeight(), BufferedImage.TYPE_INT_RGB);
window.printAll(f[0].createGraphics());
});
robot.waitForIdle(delay);
return f[0];
}
public static boolean checkTranslucencyMode(GraphicsDevice.WindowTranslucency mode) {
if (!GraphicsEnvironment
.getLocalGraphicsEnvironment()
.getDefaultScreenDevice()
.isWindowTranslucencySupported(mode)){
System.out.println(mode+" translucency mode isn't supported");
return false;
} else {
return true;
}
}
public void applyAppDragNResizeSupport() {
MouseAdapter m = new MouseAdapter() {
private Point dragOrigin = null;
private Dimension origSize = null;
private Point origLoc = null;
private boolean left = false;
private boolean top = false;
private boolean bottom = false;
private boolean right = false;
public void mousePressed(MouseEvent e) {
dragOrigin = e.getLocationOnScreen();
origSize = window.getSize();
origLoc = window.getLocationOnScreen();
right = (origLoc.x + window.getWidth() - dragOrigin.x) < 5;
left = !right && dragOrigin.x - origLoc.x < 5;
bottom = (origLoc.y + window.getHeight() - dragOrigin.y) < 5;
top = !bottom && dragOrigin.y - origLoc.y < 5;
}
public void mouseReleased(MouseEvent e) { resize(e); }
public void mouseDragged(MouseEvent e) { resize(e); }
void resize(MouseEvent e) {
Point dragDelta = e.getLocationOnScreen();
dragDelta.translate(-dragOrigin.x, -dragOrigin.y);
Point newLoc = new Point(origLoc);
newLoc.translate(dragDelta.x, dragDelta.y);
Dimension newSize = new Dimension(origSize);
if (left || right) {
newSize.width += right ? dragDelta.x : -dragDelta.x;
}
if (top || bottom) {
newSize.height += bottom ? dragDelta.y : -dragDelta.y;
}
if (right || (top || bottom) && !left) {
newLoc.x = origLoc.x;
}
if (bottom || (left || right) && !top) {
newLoc.y = origLoc.y;
}
window.setBounds(newLoc.x, newLoc.y, newSize.width, newSize.height);
}
};
for (Component comp : window.getComponents()) {
comp.addMouseListener(m);
comp.addMouseMotionListener(m);
}
window.addMouseListener(m);
window.addMouseMotionListener(m);
}
public void checkTranslucentShape() throws Exception {
foreground = getForegroundWindow();
Point[] points = new Point[4];
Dimension size = window.getSize();
Point location = window.getLocationOnScreen();
points[0] = new Point(20, 20);
points[1] = new Point(20, size.height-20);
points[2] = new Point(size.width-20, 20);
points[3] = new Point(size.width-20, size.height-20);
for (Point p : points){
p.translate(location.x, location.y);
Color actual = robot.getPixelColor(p.x, p.y);
if (actual.equals(BG_COLOR)|| actual.equals(FG_COLOR))
throw new RuntimeException("Error in point "+p+": "+actual+" equals to foreground or background color");
else
System.out.println("OK with foreground point "+p);
}
}
public void checkStaticShape() throws Exception {
Point[] points = new Point[4];
Dimension size = window.getSize();
int xFactor = (int) Math.floor(size.getWidth()/STATIC_STEP)-1;
int yFactor = (int) Math.floor(size.getHeight()/STATIC_STEP)-1;
// background
points[0] = new Point((STATIC_STEP+STATIC_WIDTH)/2, (STATIC_STEP+STATIC_WIDTH)/2);
points[1] = new Point(STATIC_STEP*xFactor+(STATIC_STEP+STATIC_WIDTH)/2, STATIC_STEP*yFactor+(STATIC_STEP+STATIC_WIDTH)/2);
points[2] = new Point((STATIC_STEP+STATIC_WIDTH)/2, STATIC_STEP*yFactor+(STATIC_STEP+STATIC_WIDTH)/2);
points[3] = new Point(STATIC_STEP*xFactor+(STATIC_STEP+STATIC_WIDTH)/2, (STATIC_STEP+STATIC_WIDTH)/2);
checkShape(points, true);
// foreground
if (opacity < 1.0f){
checkTranslucentShape();
} else {
points[0] = new Point((STATIC_WIDTH) / 2, (STATIC_WIDTH) / 2);
points[1] = new Point(STATIC_STEP * xFactor + (STATIC_WIDTH) / 2, STATIC_STEP * yFactor + (STATIC_WIDTH) / 2);
points[2] = new Point((STATIC_WIDTH) / 2, STATIC_STEP * yFactor + (STATIC_WIDTH) / 2);
points[3] = new Point(STATIC_STEP * xFactor + (STATIC_WIDTH) / 2, (STATIC_WIDTH) / 2);
checkShape(points, false);
}
}
public void checkDynamicShape() throws Exception {
Point[] points = new Point[4];
Dimension size = window.getSize();
int blockSizeX = (int) (size.getWidth() / 17);
int blockSizeY = (int) (size.getHeight() / 17);
// background
points[0] = new Point((int) (blockSizeX * 5.5), (int) (blockSizeY * 5.5));
points[1] = new Point((int) (size.getWidth() - blockSizeX * 5.5), (int) (size.getHeight() - blockSizeY * 5.5));
points[2] = new Point((int) (blockSizeX * 5.5), (int) (size.getHeight() - blockSizeY * 5.5));
points[3] = new Point((int) (size.getWidth() - blockSizeX * 5.5), (int) (blockSizeY * 5.5));
checkShape(points, true);
// foreground
if (opacity < 1.0f){
checkTranslucentShape();
} else {
points[0] = new Point(3 * blockSizeX, 3 * blockSizeY);
points[1] = new Point(14 * blockSizeX, 14 * blockSizeY);
points[2] = new Point(3 * blockSizeX, 14 * blockSizeY);
points[3] = new Point(14 * blockSizeX, 3 * blockSizeY);
checkShape(points, false);
}
}
public void checkShape(Point[] points, boolean areBackgroundPoints) throws Exception {
Point location = window.getLocationOnScreen();
for (Point p : points) {
p.translate(location.x, location.y);
if (areBackgroundPoints) {
if (!robot.getPixelColor(p.x, p.y).equals(BG_COLOR))
throw new RuntimeException("Background point " + p + " color " + robot.getPixelColor(p.x, p.y) +
" does not equal to background color " + BG_COLOR);
else
System.out.println("OK with background point " + p);
} else {
if (robot.getPixelColor(p.x, p.y).equals(BG_COLOR))
throw new RuntimeException("Foreground point " + p +
" equals to background color " + BG_COLOR);
else
System.out.println("OK with foreground point " + p);
}
}
}
public void initBackgroundFrame() {
background = new Frame();
background.setUndecorated(true);
background.setBackground(BG_COLOR);
background.setSize(500, 500);
background.setLocation(dl, dl);
background.setVisible(true);
}
public void initGUI() {
if (windowClass.equals(Frame.class)) {
window = new Frame();
((Frame) window).setUndecorated(true);
} else if (windowClass.equals(Dialog.class)) {
window = new Dialog(background);
((Dialog) window).setUndecorated(true);
} else {
window = new Window(background);
}
window.setBackground(FG_COLOR);
componentsContainer = new Panel();
window.add(componentsContainer, BorderLayout.CENTER);
window.setLocation(2 * dl, 2 * dl);
window.setSize(255, 255);
if (opacity < 1.0f)
window.setOpacity(opacity);
window.addComponentListener(new ComponentAdapter() {
public void componentResized(ComponentEvent e) {
applyShape();
}
});
applyShape();
window.setVisible(true);
applyAppDragNResizeSupport();
window.toFront();
}
}