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eclipse / platform / eclipse.platform.swt / 885b266eee8c69156d4100b468f92c5ea72bbb48 / . / tests / org.eclipse.swt.tests / JUnit Tests / org / eclipse / swt / tests / junit / Test_org_eclipse_swt_widgets_Display.java
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/*******************************************************************************
* Copyright (c) 2000, 2015 IBM Corporation and others.
* All rights reserved. This program and the accompanying materials
* are made available under the terms of the Eclipse Public License v1.0
* which accompanies this distribution, and is available at
* http://www.eclipse.org/legal/epl-v10.html
*
* Contributors:
* IBM Corporation - initial API and implementation
* Red Hat Inc. - Bug 462631
*******************************************************************************/
package org.eclipse.swt.tests.junit;
import static org.eclipse.swt.tests.junit.SwtTestUtil.assertSWTProblem;
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertFalse;
import static org.junit.Assert.assertNotNull;
import static org.junit.Assert.assertNull;
import static org.junit.Assert.assertSame;
import static org.junit.Assert.assertTrue;
import static org.junit.Assert.fail;
import org.eclipse.swt.SWT;
import org.eclipse.swt.graphics.DeviceData;
import org.eclipse.swt.graphics.Font;
import org.eclipse.swt.graphics.FontData;
import org.eclipse.swt.graphics.Point;
import org.eclipse.swt.graphics.Rectangle;
import org.eclipse.swt.widgets.Button;
import org.eclipse.swt.widgets.Display;
import org.eclipse.swt.widgets.Event;
import org.eclipse.swt.widgets.Listener;
import org.eclipse.swt.widgets.Monitor;
import org.eclipse.swt.widgets.Shell;
import org.eclipse.swt.widgets.Synchronizer;
import org.junit.Test;
/**
* Automated Test Suite for class org.eclipse.swt.widgets.Display
*
* @see org.eclipse.swt.widgets.Display
*/
public class Test_org_eclipse_swt_widgets_Display {
@Test
public void test_Constructor() {
Display disp = new Display();
disp.dispose();
}
@Test
public void test_ConstructorLorg_eclipse_swt_graphics_DeviceData() {
Display disp;
disp = new Display(null);
disp.dispose();
disp = new Display(new DeviceData());
disp.dispose();
}
@Test
public void test_addFilterILorg_eclipse_swt_widgets_Listener() {
final int CLOSE_CALLBACK = 0;
final int DISPOSE_CALLBACK = 1;
final boolean[] callbackReceived = new boolean[] {false, false};
Listener listener = new Listener() {
public void handleEvent(Event e) {
if (e.type == SWT.Close)
callbackReceived[CLOSE_CALLBACK] = true;
else if (e.type == SWT.Dispose)
callbackReceived[DISPOSE_CALLBACK] = true;
}
};
Display display = new Display();
try {
try {
display.addFilter(SWT.Dispose, null);
fail("No exception thrown for addFilter with null argument");
} catch (IllegalArgumentException e) {
assertSWTProblem("Incorrect exception thrown for addFilter with null argument", SWT.ERROR_NULL_ARGUMENT, e);
}
display.addFilter(SWT.Close, listener);
} finally {
display.close();
}
assertTrue(callbackReceived[CLOSE_CALLBACK]);
assertFalse(callbackReceived[DISPOSE_CALLBACK]);
}
@Test
public void test_addListenerILorg_eclipse_swt_widgets_Listener() {
final int CLOSE_CALLBACK = 0;
final int DISPOSE_CALLBACK = 1;
final boolean[] callbackReceived = new boolean[] {false, false};
Listener listener = new Listener() {
public void handleEvent(Event e) {
if (e.type == SWT.Close)
callbackReceived[CLOSE_CALLBACK] = true;
else if (e.type == SWT.Dispose)
callbackReceived[DISPOSE_CALLBACK] = true;
}
};
Display display = new Display();
try {
try {
display.addListener(SWT.Close, null);
fail("No exception thrown for addListener with null argument");
} catch (IllegalArgumentException e) {
assertSWTProblem("Incorrect exception thrown for addListener with null argument", SWT.ERROR_NULL_ARGUMENT, e);
}
display.addListener(SWT.Dispose, listener);
} finally {
display.close();
}
assertFalse(":a:", callbackReceived[CLOSE_CALLBACK]);
assertTrue(":b:", callbackReceived[DISPOSE_CALLBACK]);
display = new Display();
try {
display.addListener(SWT.Close, listener);
} finally {
display.close();
}
assertTrue(":c:", callbackReceived[CLOSE_CALLBACK]);
}
@Test
public void test_asyncExecLjava_lang_Runnable() {
final Display display = new Display();
try {
display.asyncExec(new Runnable() {
public void run() {
display.beep();
}
});
} finally {
display.dispose();
}
}
@Test
public void test_asyncExecLjava_lang_Runnable_dispose() {
final Display display = new Display();
try {
disposeExecRan = false;
display.asyncExec(new Runnable() {
public void run() {
display.dispose();
disposeExecRan = true;
}
});
} finally {
while (!disposeExecRan) {
if (!display.readAndDispatch()) display.sleep ();
}
}
}
@Test
public void test_beep() {
Display display = new Display();
try {
display.beep();
} finally {
display.dispose();
}
}
@Test
public void test_close() {
Display display = new Display();
display.close();
assertTrue(display.isDisposed());
}
@Test
public void test_disposeExecLjava_lang_Runnable() {
// Also tests dispose and isDisposed
Display testDisplay = new Display();
disposeExecRan = false;
testDisplay.disposeExec(new Runnable() {
public void run() {
disposeExecRan = true;
}
});
assertEquals("Display should not be disposed", false, testDisplay.isDisposed());
testDisplay.dispose();
assertTrue("Display should be disposed", testDisplay.isDisposed());
assertTrue("DisposeExec Runnable did not run", disposeExecRan);
}
@Test
public void test_findDisplayLjava_lang_Thread() {
assertNull(Display.findDisplay(new Thread()));
Display display = new Display();
try {
assertEquals(display, Display.findDisplay(Thread.currentThread()));
} finally {
display.dispose();
}
}
@Test
public void test_getActiveShell() {
if (SwtTestUtil.isGTK) {
//TODO Fix GTK failure.
if (SwtTestUtil.verbose) {
System.out.println("Excluded test_getActiveShell(org.eclipse.swt.tests.junit.Test_org_eclipse_swt_widgets_Display)");
}
return;
}
Display display = new Display();
try {
Shell shell = new Shell(display);
shell.setText("test_getActiveShell");
shell.open();
assertSame(shell, display.getActiveShell());
shell.dispose();
} finally {
display.dispose();
}
}
@Test
public void test_getBounds() {
Display display = new Display();
try {
Rectangle rect = display.getBounds();
assertNotNull(rect);
} finally {
display.dispose();
}
}
@Test
public void test_getClientArea() {
Display display = new Display();
try {
Rectangle rect = display.getClientArea();
assertNotNull(rect);
} finally {
display.dispose();
}
}
@Test
public void test_getCurrent() {
Display display = new Display();
try {
assertTrue(display.getThread() == Thread.currentThread());
} finally {
display.dispose();
}
}
@Test
public void test_getCursorControl() {
Display display = new Display();
try {
display.getCursorControl();
} finally {
display.dispose();
}
}
@Test
public void test_getCursorLocation() {
Display display = new Display();
try {
Point pt = display.getCursorLocation();
assertNotNull(pt);
assertTrue(pt.x >= 0);
assertTrue(pt.y >= 0);
} finally {
display.dispose();
}
}
@Test
public void test_getDefault() {
Display display = new Display();
try {
assertNotNull(Display.getDefault());
} finally {
display.dispose();
}
}
@Test
public void test_getDismissalAlignment() {
Display display = new Display();
try {
int alignment = display.getDismissalAlignment();
assertTrue("getDismissalAlignment should return SWT.LEFT or SWT.RIGHT",
alignment == SWT.LEFT || alignment == SWT.RIGHT);
} finally {
display.dispose();
}
}
@Test
public void test_getDoubleClickTime() {
Display display = new Display();
try {
int time = display.getDoubleClickTime();
assertTrue(time > 0);
} finally {
display.dispose();
}
}
@Test
public void test_getFocusControl() {
Display display = new Display();
try {
display.getFocusControl();
} finally {
display.dispose();
}
}
@Test
public void test_getIconDepth() {
Display display = new Display();
try {
int depth = display.getIconDepth();
assertTrue(depth > 0);
} finally {
display.dispose();
}
}
@Test
public void test_getMonitors() {
Display display = new Display();
Monitor[] monitors = display.getMonitors();
assertNotNull(monitors);
assertTrue("at least one monitor should be returned", monitors.length >= 1);
for (int i = 0; i < monitors.length; i++)
assertTrue("monitor at index "+i+" should not be null", monitors[i] != null);
display.dispose();
}
/**
* Note, this is hard to test via unit tests as you might not have multiple monitors.
* When altering this function, it is recommended to perform
* the following tests manually:
* - Dual monitors with:
* - Primary being on the left
* - Primary being on the right
* - Stacked displays, primary on top
* - Stack displays, primary on bottom
* - Single display
*/
@Test
public void test_getPrimaryMonitor() {
Display display = new Display();
Monitor monitor = display.getPrimaryMonitor();
assertNotNull(monitor);
display.dispose();
}
@Test
public void test_getShells() {
Display display = new Display();
try {
Shell shell1 = new Shell(display);
Shell shell2 = new Shell(display);
assertTrue(display.getShells().length == 2);
shell1.dispose();
shell2.dispose();
} finally {
display.dispose();
}
}
@Test
public void test_getSyncThread() {
final Display display = new Display();
try {
final boolean[] threadRan = new boolean[] {false};
Thread nonUIThread = new Thread(new Runnable() {
public void run() {
// Assume no syncExec runnable is currently being invoked.
assertNull(display.getSyncThread());
// Create a runnable and invoke with syncExec to verify that
// the invoking thread is the syncThread.
final Thread invokingThread = Thread.currentThread();
display.syncExec(new Runnable() {
public void run() {
assertEquals(invokingThread, display.getSyncThread());
}
});
// Create a runnable and invoke with asyncExec to verify that
// the syncThread is null while it's running.
final boolean[] asyncExecRan = new boolean[] {false};
display.asyncExec(new Runnable() {
public void run() {
assertNull(display.getSyncThread());
asyncExecRan[0] = true;
}
});
try {
while (!asyncExecRan[0]) {
Thread.sleep(100);
}
} catch (InterruptedException ex) {
}
threadRan[0] = true;
display.wake();
}
});
nonUIThread.start();
while (!threadRan[0]) {
if (!display.readAndDispatch()) display.sleep ();
}
} finally {
display.dispose();
}
}
@Test
public void test_getSystemColorI() {
Display display = new Display();
try {
int [] colorIds = {
SWT.COLOR_WIDGET_DARK_SHADOW, SWT.COLOR_WIDGET_NORMAL_SHADOW,
SWT.COLOR_WIDGET_LIGHT_SHADOW, SWT.COLOR_WIDGET_HIGHLIGHT_SHADOW,
SWT.COLOR_WIDGET_BACKGROUND, SWT.COLOR_WIDGET_BORDER,
SWT.COLOR_WIDGET_FOREGROUND, SWT.COLOR_LIST_FOREGROUND,
SWT.COLOR_LIST_BACKGROUND, SWT.COLOR_LIST_SELECTION,
SWT.COLOR_LIST_SELECTION_TEXT,
};
for (int i=0; i < colorIds.length; i++) {
assertNotNull(display.getSystemColor(colorIds[i]));
}
} finally {
display.dispose();
}
}
@Test
public void test_getSystemFont() {
Display display = new Display();
try {
Font font = display.getSystemFont();
assertNotNull(font);
} finally {
display.dispose();
}
}
@Test
public void test_getThread() {
Display display = new Display();
try {
assertTrue(display.getThread() == Thread.currentThread());
} finally {
display.dispose();
}
}
@Test
public void test_mapLorg_eclipse_swt_widgets_ControlLorg_eclipse_swt_widgets_ControlII() {
Display display = new Display();
try {
Shell shell = new Shell(display, SWT.NO_TRIM);
Button button1 = new Button(shell, SWT.PUSH);
button1.setBounds(0,0,100,100);
Button button2 = new Button(shell, SWT.PUSH);
button2.setBounds(200,100,100,100);
shell.setBounds(0,0,400,400);
shell.open();
Point shellOffset = shell.getLocation();
Point result;
result = display.map(button1, button2, 0, 0);
assertEquals(new Point(-200,-100), result);
result = display.map(button1, button2, -10, -20);
assertEquals(new Point(-210,-120), result);
result = display.map(button1, button2, 30, 40);
assertEquals(new Point(-170,-60), result);
result = display.map(button2, button1, 0, 0);
assertEquals(new Point(200,100), result);
result = display.map(button2, button1, -5, -15);
assertEquals(new Point(195,85), result);
result = display.map(button2, button1, 25, 35);
assertEquals(new Point(225,135), result);
result = display.map(null, button2, 0, 0);
assertEquals(new Point(-200 - shellOffset.x,-100 - shellOffset.y), result);
result = display.map(null, button2, -2, -4);
assertEquals(new Point(-202 - shellOffset.x,-104 - shellOffset.y), result);
result = display.map(null, button2, 6, 8);
assertEquals(new Point(-194 - shellOffset.x,-92 - shellOffset.y), result);
result = display.map(button2, null, 0, 0);
assertEquals(new Point(shellOffset.x + 200,shellOffset.y + 100), result);
result = display.map(button2, null, -3, -6);
assertEquals(new Point(shellOffset.x + 197,shellOffset.y + 94), result);
result = display.map(button2, null, 9, 12);
assertEquals(new Point(shellOffset.x + 209,shellOffset.y + 112), result);
Shell shellMapTest1 = new Shell(display,SWT.NO_TRIM);
Button buttonTest1 = new Button(shellMapTest1, SWT.PUSH);
buttonTest1.setBounds(0,0,100,100);
shellMapTest1.setBounds(200, 200, 400, 400);
shellMapTest1.open();
Shell overlayShell1 = new Shell(shellMapTest1, SWT.NO_TRIM); //subshell
overlayShell1.setBounds(shellMapTest1.getBounds());
Rectangle r = buttonTest1.getBounds();
result = display.map(buttonTest1, null, new Point(r.x, r.y));
result = display.map(null, overlayShell1, result);
assertEquals(new Point(r.x, r.y), result);
Shell shellMapTest2 = new Shell(display,SWT.NO_TRIM);
Button buttonTest2 = new Button(shellMapTest2, SWT.PUSH);
buttonTest2.setBounds(0,0,100,100);
shellMapTest2.setBounds(200, 200, 400, 400);
shellMapTest2.open();
Shell overlayShell2 = new Shell(display, SWT.NO_TRIM); //nativeshell
overlayShell2.setBounds(shellMapTest2.getBounds());
r = buttonTest2.getBounds();
result = display.map(buttonTest2, null, new Point(r.x, r.y));
result = display.map(null, overlayShell2, result.x, result.y);
assertEquals(new Point(r.x, r.y), result);
Shell shellMapTestRtoL1 = new Shell(display,SWT.NO_TRIM);
shellMapTestRtoL1.setOrientation(SWT.RIGHT_TO_LEFT);
Button buttonTestRtoL1 = new Button(shellMapTestRtoL1, SWT.PUSH);
buttonTestRtoL1.setBounds(0,0,100,100);
shellMapTestRtoL1.setBounds(200, 200, 400, 400);
shellMapTestRtoL1.open();
Shell overlayShellRtoL1 = new Shell(shellMapTestRtoL1, SWT.NO_TRIM); //subshell
overlayShellRtoL1.setOrientation(SWT.RIGHT_TO_LEFT);
overlayShellRtoL1.setBounds(shellMapTestRtoL1.getBounds());
r = buttonTestRtoL1.getBounds();
result = display.map(buttonTestRtoL1, null, new Point(r.x, r.y));
result = display.map(null, overlayShellRtoL1, result);
assertEquals(new Point(r.x, r.y), result);
Shell shellMapTestRtoL2 = new Shell(display,SWT.NO_TRIM);
shellMapTestRtoL2.setOrientation(SWT.RIGHT_TO_LEFT);
Button buttonTestRtoL2 = new Button(shellMapTestRtoL2, SWT.PUSH);
buttonTestRtoL2.setBounds(0,0,100,100);
shellMapTestRtoL2.setBounds(200, 200, 400, 400);
shellMapTestRtoL2.open();
Shell overlayShellRtoL2 = new Shell(display, SWT.NO_TRIM); //nativeshell
overlayShellRtoL2.setOrientation(SWT.RIGHT_TO_LEFT);
overlayShellRtoL2.setBounds(shellMapTestRtoL2.getBounds());
r = buttonTestRtoL2.getBounds();
result = display.map(buttonTestRtoL2, null, new Point(r.x, r.y));
result = display.map(null, overlayShellRtoL2, result.x, result.y);
assertEquals(new Point(r.x, r.y), result);
button1.dispose();
buttonTest1.dispose();
buttonTest2.dispose();
shellMapTest1.dispose();
shellMapTest2.dispose();
overlayShell1.dispose();
overlayShell2.dispose();
buttonTestRtoL1.dispose();
buttonTestRtoL2.dispose();
shellMapTestRtoL1.dispose();
shellMapTestRtoL2.dispose();
overlayShellRtoL1.dispose();
overlayShellRtoL2.dispose();
try {
result = display.map(button1, button2, 0, 0);
fail("No exception thrown for map from control being disposed");
} catch (IllegalArgumentException e) {
assertSWTProblem("Incorrect exception thrown for map from control being disposed", SWT.ERROR_INVALID_ARGUMENT, e);
}
try {
result = display.map(button2, button1, 0, 0);
fail("No exception thrown for map to control being disposed");
} catch (IllegalArgumentException e) {
assertSWTProblem("Incorrect exception thrown for map to control being disposed", SWT.ERROR_INVALID_ARGUMENT, e);
}
shell.dispose();
} finally {
display.dispose();
}
}
@Test
public void test_mapLorg_eclipse_swt_widgets_ControlLorg_eclipse_swt_widgets_ControlIIII() {
Display display = new Display();
try {
Shell shell = new Shell(display, SWT.NO_TRIM);
Button button1 = new Button(shell, SWT.PUSH);
button1.setBounds(0,0,100,100);
Button button2 = new Button(shell, SWT.PUSH);
button2.setBounds(200,100,100,100);
shell.setBounds(0,0,400,400);
shell.open();
Point shellOffset = shell.getLocation();
Rectangle result;
result = display.map(button1, button2, 0, 0, 100, 100);
assertEquals(new Rectangle(-200,-100,100,100), result);
result = display.map(button1, button2, -10, -20, 130, 140);
assertEquals(new Rectangle(-210,-120,130,140), result);
result = display.map(button1, button2, 50, 60, 170, 180);
assertEquals(new Rectangle(-150,-40,170,180), result);
result = display.map(button2, button1, 0, 0, 100, 100);
assertEquals(new Rectangle(200,100,100,100), result);
result = display.map(button2, button1, -5, -15, 125, 135);
assertEquals(new Rectangle(195,85,125,135), result);
result = display.map(button2, button1, 45, 55, 165, 175);
assertEquals(new Rectangle(245,155,165,175), result);
result = display.map(null, button2, 0, 0, 100, 100);
assertEquals(new Rectangle(-200 - shellOffset.x,-100 - shellOffset.y,100,100), result);
result = display.map(null, button2, -2, -4, 106, 108);
assertEquals(new Rectangle(-202 - shellOffset.x,-104 - shellOffset.y,106,108), result);
result = display.map(null, button2, 10, 12, 114, 116);
assertEquals(new Rectangle(-190 - shellOffset.x,-88 - shellOffset.y,114,116), result);
result = display.map(button2, null, 0, 0, 100, 100);
assertEquals(new Rectangle(shellOffset.x + 200,shellOffset.y + 100,100,100), result);
result = display.map(button2, null, -3, -6, 109, 112);
assertEquals(new Rectangle(shellOffset.x + 197,shellOffset.y + 94,109,112), result);
result = display.map(button2, null, 15, 18, 121, 124);
assertEquals(new Rectangle(shellOffset.x + 215,shellOffset.y + 118,121,124), result);
Shell shellMapTest1 = new Shell(display,SWT.NO_TRIM);
Button buttonTest1 = new Button(shellMapTest1, SWT.PUSH);
buttonTest1.setBounds(0,0,100,100);
shellMapTest1.setBounds(200, 200, 400, 400);
shellMapTest1.open();
Shell overlayShell1 = new Shell(shellMapTest1, SWT.NO_TRIM); //subshell
overlayShell1.setBounds(shellMapTest1.getBounds());
Rectangle r = buttonTest1.getBounds();
result = display.map(buttonTest1, null, r);
result = display.map(null, overlayShell1, result);
assertEquals(r, result);
Shell shellMapTest2 = new Shell(display,SWT.NO_TRIM);
Button buttonTest2 = new Button(shellMapTest2, SWT.PUSH);
buttonTest2.setBounds(0,0,100,100);
shellMapTest2.setBounds(200, 200, 400, 400);
shellMapTest2.open();
Shell overlayShell2 = new Shell(display, SWT.NO_TRIM); //root shell
overlayShell2.setBounds(shellMapTest2.getBounds());
r = buttonTest2.getBounds();
result = display.map(buttonTest2, null, r);
result = display.map(null, overlayShell2, result);
assertEquals(r, result);
Shell shellMapTestRtoL1 = new Shell(display,SWT.NO_TRIM);
shellMapTestRtoL1.setOrientation(SWT.RIGHT_TO_LEFT);
Button buttonTestRtoL1 = new Button(shellMapTestRtoL1, SWT.PUSH);
buttonTestRtoL1.setBounds(0,0,100,100);
shellMapTestRtoL1.setBounds(200, 200, 400, 400);
shellMapTestRtoL1.open();
Shell overlayShellRtoL1 = new Shell(shellMapTestRtoL1, SWT.NO_TRIM); //subshell
overlayShellRtoL1.setOrientation(SWT.RIGHT_TO_LEFT);
overlayShellRtoL1.setBounds(shellMapTestRtoL1.getBounds());
r = buttonTest1.getBounds();
result = display.map(buttonTestRtoL1, null, r);
result = display.map(null, overlayShellRtoL1, result);
assertEquals(r, result);
Shell shellMapTestRtoL2 = new Shell(display,SWT.NO_TRIM);
shellMapTestRtoL2.setOrientation(SWT.RIGHT_TO_LEFT);
Button buttonTestRtoL2 = new Button(shellMapTestRtoL2, SWT.PUSH);
buttonTestRtoL2.setBounds(0,0,100,100);
shellMapTestRtoL2.setBounds(200, 200, 400, 400);
shellMapTestRtoL2.open();
Shell overlayShellRtoL2 = new Shell(display, SWT.NO_TRIM); //root shell
overlayShellRtoL2.setOrientation(SWT.RIGHT_TO_LEFT);
overlayShellRtoL2.setBounds(shellMapTestRtoL2.getBounds());
r = buttonTestRtoL2.getBounds();
result = display.map(buttonTestRtoL2, null, r);
result = display.map(null, overlayShellRtoL2, result);
assertEquals(r, result);
button1.dispose();
buttonTest1.dispose();
buttonTest2.dispose();
shellMapTest1.dispose();
shellMapTest2.dispose();
overlayShell1.dispose();
overlayShell2.dispose();
buttonTestRtoL1.dispose();
buttonTestRtoL2.dispose();
shellMapTestRtoL1.dispose();
shellMapTestRtoL2.dispose();
overlayShellRtoL1.dispose();
overlayShellRtoL2.dispose();
try {
result = display.map(button1, button2, 0, 0, 100, 100);
fail("No exception thrown for map from control being disposed");
} catch (IllegalArgumentException e) {
assertSWTProblem("Incorrect exception thrown for map from control being disposed", SWT.ERROR_INVALID_ARGUMENT, e);
}
try {
result = display.map(button2, button1, 0, 0, 100, 100);
fail("No exception thrown for map to control being disposed");
} catch (IllegalArgumentException e) {
assertSWTProblem("Incorrect exception thrown for map to control being disposed", SWT.ERROR_INVALID_ARGUMENT, e);
}
shell.dispose();
} finally {
display.dispose();
}
}
@Test
public void test_mapLorg_eclipse_swt_widgets_ControlLorg_eclipse_swt_widgets_ControlLorg_eclipse_swt_graphics_Point() {
Display display = new Display();
try {
Shell shell = new Shell(display, SWT.NO_TRIM);
Button button1 = new Button(shell, SWT.PUSH);
button1.setBounds(0,0,100,100);
Button button2 = new Button(shell, SWT.PUSH);
button2.setBounds(200,100,100,100);
shell.setBounds(0,0,400,400);
shell.open();
Point result;
Point point = new Point(0,0);
Point shellOffset = shell.getLocation();
result = display.map(button1, button2, point);
assertEquals(new Point(-200,-100), result);
result = display.map(button1, button2, new Point(-10,-20));
assertEquals(new Point(-210,-120), result);
result = display.map(button1, button2, new Point(30,40));
assertEquals(new Point(-170,-60), result);
result = display.map(button2, button1, point);
assertEquals(new Point(200,100), result);
result = display.map(button2, button1, new Point(-5,-15));
assertEquals(new Point(195,85), result);
result = display.map(button2, button1, new Point(25,35));
assertEquals(new Point(225,135), result);
result = display.map(null, button2, point);
assertEquals(new Point(-200 - shellOffset.x,-100 - shellOffset.y), result);
result = display.map(null, button2, new Point(-2,-4));
assertEquals(new Point(-202 - shellOffset.x,-104 - shellOffset.y), result);
result = display.map(null, button2, new Point(6,8));
assertEquals(new Point(-194 - shellOffset.x,-92 - shellOffset.y), result);
result = display.map(button2, null, point);
assertEquals(new Point(shellOffset.x + 200,shellOffset.y + 100), result);
result = display.map(button2, null, new Point(-3,-6));
assertEquals(new Point(shellOffset.x + 197,shellOffset.y + 94), result);
result = display.map(button2, null, new Point(9,12));
assertEquals(new Point(shellOffset.x + 209,shellOffset.y + 112), result);
Shell shellMapTest1 = new Shell(display,SWT.NO_TRIM);
Button buttonTest1 = new Button(shellMapTest1, SWT.PUSH);
buttonTest1.setBounds(0,0,100,100);
shellMapTest1.setBounds(200, 200, 400, 400);
shellMapTest1.open();
Shell overlayShell1 = new Shell(shellMapTest1, SWT.NO_TRIM); //subshell
overlayShell1.setBounds(shellMapTest1.getBounds());
Rectangle r = buttonTest1.getBounds();
result = display.map(buttonTest1, null, new Point(r.x, r.y));
result = display.map(null, overlayShell1, result);
assertEquals(new Point(r.x, r.y), result);
Shell shellMapTest2 = new Shell(display,SWT.NO_TRIM);
Button buttonTest2 = new Button(shellMapTest2, SWT.PUSH);
buttonTest2.setBounds(0,0,100,100);
shellMapTest2.setBounds(200, 200, 400, 400);
shellMapTest2.open();
Shell overlayShell2 = new Shell(display, SWT.NO_TRIM); //nativeshell
overlayShell2.setBounds(shellMapTest2.getBounds());
r = buttonTest2.getBounds();
result = display.map(buttonTest2, null, new Point(r.x, r.y));
result = display.map(null, overlayShell2, result.x, result.y);
assertEquals(new Point(r.x, r.y), result);
Shell shellMapTestRtoL1 = new Shell(display,SWT.NO_TRIM);
shellMapTestRtoL1.setOrientation(SWT.RIGHT_TO_LEFT);
Button buttonTestRtoL1 = new Button(shellMapTestRtoL1, SWT.PUSH);
buttonTestRtoL1.setBounds(0,0,100,100);
shellMapTestRtoL1.setBounds(200, 200, 400, 400);
shellMapTestRtoL1.open();
Shell overlayShellRtoL1 = new Shell(shellMapTestRtoL1, SWT.NO_TRIM); //subshell
overlayShellRtoL1.setOrientation(SWT.RIGHT_TO_LEFT);
overlayShellRtoL1.setBounds(shellMapTestRtoL1.getBounds());
r = buttonTestRtoL1.getBounds();
result = display.map(buttonTestRtoL1, null, new Point(r.x, r.y));
result = display.map(null, overlayShellRtoL1, result);
assertEquals(new Point(r.x, r.y), result);
Shell shellMapTestRtoL2 = new Shell(display,SWT.NO_TRIM);
shellMapTestRtoL2.setOrientation(SWT.RIGHT_TO_LEFT);
Button buttonTestRtoL2 = new Button(shellMapTestRtoL2, SWT.PUSH);
buttonTestRtoL2.setBounds(0,0,100,100);
shellMapTestRtoL2.setBounds(200, 200, 400, 400);
shellMapTestRtoL2.open();
Shell overlayShellRtoL2 = new Shell(display, SWT.NO_TRIM); //nativeshell
overlayShellRtoL2.setOrientation(SWT.RIGHT_TO_LEFT);
overlayShellRtoL2.setBounds(shellMapTestRtoL2.getBounds());
r = buttonTestRtoL2.getBounds();
result = display.map(buttonTestRtoL2, null, new Point(r.x, r.y));
result = display.map(null, overlayShellRtoL2, result.x, result.y);
assertEquals(new Point(r.x, r.y), result);
button1.dispose();
buttonTest1.dispose();
buttonTest2.dispose();
shellMapTest1.dispose();
shellMapTest2.dispose();
overlayShell1.dispose();
overlayShell2.dispose();
buttonTestRtoL1.dispose();
buttonTestRtoL2.dispose();
shellMapTestRtoL1.dispose();
shellMapTestRtoL2.dispose();
overlayShellRtoL1.dispose();
overlayShellRtoL2.dispose();
try {
result = display.map(button1, button2, point);
fail("No exception thrown for map from control being disposed");
} catch (IllegalArgumentException e) {
assertSWTProblem("Incorrect exception thrown for map from control being disposed", SWT.ERROR_INVALID_ARGUMENT, e);
}
try {
result = display.map(button2, button1, point);
fail("No exception thrown for map to control being disposed");
} catch (IllegalArgumentException e) {
assertSWTProblem("Incorrect exception thrown for map to control being disposed", SWT.ERROR_INVALID_ARGUMENT, e);
}
try {
result = display.map(button2, button1, (Point) null);
fail("No exception thrown for null point");
} catch (IllegalArgumentException e) {
assertSWTProblem("Incorrect exception thrown for point being null", SWT.ERROR_NULL_ARGUMENT, e);
}
shell.dispose();
} finally {
display.dispose();
}
}
@Test
public void test_mapLorg_eclipse_swt_widgets_ControlLorg_eclipse_swt_widgets_ControlLorg_eclipse_swt_graphics_Rectangle() {
Display display = new Display();
try {
Shell shell = new Shell(display, SWT.NO_TRIM);
Button button1 = new Button(shell, SWT.PUSH);
button1.setBounds(0,0,100,100);
Button button2 = new Button(shell, SWT.PUSH);
button2.setBounds(200,100,100,100);
shell.setBounds(0,0,400,400);
shell.open();
Rectangle result;
Rectangle rect = new Rectangle(0,0,100,100);
Point shellOffset = shell.getLocation();
result = display.map(button1, button2, rect);
assertEquals(new Rectangle(-200,-100,100,100), result);
result = display.map(button1, button2, new Rectangle(-10, -20, 130, 140));
assertEquals(new Rectangle(-210,-120,130,140), result);
result = display.map(button1, button2, new Rectangle(50, 60, 170, 180));
assertEquals(new Rectangle(-150,-40,170,180), result);
result = display.map(button2, button1, rect);
assertEquals(new Rectangle(200,100,100,100), result);
result = display.map(button2, button1, new Rectangle(-5, -15, 125, 135));
assertEquals(new Rectangle(195,85,125,135), result);
result = display.map(button2, button1, new Rectangle(45, 55, 165, 175));
assertEquals(new Rectangle(245,155,165,175), result);
result = display.map(null, button2, rect);
assertEquals(new Rectangle(-200 - shellOffset.x,-100 - shellOffset.y,100,100), result);
result = display.map(null, button2, new Rectangle(-2, -4, 106, 108));
assertEquals(new Rectangle(-202 - shellOffset.x,-104 - shellOffset.y,106,108), result);
result = display.map(null, button2, new Rectangle(10, 12, 114, 116));
assertEquals(new Rectangle(-190 - shellOffset.x,-88 - shellOffset.y,114,116), result);
result = display.map(button2, null, rect);
assertEquals(new Rectangle(shellOffset.x + 200,shellOffset.y + 100,100,100), result);
result = display.map(button2, null, new Rectangle(-3, -6, 109, 112));
assertEquals(new Rectangle(shellOffset.x + 197,shellOffset.y + 94,109,112), result);
result = display.map(button2, null, new Rectangle(15, 18, 121, 124));
assertEquals(new Rectangle(shellOffset.x + 215,shellOffset.y + 118,121,124), result);
Shell shellMapTest1 = new Shell(display,SWT.NO_TRIM);
Button buttonTest1 = new Button(shellMapTest1, SWT.PUSH);
buttonTest1.setBounds(0,0,100,100);
shellMapTest1.setBounds(200, 200, 400, 400);
shellMapTest1.open();
Shell overlayShell1 = new Shell(shellMapTest1, SWT.NO_TRIM); //subshell
overlayShell1.setBounds(shellMapTest1.getBounds());
Rectangle r = buttonTest1.getBounds();
result = display.map(buttonTest1, null, r);
result = display.map(null, overlayShell1, result);
assertEquals(r, result);
Shell shellMapTest2 = new Shell(display,SWT.NO_TRIM);
Button buttonTest2 = new Button(shellMapTest2, SWT.PUSH);
buttonTest2.setBounds(0,0,100,100);
shellMapTest2.setBounds(200, 200, 400, 400);
shellMapTest2.open();
Shell overlayShell2 = new Shell(display, SWT.NO_TRIM); //root shell
overlayShell2.setBounds(shellMapTest2.getBounds());
r = buttonTest2.getBounds();
result = display.map(buttonTest2, null, r);
result = display.map(null, overlayShell2, result);
assertEquals(r, result);
Shell shellMapTestRtoL1 = new Shell(display,SWT.NO_TRIM);
shellMapTestRtoL1.setOrientation(SWT.RIGHT_TO_LEFT);
Button buttonTestRtoL1 = new Button(shellMapTestRtoL1, SWT.PUSH);
buttonTestRtoL1.setBounds(0,0,100,100);
shellMapTestRtoL1.setBounds(200, 200, 400, 400);
shellMapTestRtoL1.open();
Shell overlayShellRtoL1 = new Shell(shellMapTestRtoL1, SWT.NO_TRIM); //subshell
overlayShellRtoL1.setOrientation(SWT.RIGHT_TO_LEFT);
overlayShellRtoL1.setBounds(shellMapTestRtoL1.getBounds());
r = buttonTestRtoL1.getBounds();
result = display.map(buttonTestRtoL1, null, r);
result = display.map(null, overlayShellRtoL1, result);
assertEquals(r, result);
Shell shellMapTestRtoL2 = new Shell(display,SWT.NO_TRIM);
shellMapTestRtoL2.setOrientation(SWT.RIGHT_TO_LEFT);
Button buttonTestRtoL2 = new Button(shellMapTestRtoL2, SWT.PUSH);
buttonTestRtoL2.setBounds(0,0,100,100);
shellMapTestRtoL2.setBounds(200, 200, 400, 400);
shellMapTestRtoL2.open();
Shell overlayShellRtoL2 = new Shell(display, SWT.NO_TRIM); //root shell
overlayShellRtoL2.setOrientation(SWT.RIGHT_TO_LEFT);
overlayShellRtoL2.setBounds(shellMapTestRtoL2.getBounds());
r = buttonTestRtoL2.getBounds();
result = display.map(buttonTestRtoL2, null, r);
result = display.map(null, overlayShellRtoL2, result);
assertEquals(r, result);
button1.dispose();
buttonTest1.dispose();
buttonTest2.dispose();
shellMapTest1.dispose();
shellMapTest2.dispose();
overlayShell1.dispose();
overlayShell2.dispose();
buttonTestRtoL1.dispose();
buttonTestRtoL2.dispose();
shellMapTestRtoL1.dispose();
shellMapTestRtoL2.dispose();
overlayShellRtoL1.dispose();
overlayShellRtoL2.dispose();
try {
result = display.map(button1, button2, rect);
fail("No exception thrown for map from control being disposed");
} catch (IllegalArgumentException e) {
assertSWTProblem("Incorrect exception thrown for map from control being disposed", SWT.ERROR_INVALID_ARGUMENT, e);
}
try {
result = display.map(button2, button1, rect);
fail("No exception thrown for map to control being disposed");
} catch (IllegalArgumentException e) {
assertSWTProblem("Incorrect exception thrown for map to control being disposed", SWT.ERROR_INVALID_ARGUMENT, e);
}
try {
result = display.map(button2, button1, (Rectangle) null);
fail("No exception thrown for null point");
} catch (IllegalArgumentException e) {
assertSWTProblem("Incorrect exception thrown for rectangle being null", SWT.ERROR_NULL_ARGUMENT, e);
}
shell.dispose();
} finally {
display.dispose();
}
}
@Test
public void test_postLorg_eclipse_swt_widgets_Event() {
if (SwtTestUtil.isGTK || SwtTestUtil.isCocoa) {
//TODO Fix GTK and Cocoa failure.
if (SwtTestUtil.verbose) {
System.out.println("Excluded test_postLorg_eclipse_swt_widgets_Event(org.eclipse.swt.tests.junit.Test_org_eclipse_swt_widgets_Display)");
}
return;
}
final int KEYCODE = SWT.SHIFT;
Display display = new Display();
try {
try {
display.post(null);
fail("No exception thrown for post with null argument");
} catch (IllegalArgumentException e) {
assertSWTProblem("Incorrect exception thrown for post with null argument", SWT.ERROR_NULL_ARGUMENT, e);
}
Shell shell = new Shell(display, SWT.NO_TRIM);
shell.setBounds(display.getBounds());
shell.open();
Event event;
// Test key events (down/up)
event = new Event();
event.type = SWT.KeyDown;
event.keyCode = -1; // bogus key code; default 0 character
assertTrue("Display#post failed, probably because screen is not rendered (bug 407862)", display.post(event)); //$NON-NLS-1$
// don't test KeyDown/KeyUp with a character to avoid sending to
// random window if test shell looses focus
event = new Event();
event.type = SWT.KeyUp;
assertTrue(display.post(event));
event.type = SWT.KeyDown;
event.keyCode = KEYCODE;
shell.setFocus();
assertTrue(display.post(event));
event.type = SWT.KeyUp;
shell.setFocus();
assertTrue(display.post(event));
// Test mouse events (down/up/move)
event = new Event();
event.type = SWT.MouseMove;
Rectangle bounds = shell.getBounds();
event.x = bounds.x + bounds.width/2;
event.y = bounds.y + bounds.height/2;
shell.setFocus();
assertTrue(display.post(event));
event = new Event();
event.type = SWT.MouseDown;
assertFalse(display.post(event)); // missing button
event.button = 1;
shell.setFocus();
assertTrue(display.post(event));
event = new Event();
event.type = SWT.MouseUp;
assertFalse(display.post(event)); // missing button
event.button = 1;
shell.setFocus();
assertTrue(display.post(event));
// Test unsupported event
event = new Event();
event.type = SWT.MouseDoubleClick;
assertFalse(display.post(event));
shell.dispose();
// can't verify that the events were actually sent to a listener.
// the test shell won't receive any events if it has lost focus,
// e.g., due to user intervention or another process popping up
// a window.
} finally {
display.dispose();
}
}
@Test
public void test_readAndDispatch() {
// The following tests rely on readAndDispatch in order to succeed,
// thus no test is needed here.
// test_getSyncThread()
// test_postLorg_eclipse_swt_widgets_Event()
}
@Test
public void test_removeFilterILorg_eclipse_swt_widgets_Listener() {
final int CLOSE_CALLBACK = 0;
final int DISPOSE_CALLBACK = 1;
final boolean[] callbackReceived = new boolean[] {false, false};
Listener listener = new Listener() {
public void handleEvent(Event e) {
if (e.type == SWT.Close)
callbackReceived[CLOSE_CALLBACK] = true;
else if (e.type == SWT.Dispose)
callbackReceived[DISPOSE_CALLBACK] = true;
}
};
Display display = new Display();
try {
try {
display.removeFilter(SWT.Dispose, null);
fail("No exception thrown for removeFilter with null argument");
} catch (IllegalArgumentException e) {
assertSWTProblem("Incorrect exception thrown for removeFilter with null argument", SWT.ERROR_NULL_ARGUMENT, e);
}
display.addFilter(SWT.Close, listener);
display.removeFilter(SWT.Close, listener);
} finally {
display.close();
}
assertFalse(callbackReceived[CLOSE_CALLBACK]);
assertFalse(callbackReceived[DISPOSE_CALLBACK]);
}
@Test
public void test_removeListenerILorg_eclipse_swt_widgets_Listener() {
final int CLOSE_CALLBACK = 0;
final int DISPOSE_CALLBACK = 1;
final boolean[] callbackReceived = new boolean[] {false, false};
Listener listener = new Listener() {
public void handleEvent(Event e) {
if (e.type == SWT.Close)
callbackReceived[CLOSE_CALLBACK] = true;
else if (e.type == SWT.Dispose)
callbackReceived[DISPOSE_CALLBACK] = true;
}
};
Display display = new Display();
try {
try {
display.removeListener(SWT.Close, null);
fail("No exception thrown for removeListener with null argument");
} catch (IllegalArgumentException e) {
assertSWTProblem("Incorrect exception thrown for removeListener with null argument", SWT.ERROR_NULL_ARGUMENT, e);
}
display.addListener(SWT.Dispose, listener);
display.removeListener(SWT.Dispose, listener);
} finally {
display.close();
}
assertFalse(callbackReceived[CLOSE_CALLBACK]);
assertFalse(callbackReceived[DISPOSE_CALLBACK]);
}
@Test
public void test_setAppNameLjava_lang_String() {
Display.setAppName("My Application Name");
}
@Test
public void test_setCursorLocationII() {
Display display = new Display();
try {
display.setCursorLocation(100, 100); // don't put cursor into a corner, since that could trigger special platform events
} finally {
display.dispose();
}
}
@Test
public void test_setCursorLocationLorg_eclipse_swt_graphics_Point() {
Display display = new Display();
try {
display.setCursorLocation(new Point(100, 50)); // don't put cursor into a corner, since that could trigger special platform events
try {
display.setCursorLocation(null);
fail("No exception thrown for null argument");
}
catch (IllegalArgumentException e) {
assertSWTProblem("Incorrect exception thrown for setCursorLocation with null argument", SWT.ERROR_NULL_ARGUMENT, e);
}
} finally {
display.dispose();
}
}
@Test
public void test_setDataLjava_lang_Object() {
Display display = new Display();
try {
display.setData(new Integer(10));
Integer i = (Integer)display.getData();
assertNotNull(i);
assertTrue(i.equals(new Integer(10)));
} finally {
display.dispose();
}
}
@Test
public void test_setDataLjava_lang_StringLjava_lang_Object() {
Display display = new Display();
try {
display.setData("Integer", new Integer(10));
display.setData("String", "xyz");
Integer i = (Integer)display.getData("Integer");
assertNotNull(i);
assertTrue(i.equals(new Integer(10)));
String s = (String)display.getData("String");
assertNotNull(s);
assertTrue(s.equals("xyz"));
} finally {
display.dispose();
}
}
@Test
public void test_setSynchronizerLorg_eclipse_swt_widgets_Synchronizer() {
final Display display = new Display();
final boolean[] asyncExec0Ran = new boolean[] {false};
final boolean[] asyncExec1Ran = new boolean[] {false};
try {
try {
display.setSynchronizer(null);
fail("No exception thrown for post with null argument");
} catch (IllegalArgumentException e) {
assertSWTProblem("Incorrect exception thrown for set synchronizer with null argument", SWT.ERROR_NULL_ARGUMENT, e);
}
class MySynchronizer extends Synchronizer {
boolean invoked = false;
MySynchronizer(Display d) {
super(d);
}
@Override
protected void asyncExec (Runnable runnable) {
invoked = true;
super.asyncExec(runnable);
}
}
MySynchronizer mySynchronizer = new MySynchronizer(display);
display.asyncExec(new Runnable() {
public void run() {
asyncExec0Ran[0] = true;
}
});
display.setSynchronizer(mySynchronizer);
display.asyncExec(new Runnable() {
public void run() {
asyncExec1Ran[0] = true;
}
});
assertFalse(asyncExec0Ran[0]);
assertFalse(asyncExec1Ran[0]);
while (display.readAndDispatch()) {}
assertTrue(mySynchronizer.invoked);
assertTrue(asyncExec0Ran[0]);
assertTrue(asyncExec1Ran[0]);
} finally {
display.dispose();
}
}
@Test
public void test_sleep() {
final Display display = new Display();
try {
Thread thread;
boolean eventQueued;
// Ensure event queue is empty, otherwise sleep() will just return.
while(display.readAndDispatch()) {}
thread = new Thread() {
@Override
public void run() {
try {
// Delay to ensure the UI thread has been put to sleep.
sleep(3000);
} catch (InterruptedException ex) {
}
// Use wake() to revive from sleep().
display.wake();
}
};
thread.start();
// Note that sleep seems to always return true, at least
// on Windows, since wake() uses a null event.
eventQueued = display.sleep();
// Ensure event queue is empty, otherwise sleep() will just return.
while(display.readAndDispatch()) {}
thread = new Thread() {
@Override
public void run() {
try {
// Delay to ensure the UI thread has been put to sleep.
sleep(3000);
} catch (InterruptedException ex) {
}
// Cause OS to generate an event to revive from sleep().
display.syncExec(new Runnable() {
public void run() {
Shell s = new Shell(display);
s.open();
s.dispose();
}
});
}
};
thread.start();
eventQueued = display.sleep();
assertTrue(eventQueued);
} finally {
display.dispose();
}
}
@Test
public void test_syncExecLjava_lang_Runnable() {
final Display display = new Display();
try {
display.syncExec(new Runnable() {
public void run() {
display.beep();
}
});
} finally {
display.dispose();
}
}
@Test
public void test_syncExecLjava_lang_Runnable_dispose() {
final Display display = new Display();
try {
display.syncExec(new Runnable() {
public void run() {
display.dispose();
}
});
} finally {
assertTrue(display.isDisposed());
}
}
@Test
public void test_timerExecILjava_lang_Runnable() {
final Display display = new Display();
try {
final boolean[] timerExecRan = new boolean[] {false};
final boolean[] threadRan = new boolean[] {false};
try {
display.timerExec(0, null);
fail("No exception thrown for timerExec with null runnable");
} catch (IllegalArgumentException e) {
assertSWTProblem("Incorrect exception thrown for timerExec with null runnable", SWT.ERROR_NULL_ARGUMENT, e);
}
display.timerExec(-100, new Runnable() {
public void run() {
timerExecRan[0] = true;
}
});
final int delay = 3000;
final long startTime = System.currentTimeMillis();
display.timerExec(delay, new Runnable() {
public void run() {
long endTime = System.currentTimeMillis();
// debug intermittent test failure
if (endTime < (startTime + delay)) {
System.out.println("Display.timerExec ran early " + ((startTime + delay) - endTime));
}
//assertTrue("Timer ran early! ms early: ", endTime >= (startTime + delay));
threadRan[0] = true;
}
});
while (!threadRan[0]) {
// The read and dispatch loop must be running in order
// for the runnable in the timer exec to be executed.
if (!display.readAndDispatch ()) display.sleep();
}
// Verify the timerExec with less than zero milliseconds didn't execute.
assertFalse("< 0 ms timer did execute", timerExecRan[0]);
} finally {
display.dispose();
}
}
@Test
public void test_update() {
Display display = new Display();
try {
display.update();
} finally {
display.dispose();
}
}
@Test
public void test_wake() {
// tested in sleep() method
}
/* custom */
boolean disposeExecRan;
@Test
public void test_getDPI() {
Display display = new Display();
try {
Point p = display.getDPI();
assertTrue("horizontal DPI not greater than zero", p.x > 0);
assertTrue("vertical DPI not greater than zero", p.y > 0);
} finally {
display.dispose();
}
}
@Test
public void test_getDepth() {
Display display = new Display();
try {
int d = display.getDepth();
assertTrue("depth not greater than zero", d > 0);
} finally {
display.dispose();
}
}
@Test
public void test_getFontListLjava_lang_StringZ() {
Display display = new Display();
try {
FontData[] scalable = display.getFontList(null, true);
FontData[] non_scalable = display.getFontList(null, false);
assertTrue("no fonts detected", (scalable.length + non_scalable.length) > 0);
} finally {
display.dispose();
}
}
@Test
public void test_getWarnings() {
Display display = new Display();
try {
display.getWarnings();
// Since the behavior is platform specific, there's
// no good test for the result value.
} finally {
display.dispose();
}
}
@Test
public void test_isDisposed() {
Display disp = new Display();
assertFalse(disp.isDisposed());
disp.dispose();
assertTrue(disp.isDisposed());
}
@Test
public void test_setWarningsZ() {
Display display = new Display();
try {
display.setWarnings(true);
display.setWarnings(false);
// Since the behavior is platform specific, there's
// no good test for invoking this method.
// Note that on Windows, the implementation is a no-op.
} finally {
display.dispose();
}
}
}