/*******************************************************************************
* Copyright (c) 2000, 2017 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
*
*******************************************************************************/
package org.eclipse.dltk.debug.ui;
import org.eclipse.jface.resource.CompositeImageDescriptor;
import org.eclipse.jface.resource.ImageDescriptor;
import org.eclipse.swt.graphics.ImageData;
import org.eclipse.swt.graphics.Point;
public class DebugImageDescriptor extends CompositeImageDescriptor {
/** Flag to render the is out of synch adornment */
public final static int IS_OUT_OF_SYNCH = 0x0001;
/** Flag to render the may be out of synch adornment */
public final static int MAY_BE_OUT_OF_SYNCH = 0x0002;
/** Flag to render the installed breakpoint adornment */
public final static int INSTALLED = 0x0004;
/** Flag to render the entry method breakpoint adornment */
public final static int ENTRY = 0x0008;
/** Flag to render the exit method breakpoint adornment */
public final static int EXIT = 0x0010;
/** Flag to render the enabled breakpoint adornment */
public final static int ENABLED = 0x0020;
/** Flag to render the conditional breakpoint adornment */
public final static int CONDITIONAL = 0x0040;
/** Flag to render the caught breakpoint adornment */
public final static int CAUGHT = 0x0080;
/** Flag to render the uncaught breakpoint adornment */
public final static int UNCAUGHT = 0x0100;
/** Flag to render the scoped breakpoint adornment */
public final static int SCOPED = 0x0200;
/** Flag to render the owning a monitor thread adornment */
public final static int OWNS_MONITOR = 0x0400;
/** Flag to render the owned monitor adornment */
public final static int OWNED_MONITOR = 0x0800;
/** Flag to render the in contention monitor adornment */
public final static int CONTENTED_MONITOR = 0x1000;
/** Flag to render the in contention for monitor thread adornment */
public final static int IN_CONTENTION_FOR_MONITOR = 0x2000;
/** Flag to render the in deadlock adornment */
public final static int IN_DEADLOCK = 0x8000;
/** Flag to render the synchronized stack frame adornment */
public final static int SYNCHRONIZED = 0x4000;
private ImageDescriptor fBaseImage;
private int fFlags;
private Point fSize;
/**
* Create a new JDIImageDescriptor.
*
* @param baseImage
* an image descriptor used as the base image
* @param flags
* flags indicating which adornments are to be rendered
*
*/
public DebugImageDescriptor(ImageDescriptor baseImage, int flags) {
setBaseImage(baseImage);
setFlags(flags);
}
@Override
protected Point getSize() {
if (fSize == null) {
ImageData data = getBaseImage().getImageData();
setSize(new Point(data.width, data.height));
}
return fSize;
}
@Override
public boolean equals(Object object) {
if (!(object instanceof DebugImageDescriptor)) {
return false;
}
DebugImageDescriptor other = (DebugImageDescriptor) object;
return (getBaseImage().equals(other.getBaseImage())
&& getFlags() == other.getFlags());
}
@Override
public int hashCode() {
return getBaseImage().hashCode() | getFlags();
}
@Override
protected void drawCompositeImage(int width, int height) {
ImageData bg = getBaseImage().getImageData();
if (bg == null) {
bg = DEFAULT_IMAGE_DATA;
}
drawImage(bg, 0, 0);
drawOverlays();
}
private ImageData getImageData(String imageDescriptorKey) {
return ScriptDebugImages.getImageDescriptor(imageDescriptorKey)
.getImageData();
}
/**
* Add any overlays to the image as specified in the flags.
*/
protected void drawOverlays() {
int flags = getFlags();
int x = 0;
int y = 0;
ImageData data = null;
if ((flags & IS_OUT_OF_SYNCH) != 0) {
x = getSize().x;
y = 0;
data = getImageData(ScriptDebugImages.IMG_OVR_OUT_OF_SYNCH);
x -= data.width;
drawImage(data, x, y);
} else if ((flags & MAY_BE_OUT_OF_SYNCH) != 0) {
x = getSize().x;
y = 0;
data = getImageData(ScriptDebugImages.IMG_OVR_MAY_BE_OUT_OF_SYNCH);
x -= data.width;
drawImage(data, x, y);
} else if ((flags & SYNCHRONIZED) != 0) {
x = getSize().x;
y = 0;
data = getImageData(ScriptDebugImages.IMG_OVR_SYNCHRONIZED);
x -= data.width;
drawImage(data, x, y);
} else {
if ((flags & IN_DEADLOCK) != 0) {
x = 0;
y = 0;
data = getImageData(ScriptDebugImages.IMG_OVR_IN_DEADLOCK);
drawImage(data, x, y);
}
if ((flags & OWNED_MONITOR) != 0) {
x = getSize().x;
y = getSize().y;
data = getImageData(ScriptDebugImages.IMG_OVR_OWNED);
x -= data.width;
y -= data.height;
drawImage(data, x, y);
} else if ((flags & CONTENTED_MONITOR) != 0) {
x = getSize().x;
y = getSize().y;
data = getImageData(ScriptDebugImages.IMG_OVR_IN_CONTENTION);
x -= data.width;
y -= data.height;
drawImage(data, x, y);
} else if ((flags & OWNS_MONITOR) != 0) {
x = getSize().x;
y = 0;
data = getImageData(ScriptDebugImages.IMG_OVR_OWNS_MONITOR);
x -= data.width;
drawImage(data, x, y);
} else if ((flags & IN_CONTENTION_FOR_MONITOR) != 0) {
x = getSize().x;
y = 0;
data = getImageData(
ScriptDebugImages.IMG_OVR_IN_CONTENTION_FOR_MONITOR);
x -= data.width;
drawImage(data, x, y);
} else {
drawBreakpointOverlays();
}
}
}
protected void drawBreakpointOverlays() {
int flags = getFlags();
int x = 0;
int y = 0;
ImageData data = null;
if ((flags & INSTALLED) != 0) {
x = 0;
y = getSize().y;
if ((flags & ENABLED) != 0) {
data = getImageData(
ScriptDebugImages.IMG_OVR_BREAKPOINT_INSTALLED);
} else {
data = getImageData(
ScriptDebugImages.IMG_OVR_BREAKPOINT_INSTALLED_DISABLED);
}
y -= data.height;
drawImage(data, x, y);
}
if ((flags & CAUGHT) != 0) {
if ((flags & ENABLED) != 0) {
data = getImageData(
ScriptDebugImages.IMG_OVR_CAUGHT_BREAKPOINT);
} else {
data = getImageData(
ScriptDebugImages.IMG_OVR_CAUGHT_BREAKPOINT_DISABLED);
}
x = 0;
y = 0;
drawImage(data, x, y);
}
if ((flags & UNCAUGHT) != 0) {
if ((flags & ENABLED) != 0) {
data = getImageData(
ScriptDebugImages.IMG_OVR_UNCAUGHT_BREAKPOINT);
} else {
data = getImageData(
ScriptDebugImages.IMG_OVR_UNCAUGHT_BREAKPOINT_DISABLED);
}
x = data.width;
y = data.height;
drawImage(data, x, y);
}
if ((flags & SCOPED) != 0) {
if ((flags & ENABLED) != 0) {
data = getImageData(
ScriptDebugImages.IMG_OVR_SCOPED_BREAKPOINT);
} else {
data = getImageData(
ScriptDebugImages.IMG_OVR_SCOPED_BREAKPOINT_DISABLED);
}
x = 0;
y = getSize().y;
y -= data.height;
drawImage(data, x, y);
}
if ((flags & CONDITIONAL) != 0) {
if ((flags & ENABLED) != 0) {
data = getImageData(
ScriptDebugImages.IMG_OVR_CONDITIONAL_BREAKPOINT);
} else {
data = getImageData(
ScriptDebugImages.IMG_OVR_CONDITIONAL_BREAKPOINT_DISABLED);
}
x = 0;
y = 0;
drawImage(data, x, y);
}
if ((flags & ENTRY) != 0) {
x = getSize().x;
y = 0;
if ((flags & ENABLED) != 0) {
data = getImageData(
ScriptDebugImages.IMG_OVR_METHOD_BREAKPOINT_ENTRY);
} else {
data = getImageData(
ScriptDebugImages.IMG_OVR_METHOD_BREAKPOINT_ENTRY_DISABLED);
}
x -= data.width;
drawImage(data, x, y);
}
if ((flags & EXIT) != 0) {
x = getSize().x;
y = getSize().y;
if ((flags & ENABLED) != 0) {
data = getImageData(
ScriptDebugImages.IMG_OVR_METHOD_BREAKPOINT_EXIT);
} else {
data = getImageData(
ScriptDebugImages.IMG_OVR_METHOD_BREAKPOINT_EXIT_DISABLED);
}
x -= data.width;
y -= data.height;
drawImage(data, x, y);
}
}
protected ImageDescriptor getBaseImage() {
return fBaseImage;
}
protected void setBaseImage(ImageDescriptor baseImage) {
fBaseImage = baseImage;
}
protected int getFlags() {
return fFlags;
}
protected void setFlags(int flags) {
fFlags = flags;
}
protected void setSize(Point size) {
fSize = size;
}
}