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/*
* gleem -- OpenGL Extremely Easy-To-Use Manipulators.
* Copyright (C) 1998-2003 Kenneth B. Russell (kbrussel@alum.mit.edu)
*
* Copying, distribution and use of this software in source and binary
* forms, with or without modification, is permitted provided that the
* following conditions are met:
*
* Distributions of source code must reproduce the copyright notice,
* this list of conditions and the following disclaimer in the source
* code header files; and Distributions of binary code must reproduce
* the copyright notice, this list of conditions and the following
* disclaimer in the documentation, Read me file, license file and/or
* other materials provided with the software distribution.
*
* The names of Sun Microsystems, Inc. ("Sun") and/or the copyright
* holder may not be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED "AS IS," WITHOUT A WARRANTY OF ANY
* KIND. ALL EXPRESS OR IMPLIED CONDITIONS, REPRESENTATIONS AND
* WARRANTIES, INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE, NON-INTERFERENCE, ACCURACY OF
* INFORMATIONAL CONTENT OR NON-INFRINGEMENT, ARE HEREBY EXCLUDED. THE
* COPYRIGHT HOLDER, SUN AND SUN'S LICENSORS SHALL NOT BE LIABLE FOR
* ANY DAMAGES SUFFERED BY LICENSEE AS A RESULT OF USING, MODIFYING OR
* DISTRIBUTING THIS SOFTWARE OR ITS DERIVATIVES. IN NO EVENT WILL THE
* COPYRIGHT HOLDER, SUN OR SUN'S LICENSORS BE LIABLE FOR ANY LOST
* REVENUE, PROFIT OR DATA, OR FOR DIRECT, INDIRECT, SPECIAL,
* CONSEQUENTIAL, INCIDENTAL OR PUNITIVE DAMAGES, HOWEVER CAUSED AND
* REGARDLESS OF THE THEORY OF LIABILITY, ARISING OUT OF THE USE OF OR
* INABILITY TO USE THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY
* OF SUCH DAMAGES. YOU ACKNOWLEDGE THAT THIS SOFTWARE IS NOT
* DESIGNED, LICENSED OR INTENDED FOR USE IN THE DESIGN, CONSTRUCTION,
* OPERATION OR MAINTENANCE OF ANY NUCLEAR FACILITY. THE COPYRIGHT
* HOLDER, SUN AND SUN'S LICENSORS DISCLAIM ANY EXPRESS OR IMPLIED
* WARRANTY OF FITNESS FOR SUCH USES.
*/
package gleem;
import java.awt.event.*;
import java.util.*;
import gleem.linalg.*;
import javax.media.opengl.*;
import com.sun.opengl.utils.*;
/** The ManipManager handles making manipulators visible in a
window. */
public class ManipManager {
// Screen-to-ray mapping
private ScreenToRayMapping mapping;
private static ManipManager soleInstance;
// Maps GLDrawables to WindowInfos
private Map windowToInfoMap = new HashMap();
// Maps Manips to Set<GLAutoDrawable>
private Map manipToWindowMap = new HashMap();
// MouseAdapter for this
private MouseAdapter mouseListener = new MouseAdapter() {
public void mousePressed(MouseEvent e) {
ManipManager.this.mousePressed(e);
}
public void mouseReleased(MouseEvent e) {
ManipManager.this.mouseReleased(e);
}
};
private MouseMotionAdapter mouseMotionListener = new MouseMotionAdapter() {
public void mouseDragged(MouseEvent e) {
ManipManager.this.mouseDragged(e);
}
public void mouseMoved(MouseEvent e) {
ManipManager.this.mouseMoved(e);
}
};
private WindowUpdateListener defaultWindowListener = new WindowUpdateListener() {
public void update(GLAutoDrawable window) {
window.repaint();
}
};
private WindowUpdateListener windowListener;
class WindowInfo {
/** Set<Manip> */
Set manips = new HashSet();
CameraParameters params = new CameraParameters();
Manip curHighlightedManip;
ManipPart curHighlightedManipPart;
// Current manip
Manip curManip;
// Dragging?
boolean dragging;
}
/** This class is a singleton. Get the sole instance of the
ManipManager. */
public static synchronized ManipManager getManipManager() {
if (soleInstance == null) {
soleInstance = new ManipManager();
}
return soleInstance;
}
/** Make the ManipManager aware of the existence of a given
window. This causes mouse and mouse motion listeners to be
installed on this window; see setupMouseListeners, below. */
public synchronized void registerWindow(GLAutoDrawable window) {
windowToInfoMap.put(window, new WindowInfo());
setupMouseListeners(window);
}
/** Remove all references to a given window, including removing all
manipulators from it. */
public synchronized void unregisterWindow(GLAutoDrawable window) {
WindowInfo info = (WindowInfo) windowToInfoMap.get(window);
for (Iterator iter = info.manips.iterator(); iter.hasNext(); ) {
removeManipFromWindow((Manip) iter.next(), window);
}
windowToInfoMap.remove(window);
removeMouseListeners(window);
}
/** Make a given manipulator visible and active in a given
window. The window must be registered. */
public synchronized void showManipInWindow(Manip manip, GLAutoDrawable window) {
WindowInfo info = (WindowInfo) windowToInfoMap.get(window);
if (info == null) {
throw new RuntimeException("Window not registered");
}
info.manips.add(manip);
Set windows = (Set) manipToWindowMap.get(manip);
if (windows == null) {
windows = new HashSet();
manipToWindowMap.put(manip, windows);
}
windows.add(window);
}
/** Remove a given manipulator from a given window. The window must
be registered. */
public synchronized void removeManipFromWindow(Manip manip, GLAutoDrawable window) {
WindowInfo info = (WindowInfo) windowToInfoMap.get(window);
if (info == null) {
throw new RuntimeException("Window not registered");
}
if (!info.manips.remove(manip)) {
throw new RuntimeException("Manip not registered in window");
}
Set windows = (Set) manipToWindowMap.get(manip);
assert windows != null;
windows.remove(window);
}
/** This must be called for a registered window every time the
camera parameters of the window change. */
public synchronized void updateCameraParameters(GLAutoDrawable window, CameraParameters params) {
WindowInfo info = (WindowInfo) windowToInfoMap.get(window);
if (info == null) {
throw new RuntimeException("Window not registered");
}
info.params.set(params);
}
/** Allows changing of the screen-to-ray mapping. Default is a
RightTruncPyrMapping. */
public synchronized void setScreenToRayMapping(ScreenToRayMapping mapping) {
this.mapping = mapping;
}
/** Returns the current screen-to-ray mapping. */
public synchronized ScreenToRayMapping getScreenToRayMapping() {
return mapping;
}
/** Sets the WindowUpdateListener the ManipManager uses to force
repainting of windows in which manipulators have moved. The
default implementation, which can be restored by passing a null
listener argument to this method, calls repaint() on the
GLAutoDrawable if it is not a GLRunnable instance (i.e., a
GLAnimCanvas or GLAnimJPanel, which redraw themselves
automatically). */
public synchronized void setWindowUpdateListener(WindowUpdateListener listener) {
if (listener != null) {
windowListener = listener;
} else {
windowListener = defaultWindowListener;
}
}
/** Cause the manipulators for a given window to be drawn. The
drawing occurs immediately; this routine must be called when an
OpenGL context is valid, i.e., from within the display() method
of a GLEventListener. */
public synchronized void render(GLAutoDrawable window, GL gl) {
WindowInfo info = (WindowInfo) windowToInfoMap.get(window);
if (info == null) {
throw new RuntimeException("Window not registered");
}
for (Iterator iter = info.manips.iterator(); iter.hasNext(); ) {
((Manip) iter.next()).render(gl);
}
}
/** Sets up a MouseListener and MouseMotionListener for the given
window. Since an application-level MouseListener or
MouseMotionListener might want to intercept events and not pass
them on to the ManipManager without relying on the ordering of
listeners for the canvas (see the ExaminerViewer class), the
setupMouseListeners and removeMouseListeners routines, as well
as the appropriate delegate routines, are made public here. */
public synchronized void setupMouseListeners(GLAutoDrawable window) {
window.addMouseMotionListener(mouseMotionListener);
window.addMouseListener(mouseListener);
}
/** Removes the automatically-installed mouse listeners for the
given window. This allows application code to determine the
policy for intercepting mouse events. */
public synchronized void removeMouseListeners(GLAutoDrawable window) {
window.removeMouseMotionListener(mouseMotionListener);
window.removeMouseListener(mouseListener);
}
/** The ManipManager watches for the following events: mouseMoved,
mouseDragged, mousePressed, and mouseReleased. These routines
are exposed so application-level code can intercept events when
certain modifier keys are depressed. */
public synchronized void mouseMoved(MouseEvent e) {
passiveMotionMethod((GLAutoDrawable) e.getComponent(), e.getX(), e.getY());
}
/** The ManipManager watches for the following events: mouseMoved,
mouseDragged, mousePressed, and mouseReleased. These routines
are exposed so application-level code can intercept events when
certain modifier keys are depressed. */
public synchronized void mouseDragged(MouseEvent e) {
motionMethod((GLAutoDrawable) e.getComponent(), e.getX(), e.getY());
}
/** The ManipManager watches for the following events: mouseMoved,
mouseDragged, mousePressed, and mouseReleased. These routines
are exposed so application-level code can intercept events when
certain modifier keys are depressed. */
public synchronized void mousePressed(MouseEvent e) {
mouseMethod((GLAutoDrawable) e.getComponent(), e.getModifiers(),
true, e.getX(), e.getY());
}
/** The ManipManager watches for the following events: mouseMoved,
mouseDragged, mousePressed, and mouseReleased. These routines
are exposed so application-level code can intercept events when
certain modifier keys are depressed. */
public synchronized void mouseReleased(MouseEvent e) {
mouseMethod((GLAutoDrawable) e.getComponent(), e.getModifiers(),
false, e.getX(), e.getY());
}
//----------------------------------------------------------------------
// Internals only below this point
//
private ManipManager() {
mapping = new RightTruncPyrMapping();
setWindowUpdateListener(null);
}
private void motionMethod(GLAutoDrawable window, int x, int y) {
WindowInfo info = (WindowInfo) windowToInfoMap.get(window);
if (info.dragging) {
// Compute ray in 3D
Vec3f rayStart = new Vec3f();
Vec3f rayDirection = new Vec3f();
computeRay(info.params, x, y, rayStart, rayDirection);
info.curManip.drag(rayStart, rayDirection);
fireUpdate(info.curManip);
}
}
private void passiveMotionMethod(GLAutoDrawable window, int x, int y) {
WindowInfo info = (WindowInfo) windowToInfoMap.get(window);
// Compute ray in 3D
Vec3f rayStart = new Vec3f();
Vec3f rayDirection = new Vec3f();
computeRay(info.params, x, y, rayStart, rayDirection);
// Compute all hits
List hits = new ArrayList();
for (Iterator iter = info.manips.iterator(); iter.hasNext(); ) {
((Manip) iter.next()).intersectRay(rayStart, rayDirection, hits);
}
// Find closest one
HitPoint hp = null;
for (Iterator iter = hits.iterator(); iter.hasNext(); ) {
HitPoint cur = (HitPoint) iter.next();
if ((hp == null) || (cur.intPt.getT() < hp.intPt.getT())) {
hp = cur;
}
}
if (info.curHighlightedManip != null &&
(hp == null ||
hp.manipulator != info.curHighlightedManip ||
hp.manipPart != info.curHighlightedManipPart)) {
info.curHighlightedManip.clearHighlight();
fireUpdate(info.curHighlightedManip);
}
if (hp != null) {
if (hp.manipulator != info.curHighlightedManip ||
hp.manipPart != info.curHighlightedManipPart) {
// Highlight manip
info.curHighlightedManip = hp.manipulator;
info.curHighlightedManipPart = hp.manipPart;
info.curHighlightedManip.highlight(hp);
fireUpdate(info.curHighlightedManip);
}
} else {
info.curHighlightedManip = null;
}
}
private void mouseMethod(GLAutoDrawable window, int modifiers,
boolean isPress, int x, int y) {
if ((modifiers & InputEvent.BUTTON1_MASK) != 0) {
WindowInfo info = (WindowInfo) windowToInfoMap.get(window);
if (isPress) {
// Compute ray in 3D
Vec3f rayStart = new Vec3f();
Vec3f rayDirection = new Vec3f();
computeRay(info.params, x, y, rayStart, rayDirection);
// Compute all hits
List hits = new ArrayList();
for (Iterator iter = info.manips.iterator(); iter.hasNext(); ) {
((Manip) iter.next()).intersectRay(rayStart, rayDirection, hits);
}
// Find closest one
HitPoint hp = null;
for (Iterator iter = hits.iterator(); iter.hasNext(); ) {
HitPoint cur = (HitPoint) iter.next();
if ((hp == null) || (cur.intPt.getT() < hp.intPt.getT())) {
hp = cur;
}
}
if (hp != null) {
if (info.curHighlightedManip != null) {
info.curHighlightedManip.clearHighlight();
fireUpdate(info.curHighlightedManip);
info.curHighlightedManip = null;
}
if ((modifiers & InputEvent.SHIFT_MASK) != 0) {
hp.shiftDown = true;
}
hp.manipulator.makeActive(hp);
info.curManip = hp.manipulator;
info.dragging = true;
fireUpdate(info.curManip);
}
} else {
if (info.curManip != null) {
info.curManip.makeInactive();
info.dragging = false;
fireUpdate(info.curManip);
info.curManip = null;
// Check to see where mouse is
passiveMotionMethod(window, x, y);
}
}
}
}
private Vec2f screenToNormalizedCoordinates(CameraParameters params,
int x, int y) {
// AWT's origin is upper left
return new Vec2f(
(((float) x / (float) (params.xSize - 1)) - 0.5f) * 2.0f,
(0.5f - ((float) y / (float) (params.ySize - 1))) * 2.0f
);
}
private void computeRay(CameraParameters params, int x, int y,
Vec3f raySource, Vec3f rayDirection) {
if (mapping == null) {
throw new RuntimeException("Screen to ray mapping was unspecified");
}
mapping.mapScreenToRay(screenToNormalizedCoordinates(params, x, y),
params,
raySource,
rayDirection);
}
private void fireUpdate(Manip manip) {
Set windows = (Set) manipToWindowMap.get(manip);
assert windows != null;
for (Iterator iter = windows.iterator(); iter.hasNext(); ) {
windowListener.update((GLAutoDrawable) iter.next());
}
}
}
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