Type safety and widening.

git-svn-id: svn+ssh://src.earth.threerings.net/nenya/trunk@246 ed5b42cb-e716-0410-a449-f6a68f950b19
This commit is contained in:
Michael Bayne
2007-05-15 16:59:58 +00:00
parent c755fd626a
commit 9a30debf42
3 changed files with 134 additions and 145 deletions
@@ -66,25 +66,22 @@ public abstract class AbstractMediaManager
}
/**
* Must be called every frame so that the media can be properly
* updated.
* Must be called every frame so that the media can be properly updated.
*/
public void tick (long tickStamp)
{
_tickStamp = tickStamp;
tickAllMedia(tickStamp);
dispatchNotifications();
// we clear our tick stamp when we're about to be painted, this
// lets us handle situations when yet more media is slipped in
// between our being ticked and our being painted
// we clear our tick stamp when we're about to be painted, this lets us handle situations
// when yet more media is slipped in between our being ticked and our being painted
}
/**
* This will always be called prior to the {@link #paint} calls for a
* particular tick. Because it is possible that there will be no dirty
* regions and thus no calls to {@link #paint} this method exists so
* that the media manager can guarantee that it will be notified when
* all ticking is complete and the painting phase has begun.
* This will always be called prior to the {@link #paint} calls for a particular tick. Because
* it is possible that there will be no dirty regions and thus no calls to {@link #paint} this
* method exists so that the media manager can guarantee that it will be notified when all
* ticking is complete and the painting phase has begun.
*/
public void willPaint ()
{
@@ -93,41 +90,36 @@ public abstract class AbstractMediaManager
}
/**
* Renders all registered media in the given layer that intersect
* the supplied clipping rectangle to the given graphics context.
* Renders all registered media in the given layer that intersect the supplied clipping
* rectangle to the given graphics context.
*
* @param layer the layer to render; one of {@link #FRONT}, {@link
* #BACK}, or {@link #ALL}. The front layer contains all animations
* with a positive render order; the back layer contains all
* animations with a negative render order; all, both.
* @param layer the layer to render; one of {@link #FRONT}, {@link #BACK}, or {@link #ALL}.
* The front layer contains all animations with a positive render order; the back layer
* contains all animations with a negative render order; all, both.
*/
public void paint (Graphics2D gfx, int layer, Shape clip)
{
for (int ii = 0, nn = _media.size(); ii < nn; ii++) {
AbstractMedia media = (AbstractMedia)_media.get(ii);
AbstractMedia media = _media.get(ii);
int order = media.getRenderOrder();
try {
if (((layer == ALL) ||
(layer == FRONT && order >= 0) ||
(layer == BACK && order < 0)) &&
clip.intersects(media.getBounds())) {
if (((layer == ALL) || (layer == FRONT && order >= 0) ||
(layer == BACK && order < 0)) && clip.intersects(media.getBounds())) {
media.paint(gfx);
}
} catch (Exception e) {
Log.warning("Failed to render media " +
"[media=" + media + ", e=" + e + "].");
Log.warning("Failed to render media [media=" + media + ", e=" + e + "].");
Log.logStackTrace(e);
}
}
}
/**
* If the manager is paused for some length of time, it should
* be fast forwarded by the appropriate number of milliseconds. This
* allows media to smoothly pick up where they left off rather than
* abruptly jumping into the future, thinking that some outrageous
* amount of time passed since their last tick.
* If the manager is paused for some length of time, it should be fast forwarded by the
* appropriate number of milliseconds. This allows media to smoothly pick up where they left
* off rather than abruptly jumping into the future, thinking that some outrageous amount of
* time passed since their last tick.
*/
public void fastForward (long timeDelta)
{
@@ -136,14 +128,13 @@ public abstract class AbstractMediaManager
Thread.dumpStack();
}
for (int ii=0, nn=_media.size(); ii < nn; ii++) {
((AbstractMedia) _media.get(ii)).fastForward(timeDelta);
for (int ii = 0, nn = _media.size(); ii < nn; ii++) {
_media.get(ii).fastForward(timeDelta);
}
}
/**
* Returns true if the specified media is being managed by this media
* manager.
* Returns true if the specified media is being managed by this media manager.
*/
public boolean isManaged (AbstractMedia media)
{
@@ -151,8 +142,7 @@ public abstract class AbstractMediaManager
}
/**
* Called by a {@link VirtualMediaPanel} when the view that contains our
* media is scrolled.
* Called by a {@link VirtualMediaPanel} when the view that contains our media is scrolled.
*
* @param dx the scrolled distance in the x direction (in pixels).
* @param dy the scrolled distance in the y direction (in pixels).
@@ -161,7 +151,7 @@ public abstract class AbstractMediaManager
{
// let our media know
for (int ii = 0, ll = _media.size(); ii < ll; ii++) {
((AbstractMedia)_media.get(ii)).viewLocationDidChange(dx, dy);
_media.get(ii).viewLocationDidChange(dx, dy);
}
}
@@ -180,29 +170,26 @@ public abstract class AbstractMediaManager
}
/**
* Calls {@link AbstractMedia#tick} on all media to give them a chance
* to move about, change their look, generate dirty regions, and so
* forth.
* Calls {@link AbstractMedia#tick} on all media to give them a chance to move about, change
* their look, generate dirty regions, and so forth.
*/
protected void tickAllMedia (long tickStamp)
{
// we use _tickpos so that it can be adjusted if media is added or
// removed during the tick dispatch
// we use _tickpos so that it can be adjusted if media is added or removed during the tick
// dispatch
for (_tickpos = 0; _tickpos < _media.size(); _tickpos++) {
tickMedia((AbstractMedia) _media.get(_tickpos), tickStamp);
tickMedia(_media.get(_tickpos), tickStamp);
}
_tickpos = -1;
}
/**
* Inserts the specified media into this manager, return true on
* success.
* Inserts the specified media into this manager, return true on success.
*/
protected boolean insertMedia (AbstractMedia media)
{
if (_media.contains(media)) {
Log.warning("Attempt to insert media more than once " +
"[media=" + media + "].");
Log.warning("Attempt to insert media more than once [media=" + media + "].");
Thread.dumpStack();
return false;
}
@@ -210,20 +197,17 @@ public abstract class AbstractMediaManager
media.init(this);
int ipos = _media.insertSorted(media, RENDER_ORDER);
// if we've started our tick but have not yet painted our media,
// we need to take care that this newly added media will be ticked
// before our upcoming render
// if we've started our tick but have not yet painted our media, we need to take care that
// this newly added media will be ticked before our upcoming render
if (_tickStamp > 0L) {
if (_tickpos == -1) {
// if we're done with our own call to tick(), we
// definitely need to tick this new media
// if we're done with our own call to tick(), we need to tick this new media
tickMedia(media, _tickStamp);
} else if (ipos <= _tickpos) {
// otherwise, we're in the middle of our call to tick()
// and we only need to tick this guy if he's being
// inserted before our current tick position (if he's
// inserted after our current position, we'll get to him
// as part of this tick iteration)
// otherwise, we're in the middle of our call to tick() and we only need to tick
// this guy if he's being inserted before our current tick position (if he's
// inserted after our current position, we'll get to him as part of this tick
// iteration)
_tickpos++;
tickMedia(media, _tickStamp);
}
@@ -242,8 +226,7 @@ public abstract class AbstractMediaManager
}
/**
* Removes the specified media from this manager, return true on
* success.
* Removes the specified media from this manager, return true on success.
*/
protected boolean removeMedia (AbstractMedia media)
{
@@ -252,22 +235,19 @@ public abstract class AbstractMediaManager
_media.remove(mpos);
media.invalidate();
media.shutdown();
// if we're in the middle of ticking, we need to adjust the
// _tickpos if necessary
// if we're in the middle of ticking, we need to adjust the _tickpos if necessary
if (mpos <= _tickpos) {
_tickpos--;
}
return true;
}
Log.warning("Attempt to remove media that wasn't inserted " +
"[media=" + media + "].");
Log.warning("Attempt to remove media that wasn't inserted [media=" + media + "].");
return false;
}
/**
* Clears all media from the manager and calls {@link
* AbstractMedia#shutdown} on each. This does not invalidate the
* media's vacated bounds; it is assumed that it will be ok.
* Clears all media from the manager and calls {@link AbstractMedia#shutdown} on each. This
* does not invalidate the media's vacated bounds; it is assumed that it will be ok.
*/
protected void clearMedia ()
{
@@ -276,29 +256,30 @@ public abstract class AbstractMediaManager
Thread.dumpStack();
}
for (int ii=_media.size() - 1; ii >= 0; ii--) {
AbstractMedia media = (AbstractMedia) _media.remove(ii);
media.shutdown();
for (int ii = _media.size() - 1; ii >= 0; ii--) {
_media.remove(ii).shutdown();
}
}
/**
* Queues the notification for dispatching after we've ticked all the
* media.
* Queues the notification for dispatching after we've ticked all the media.
*/
public void queueNotification (ObserverList observers, ObserverOp event)
{
_notify.add(new Tuple(observers, event));
_notify.add(new Tuple<ObserverList,ObserverOp>(observers, event));
}
/** Type safety jockeying. */
protected abstract SortableArrayList<? extends AbstractMedia> createMediaList ();
/**
* Dispatches all queued media notifications.
*/
protected void dispatchNotifications ()
{
for (int ii = 0, nn = _notify.size(); ii < nn; ii++) {
Tuple tuple = (Tuple)_notify.get(ii);
((ObserverList)tuple.left).apply((ObserverOp)tuple.right);
Tuple<ObserverList,ObserverOp> tuple = _notify.get(ii);
tuple.left.apply(tuple.right);
}
_notify.clear();
}
@@ -310,28 +291,26 @@ public abstract class AbstractMediaManager
protected RegionManager _remgr;
/** List of observers to notify at the end of the tick. */
protected ArrayList _notify = new ArrayList();
protected ArrayList<Tuple<ObserverList,ObserverOp>> _notify =
new ArrayList<Tuple<ObserverList,ObserverOp>>();
/** Our render-order sorted list of media. */
protected SortableArrayList _media = new SortableArrayList();
protected SortableArrayList<AbstractMedia> _media;
/** The position in our media list that we're ticking in the middle of
* a call to {@link #tick} otherwise -1. */
/** The position in our media list that we're ticking (while in the middle of a call to {@link
* #tick}) otherwise -1. */
protected int _tickpos = -1;
/** The tick stamp if the manager is in the midst of a call to {@link
* #tick}, else <code>0</code>. */
/** The tick stamp if the manager is in the midst of a call to {@link #tick}, else 0. */
protected long _tickStamp;
/** Used to sort media by render order. */
protected static final Comparator RENDER_ORDER = new Comparator() {
public int compare (Object o1, Object o2) {
int result = (((AbstractMedia)o1)._renderOrder -
((AbstractMedia)o2)._renderOrder);
return (result != 0) ? result :
// find some other way to keep them stable relative to
// each other
o1.hashCode() - o2.hashCode();
protected static final Comparator<AbstractMedia> RENDER_ORDER =
new Comparator<AbstractMedia>() {
public int compare (AbstractMedia am1, AbstractMedia am2) {
int result = am1._renderOrder - am2._renderOrder;
// if render order is same, use hashcode to keep them stable relative to each other
return (result != 0) ? result : am1.hashCode() - am2.hashCode();
}
};
}
@@ -21,19 +21,20 @@
package com.threerings.media.animation;
import com.samskivert.util.SortableArrayList;
import com.threerings.media.AbstractMedia;
import com.threerings.media.AbstractMediaManager;
import com.threerings.media.MediaHost;
/**
* Manages a collection of animations, ticking them when the animation
* manager itself is ticked and generating events when animations finish
* and suchlike.
* Manages a collection of animations, ticking them when the animation manager itself is ticked and
* generating events when animations finish and suchlike.
*/
public class AnimationManager extends AbstractMediaManager
{
/**
* Registers the given {@link Animation} with the animation manager
* for ticking and painting.
* Registers the given {@link Animation} with the animation manager for ticking and painting.
*/
public void registerAnimation (Animation anim)
{
@@ -41,23 +42,22 @@ public class AnimationManager extends AbstractMediaManager
}
/**
* Un-registers the given {@link Animation} from the animation
* manager. The bounds of the animation will automatically be
* invalidated so that they are properly rerendered in the absence of
* the animation.
* Un-registers the given {@link Animation} from the animation manager. The bounds of the
* animation will automatically be invalidated so that they are properly rerendered in the
* absence of the animation.
*/
public void unregisterAnimation (Animation anim)
{
removeMedia(anim);
}
// documentation inherited
@Override // from AbstractMediaManager
protected void tickAllMedia (long tickStamp)
{
super.tickAllMedia(tickStamp);
for (int ii = _media.size() - 1; ii >= 0; ii--) {
Animation anim = (Animation)_media.get(ii);
for (int ii = _anims.size() - 1; ii >= 0; ii--) {
Animation anim = _anims.get(ii);
if (!anim.isFinished()) {
continue;
}
@@ -69,4 +69,12 @@ public class AnimationManager extends AbstractMediaManager
// Log.info("Removed finished animation " + anim + ".");
}
}
@Override // from AbstractMediaManager
protected SortableArrayList<? extends AbstractMedia> createMediaList ()
{
return (_anims = new SortableArrayList<Animation>());
}
protected SortableArrayList<Animation> _anims;
}
@@ -29,7 +29,9 @@ import java.util.List;
import java.util.Iterator;
import com.samskivert.util.Predicate;
import com.samskivert.util.SortableArrayList;
import com.threerings.media.AbstractMedia;
import com.threerings.media.AbstractMediaManager;
import com.threerings.media.MediaHost;
@@ -39,21 +41,19 @@ import com.threerings.media.MediaHost;
public class SpriteManager extends AbstractMediaManager
{
/**
* When an animated view processes its dirty rectangles, it may
* require an expansion of the dirty region which may in turn
* require the invalidation of more sprites than were originally
* invalid. In such cases, the animated view can call back to the
* sprite manager, asking it to append the sprites that intersect
* a particular region to the given list.
* When an animated view processes its dirty rectangles, it may require an expansion of the
* dirty region which may in turn require the invalidation of more sprites than were originally
* invalid. In such cases, the animated view can call back to the sprite manager, asking it to
* append the sprites that intersect a particular region to the given list.
*
* @param list the list to fill with any intersecting sprites.
* @param shape the shape in which we have interest.
*/
public void getIntersectingSprites (List list, Shape shape)
public void getIntersectingSprites (List<Sprite> list, Shape shape)
{
int size = _media.size();
int size = _sprites.size();
for (int ii = 0; ii < size; ii++) {
Sprite sprite = (Sprite)_media.get(ii);
Sprite sprite = _sprites.get(ii);
if (sprite.intersects(shape)) {
list.add(sprite);
}
@@ -61,21 +61,20 @@ public class SpriteManager extends AbstractMediaManager
}
/**
* When an animated view is determining what entity in its view is
* under the mouse pointer, it may require a list of sprites that are
* "hit" by a particular pixel. The sprites' bounds are first checked
* and sprites with bounds that contain the supplied point are further
* checked for a non-transparent at the specified location.
* When an animated view is determining what entity in its view is under the mouse pointer, it
* may require a list of sprites that are "hit" by a particular pixel. The sprites' bounds are
* first checked and sprites with bounds that contain the supplied point are further checked
* for a non-transparent at the specified location.
*
* @param list the list to fill with any intersecting sprites, the
* sprites with the highest render order provided first.
* @param list the list to fill with any intersecting sprites, the sprites with the highest
* render order provided first.
* @param x the x (screen) coordinate to be checked.
* @param y the y (screen) coordinate to be checked.
*/
public void getHitSprites (List list, int x, int y)
public void getHitSprites (List<Sprite> list, int x, int y)
{
for (int ii = _media.size() - 1; ii >= 0; ii--) {
Sprite sprite = (Sprite)_media.get(ii);
for (int ii = _sprites.size() - 1; ii >= 0; ii--) {
Sprite sprite = _sprites.get(ii);
if (sprite.hitTest(x, y)) {
list.add(sprite);
}
@@ -83,8 +82,7 @@ public class SpriteManager extends AbstractMediaManager
}
/**
* Finds the sprite with the highest render order that hits the
* specified pixel.
* Finds the sprite with the highest render order that hits the specified pixel.
*
* @param x the x (screen) coordinate to be checked
* @param y the y (screen) coordinate to be checked
@@ -93,8 +91,8 @@ public class SpriteManager extends AbstractMediaManager
public Sprite getHighestHitSprite (int x, int y)
{
// since they're stored in lowest -> highest order..
for (int ii = _media.size() - 1; ii >= 0; ii--) {
Sprite sprite = (Sprite)_media.get(ii);
for (int ii = _sprites.size() - 1; ii >= 0; ii--) {
Sprite sprite = _sprites.get(ii);
if (sprite.hitTest(x, y)) {
return sprite;
}
@@ -116,27 +114,25 @@ public class SpriteManager extends AbstractMediaManager
}
/**
* Returns a list of all sprites registered with the sprite manager.
* The returned list is immutable, sprites should be added or removed
* using {@link #addSprite} or {@link #removeSprite}.
* Returns a list of all sprites registered with the sprite manager. The returned list is
* immutable, sprites should be added or removed using {@link #addSprite} or {@link
* #removeSprite}.
*/
public List getSprites ()
public List<Sprite> getSprites ()
{
return Collections.unmodifiableList(_media);
return Collections.unmodifiableList(_sprites);
}
/**
* Returns an iterator over our managed sprites. Do not call
* {@link Iterator#remove}.
* Returns an iterator over our managed sprites. Do not call {@link Iterator#remove}.
*/
public Iterator enumerateSprites ()
public Iterator<Sprite> enumerateSprites ()
{
return _media.iterator();
return _sprites.iterator();
}
/**
* Removes the specified sprite from the set of sprites managed by
* this manager.
* Removes the specified sprite from the set of sprites managed by this manager.
*
* @param sprite the sprite to remove.
*/
@@ -151,14 +147,14 @@ public class SpriteManager extends AbstractMediaManager
public void removeSprites (Predicate<Sprite> pred)
{
int idxoff = 0;
for (int ii = 0, ll = _media.size(); ii < ll; ii++) {
Sprite sprite = (Sprite)_media.get(ii-idxoff);
for (int ii = 0, ll = _sprites.size(); ii < ll; ii++) {
Sprite sprite = _sprites.get(ii-idxoff);
if (pred.isMatch(sprite)) {
_media.remove(sprite);
_sprites.remove(sprite);
sprite.invalidate();
sprite.shutdown();
// we need to preserve the original "index" relative to the
// current tick position, so we don't decrement ii directly
// we need to preserve the original "index" relative to the current tick position,
// so we don't decrement ii directly
idxoff++;
if (ii <= _tickpos) {
_tickpos--;
@@ -174,8 +170,8 @@ public class SpriteManager extends AbstractMediaManager
*/
public void renderSpritePaths (Graphics2D gfx)
{
for (int ii=0, nn=_media.size(); ii < nn; ii++) {
Sprite sprite = (Sprite)_media.get(ii);
for (int ii=0, nn=_sprites.size(); ii < nn; ii++) {
Sprite sprite = _sprites.get(ii);
sprite.paintPath(gfx);
}
}
@@ -192,7 +188,7 @@ public class SpriteManager extends AbstractMediaManager
// // gather a list of all sprite collisions
// int size = _sprites.size();
// for (int ii = 0; ii < size; ii++) {
// Sprite sprite = (Sprite)_sprites.get(ii);
// Sprite sprite = _sprites.get(ii);
// checkCollisions(ii, size, sprite);
// }
// }
@@ -224,7 +220,7 @@ public class SpriteManager extends AbstractMediaManager
// int edgeX = bounds.x + bounds.width;
//
// for (int ii = (idx + 1); ii < size; ii++) {
// Sprite other = (Sprite)_sprites.get(ii);
// Sprite other = _sprites.get(ii);
// Rectangle obounds = other.getBounds();
// if (obounds.x > edgeX) {
// // since sprites are stored in the list sorted by
@@ -243,13 +239,19 @@ public class SpriteManager extends AbstractMediaManager
// protected static final Comparator SPRITE_COMP = new SpriteComparator();
//
// /** Used to sort sprites. */
// protected static class SpriteComparator implements Comparator
// protected static class SpriteComparator<Sprite> implements Comparator
// {
// public int compare (Object o1, Object o2)
// public int compare (Sprite s1, Sprite s2)
// {
// Sprite s1 = (Sprite)o1;
// Sprite s2 = (Sprite)o2;
// return (s2.getX() - s1.getX());
// }
// }
@Override // from AbstractMediaManager
protected SortableArrayList<? extends AbstractMedia> createMediaList ()
{
return (_sprites = new SortableArrayList<Sprite>());
}
protected SortableArrayList<Sprite> _sprites;
}