| Commit message (Collapse) | Author | Age | Files | Lines |
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Conversion Utilities (Allowing 'arbitrary' PointerIcon data input)
Commit fe28bc125429b38cdcd016746081f4a6d521c6fd added the notion of toolkit agnostic PixelFormat and conversion utilities,
utilized and further tested by this patch.
+++
- PointerIcon is a PixelRectangle
and hence holds the decoded data.
This allows on-the-fly conversion if required
as well as recreation w/o PNG re-decoding.
- Using array-backed PointerIcon data where possible,
allowing better performance when converting PixelFormat etc.
- NEWT Display adds 'createPointerIcon(final IOUtil.ClassResources pngResource...'
method to support agnostic PointerIcon creation.
- NEWT Display adds methods to allow users to avoid PixelFormat and
Buffer NIO type forced conversion:
- PixelFormat getNativePointerIconPixelFormat()
- boolean getNativePointerIconForceDirectNIO()
+++
PNGImage -> PNGPixelRect
Deleted: com.jogamp.opengl.util.texture.spi.PNGImage
Added: com.jogamp.opengl.util.PNGPixelRect
(We hope nobody was using PNGImage directly since it was a service-plugin for TextureIO)
PNGPixelRect is a PixelRectangle
PNGPixelRect actually is implemented OpenGL agnostic,
however - since our PNGJ support lives under package 'jogamp.opengl.util.pngj'
it cannot be moved up (yet).
PNGPixelRect now handles all PixelFormat for the target format
and also added support for grayscale+alpha (2 channels).
The latter is force-converted to RGB* - similar to paletted.
Further more, PNGPixelRect allows simply passing an OutputStream to write the PNG data.
Used by: TextureIO and NEWT
+++
- OffscreenSurfaceLayer's setCursor(..) uses the agnostic PixelRectangle
instead of a PNG resource.
- AWTMisc uses the PixelRectangle to produce the AWT Cursor
and converts it to the required format.
Hence same pixels are used for NEWT and AWT pointer/cursor icon.
- TestGearsES2Newt and NewtAWTReparentingKeyAdapter 'tests'
iterate over 3 custom PointerIcon when pressed 'c'.
- JOGLNewtAppletBase uses the new custom PointerIcon
'newt/data/crosshair-lumina-trans-32x32.png', which is included in NEWT (213 bytes only).
-
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OffscreenLayerSurface PointerIcon/Visibility tasks async on AWT-EDT
setCursor(..) and hideCursor(..) must happen on the AWT-EDT w/o blocking,
otherwise we may deadlock the NEWT-EDT.
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OffscreenLayerSurface (OSX CALayer) w/ JAWTWindow Path
Add setCursor(..) and hideCursor() to OffscreenLayerSurface interface,
impl. in JAWTWindow w/ AWT.
This allows an OSX NEWT Window using CALayer (i.e. NewtCanvasAWT)
to have setPointerIcon(..) and setPointerVisible(..) functionality!
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visibility state not restored @ detach
Commit ebed9f0322e2a2279a525e04ee3875c9034a7f45 (fix for Bug 906) causes a regression
to fix for Bug 816, Bug 849 and Bug 889 (OSX CALayer Positioning and JAWTWindow visibility).
The commit adds the JAWTComponentListener instance 'jawtComponentListener'
to the component before it's assignment (duh!).
+++
Further more, detaching the JAWTComponentListener shall restore
the component's original 'local visibility state', which might got overridden
by it's 'hierarchyChanged' implementation.
+++
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NW.getLocationOnScreen(..) for X11 and Windows ; Allow unit test to run on all platforms.
- Reuse SWTAccessor.isOS_TYPE (public now)
- Impl NW.getLocationOnScreen(..) for X11 and Windows reusing existing native code
- Allow unit test to run on all platforms.
Note: NewtCanvasSWT unit tests require a 'wait for realized' while SWT dispatching.
Otherwise the 'sash unit test' will fail since realiziation happens later, at least on X11.
Hence extended AWTRobotUtil.waitForRealized(..) to use a 'waitAction'
which is used here w/ special SWT dispatch Runnable.
AWTRobotUtil.waitForRealized(..) operates on time-delta instead of iteration-counter,
allowing above 'waitAction' Runnable.
AWTRobotUtil.waitForRealized(..) removed 2nd 'glad.isRealized()' loop ..
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properly removeClosingListener() (and replace boolean state)
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JAWTWindow.destroy() - GLCanvas Recreation Case
In case a JAWTWindow owner recreates itself, destroying JAWTWindow must detach the
Component- and HierarchyListener from the AWT component!
Test TestBug816GLCanvasFrameHoppingB849B889AWT
shows properly detaching listener at jawtWindow destruction.
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moves between two JFrame
When JAWTWindow's visibility tracker updates component's local visibility,
it should read it's local visibility state instead 'trusting' the passed state.
Make JAWTWindow's visibility tracker DEBUG output more brief for readability.
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for analysis.
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(again) on 'addNotify(..)' - GLCanvas in JtabbedPane disappear
Regression of commit e33e6374e0be0454f7e9732b5f897f84dbc3c4dc (Fix for Bug 729 and Bug 849) !
+++
JAWTWindow's HierarchyListener doesn't set component visible (again) on 'addNotify(..)'
It only renders the component invisible after removeNotify() which is performed implicit anyways ..
Case java.awt.event.HierarchyEvent.DISPLAYABILITY_CHANGED
shall perform similar as our java.awt.event.HierarchyEvent.SHOWING_CHANGED impl.
+++
Tested on Gnu/Linux X11 and OSX incl. re-test Bug 729 and Bug 849 unit tests.
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Signed-off-by: Harvey Harrison <[email protected]>
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Signed-off-by: Harvey Harrison <[email protected]>
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Signed-off-by: Harvey Harrison <[email protected]>
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NativeWindow's util types.
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allowing user to set custom tile size for performance evaluation/tweak
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JAWTWindow snoops HierarchyEvents for SHOWING_CHANGED to
track local component's visibility state as well as it's global visibility state.
The later is determined by it's parent's visibility change.
If 'removeNotify()' is called, component's visibility is reset to it's local visibility state.
Fixes OSX CALayer component's visibility if parent's visibility changes (Bug 729).
Fixes continuous GL rendering if parent is invisible (Bug 849).
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top-level heavyweight Window, fixes [J]Dialog use case.
Top-level heavyweight Window's position is it's position on screen, hence stop traversing.
Thx to Emmanuel Puybaret for pointing this out.
Adding Dialog and JDialog unit tests as inspired by Emmanuel Puybaret.
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A once visible CALayer (GLCanvas) must be able to become invisible w/o destruction,
e.g. as required by CardLayout's switching cards.
See unit test for Bug 532: 'TestAWTCardLayoutAnimatorStartStopBug532'
Out native 'fixCALayerLayout(..)' takes the visible state as tracked by JAWTWindow's ComponentListener
and sets our CALayer (root and sub) hidden state accordingly.
Now MacOSXJAWTWindow's layoutSurfaceLayerImpl(..) always calls down to 'fixCALayerLayout(..)'
due to update the visibility state.
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'inner CALayer' is the outter AWT Window client space (content).
+++
Pseudo-Code:
p0 = c.locationOnScreen();
p0 -= c.getOutterComp.getPos();
p0 -= c.getOutterComp.getInsets();
Where 'locationOnScreen()' is:
p0 = 0/0;
while( null != c ) {
p0 += c.getPos();
}
+++
JAWTWindow.getLocationOnScreenNonBlocking(..) validated against
AWT's Component.getLocationOnScreen() - OK for all use-cases.
(Validation enabled w/ DEBUG)
All unit tests manually validated on OSX 10.7 w/ jdk7u40.
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JRootPane for last position offset; AWTMisc.getInsets(..) add special JRootPane case.
Please note that we use JAWTWindow.getLocationOnScreenNonBlocking(..) to determine the
location on the screen 'only' b/c we cannot allow AWT to aquire the tree-lock!
The latter would be the case if using AWT's 'getLocationOnScreen()'.
If anybody has a more reliable implementation to achieve the same .. please provide your patch!
The following fix has been performed to fix the last issue w/ vZome.
- JAWTWindow.getLocationOnScreenNonBlocking(..) shall use JRootPane for last position offset
- w/ vZome, the frame's position was 0/0 (invalid), instead JRootPane's position is good.
Use JRootPane's position and stop traversing here (LW top-level).
- AWTMisc.getInsets(..) add special JRootPane case.
+ * Exception is JRootPane.
+ * Return it's parent's Window component's insets if available,
+ * otherwise return JRootPane's insets.<br>
+ * This is due to <i>experience</i> that <i>some</i> JRootPane's
+ * do not expose valid insets value.
-
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position from AWT component's location on screen. Track fixedFrame size of root CALayer; Add Split layout to unit test, add [manual] Applet tests.
- Fix JAWTWindow's getLocationOnScreenNonBlocking()
Skip JRootPane while traversing up to root Container.
JRootPane would duplicate the top-level container's offset (Window insets).
- Derive CALayer position from AWT component's location on screen. Add Split layout to unit test, add [manual] Applet tests.
AWT >= 7u40:
- AWT position is top-left w/ insets, where CALayer position is bottom/left from root CALayer w/o insets.
- Use getLocationOnScreenNonBlocking() to get location-on-screen w/o insets.
- Native code: flip origin
AWT < 7u40 still uses fixed position 0/0 for root and sub layer.
- Track fixedFrame size of root CALayer - MyCALayer:
- Override layoutSublayers to validate root and sub-layer pos/size
- Override setFrame to use fixedFrame, if set (similar to MyNSOpenGLLayer)
- Add Split layout to unit test, add [manual] Applet tests.
- Thx to 'jimthev' and 'Manu' for providing Applet unit tests
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instead of component-count, support all int types ; Add type 'BufferedImageInt' preserving the custom image-type, add note about TYPE_CUSTOM
- createBufferedImage(..) use BufferedImage type value instead of component-count, support all int types
- Support all integer data image-type, hence we need to pass image-type instead of component count (collision).
- Also pass 'properties' to allow configuring all BufferedImage parameters (just in case)
- Return BufferedImageInt to allow user to query the used image-type, see below.
- Add type 'BufferedImageInt' preserving the custom image-type, add note about TYPE_CUSTOM
- Simply extends BufferedImage w/ custom image-type, since BufferedImage's type is TYPE_CUSTOM
due to our custom storage type (see API doc comment).
Unit tests:
- Testing all integer image-type's in
- TestTiledPrintingGearsSwingAWT
- TestTiledPrintingNIOImageSwingAWT
- Disable all AA print-hints, all AWT text visible on X11.
Probably has a regression on Windows / OSX .. TBD.
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- Contains convenient method to create an NIO backed BufferedImage
'BufferedImage createBufferedImage(int width, int height, int numComponents, Point location)'
Standalone test TestTiledPrintingNIOImageSwingAWT 'prints', i.e. renders offscreen,
the Frame into
- a traditional array-backed BufferedImage
- an NIO-backed backed BufferedImage
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AWTPrintLifecycle's lifecycle
- AWTPrintLifecycle:
- Should decorate:
PrinterJob.print(..),
instead of within Printable.print(..) { .. container.printAll(..); .. }
This is due to AWT print implementation, i.e.
AWT will issue Printable.print(..) multiple times for 'overlapping'
or non-opaque elements!
- Move from javax.media.opengl.awt -> com.jogamp.nativewindow.awt
- Make _interface_ AWT agnostic, i.e. remove Graphics2D from 'setup(..)'
- Add 'int numSamples' to 'setup(..)' to determine the number of samples
- AWTTilePrinter:
- Use double precision when scaling image-size and clip-rect,
then round them to integer values.
Otherwise AWT will use the bounding box for the clipping-rectangular.
- Clip negative portion of clip-rect,
this removes redundant overpaints, as well as increasing the tile count
due to the increased clipping-size.
- Clip the image-size in the tile-renderer according to the clip-rect.
- DEBUG_TILES: Dump tiles to file
- Use sub-image of final BuffereImage instead
of adding another clipping region. This might increase performance
if no clip-rect has been set.
TODO:
TestTiledPrintingGearsSwingAWT overlapping tests exposes
a 'off by one' bug of the first layer's background!
Note: The GL content seems to be correct though - maybe it's simply an AWT rounding error ..
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@ addNotify() w/o newtChild
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surface.lock[ modify ] ]
GLEventListenerState:
New model for GLEventListenerState's transaction safety:
- Z Decorate-1: Animator.pause [ X ] Animator.resume
- X Decorate-2: Surface.lock [ Y ] Surface.unlock
- Instead of setting AbstractGraphicsDevice, just swap the handle and ownership.
- Issuing setRealized(..) only if required, i.e. having an upstream-surface (EGL..) depending on used device
- Utilizing setRealized(..) on the GLAD's delegated 'real' drawable, avoiding optional GLAD locking.
- Cleanup and above changes shall render impl. easier to read.
GLEventListenerState Unit Tests:
- If swapping/moving from AWT -> NEWT, use a NEWT dedicated Display
avoiding ATI driver XCB crash - read comment.
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otherwise no rendering result might be visible w/o Animator
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a3f2ef50ad33c58a240a17fcf03e415d772207c3, etc; Fix NewtVersion, NativeWindowVersion and NewtVersionActivityLauncher
NewtVersion, NativeWindowVersion: Also search for extension javax.media.opengl (all packaging)
NewtVersionActivityLauncher: Use new launcher URI
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design on main-thread w/o [infinitive] blocking
History:
Part1 commit 896e8b021b39e9415040a57a1d540d7d24b02db1 (Run CALayer Ops on current thread to avoid blocking)
Part2 commit 28c6472335b924080d638b33a28f8f4eedb459b1 (Run CALayer Ops on main-thread w/o blocking)
Dependency:
GlueGen commit 4becdfa125b07ff969d6540e1112735b53cd15eb (Fix RecursiveLockImpl* Timeout corner case)
Part2 misses essential locking of the OpenGL context (and it's surface upfront) while creating the
NSOpenGLLayer instance. The latter instantiates a OpenGL context shared w/ JOGL's, hence it cannot be locked.
Encapsulating NSOpenGLLayer creation/attachment and it's detachment/release in sub-classes
AttachNSOpenGLLayer and DetachNSOpenGLLayer, where instances will be streamed on main-thread.
Both tasks are triggered at associateDrawable(boolean bound).
The mentioned GL context locking requires disturbs the 'streaming' design considerably in AttachNSOpenGLLayer.
It is solved by attempt to acquire the recursive lock of the surface and the context via 'tryLock(maxwait)'
w/ screen-vSync-period/2. If the locks could not be acquired completly, the AttachNSOpenGLLayer instance
will be re-queued to the main-thread for later execution.
Before DetachNSOpenGLLayer is being streamed, it is validated whether AttachNSOpenGLLayer did run.
A recursive situation does happen w/ resizing an offscreen pbuffer drawable! Hence extra care is being taken.
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896e8b021b39e9415040a57a1d540d7d24b02db1): Run on main-thread w/o blocking ; Misc Changes
Commit 896e8b021b39e9415040a57a1d540d7d24b02db1 moved all native CALayer calls to the current thread
to avoid deadlocks.
Even though this seemed to be fine at least resource GC (release/dealloc calls) were issued
very late in time, probably due to multithreading synchronization of JAWT and/or OSX API.
Example: Our 'TestAddRemove01GLCanvasSwingAWT' test didn't freed CALayer resources incl. GL ctx
when destroying the objects (AWT Frame, GLCanvas, ..), leading to resource starvation .. eventually.
Remedy is a compromise of behavior before commit 896e8b021b39e9415040a57a1d540d7d24b02db1
and that commit, i.e. to run CALayer lifecycle methods on main-thread, but do not block!
The careful part within MacOSXCGLContext.associateDrawable(..) performs the following block on main-thread:
- lock the context
- create NSOpenGLLayer (incl. it's own shared GL context and the DisplayLink)
- attach NSOpenGLLayer to root CALayer
- unlock the context
Due to the GL ctx locking, this async offthread operation is safe within our course of operations.
Details:
- NSOpenGLContext
- Context and CVDisplayLink creation at init
- Call [ctx update] if texture/frame size changed
- 'waitUntilRenderSignal' uses default TO value if given TO is 0 to avoid deadlocks
+++
Misc Changes:
- Fix object type detection: isMemberOfClass -> isKindOfClass
- OSXUtil_isNSView0
OSXUtil_isNSWindow0,
CGL_isNSOpenGLPixelBuffer
- MacOSXCGLDrawable/MacOSXPbufferCGLDrawable: remove getNSViewHandle() method.
MacOSXCGLContext uses common code to detect nature of the drawable handle.
- MacOSXCGLContext/CALayer: Use safe screenVSyncTimeout values, never 0 to avoid deadlock!
- JAWTWindow.invalidate: Call detachSurfaceLayer() if not done yet
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need for explicit call
- OffscreenLayerSurface.layoutSurfaceLayer() removed, no more required
- JAWTWindow adds a ComponentListener, which issues FixCALayerLayout() at resized, moved and shown.
- MyNSOpenGLLayer no more requires fix*Size() methods
- MyNSOpenGLLayer::setDedicatedSize() need no explicit CATransaction, performed by caller.
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DPYs; JAWTWindow: Add JAWT info in toString()
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808a9a27a8c1c9e0a6701a8dd81d51f8daa8129d
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mechanism
Due to a NEWT WindowClosing event regression cause by NewtCanvasAWT changes
a review of our WindowClosing event mechanism was required.
Important cleanups are marked w/ '(*)' below.
I would have preferred to change the 'WindowListener.windowDestroyNotify(WindowEvent)'
method to pass a WindowCloseEvent object exposing more information like
toolkit or programmatic destruction and passing whether a 'closing' or 'nop' action
will be performed based on the WindowClosingMode.
For now I postponed this idea .. since it would change the API again,
but may reconsider it after merging the Android 'closing' patch.
- InputEvent.consumedTag -> NEWTEvent.consumedTag
- Window
- (*) Promote setWindowDestroyNotifyAction(Runnable) to public,
former WindowImpl.setHandleDestroyNotify(boolean).
Using a Runnable action for WindowImpl.windowDestroyNotify(boolean)
allows a setting defined alternative for destroy() and gets rid
of [ab]using WindowListener.windowDestroyNotify(WindowEvent) for
lifecycle actions. Used in:
- GLWindow
- GLAutoDrawableDelegate impl.
- WindowImpl
- Respect NEWTEvent.consumedTag for WindowEvents as well
- (*) Impl. setHandleDestroyNotify(boolean) (see above)
- (*) destroy() simply sends out pre- and post- destruction Window events,
where windowDestroyNotify(boolean) sends out the pre-destruction event if NOP.
- (*) windowDestroyNotify(boolean) is public now, allowing other impl. details
to follow proper destruction using handleDestroyNotify Runnable (-> NewtCanvasAWT).
- AWTWindowClosingProtocol:
- addClosingListenerOneShot() -> addClosingListener()
- calling addClosingListener() at addNotify()
- calling removeClosingListener() at removeNotify()
- AWTWindowClosingProtocol ctor taking NOP runnable,
allowing to send WindowEvent.EVENT_WINDOW_DESTROY_NOTIFY at WindowClosingMode.DO_NOTHING_ON_CLOSE
- add/remove listener on AWT-EDT
- AWTWindowAdapter
- Add 'removeWindowClosingFrom(..)',
allowing to remove window closing event fwd.
- Also fwd windowClosed in window closing fwd'ing.
- NewtCanvasAWT
- (*) Utilize AWTWindowClosingProtocol NOP runnable (see above)
to fwd closing-NOP event to NEWT
- (*) Unify remove/destroy code in destroyImpl(..)
- !removeNotify -> destroy NEWT child programatic or as toolkit event
- removeNotify || windowClosing -> destroy jawtWindow
- (*) Remove AWTWindowAdapter/AWTParentWindowAdapter's windowClosingListener,
since we utilize AWTWindowClosingProtocol
- DisplayImpl
- Adding 'final void dispatchMessage(final NEWTEvent event)'
allowing to remove the NEWTEventTask wrapping for no reason
in enqueueEvent(..) if on EDT and waiting.
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SWT event dispatching.
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where our CALayer is moved out of the visible area
- same erroneous behavior for GLCanvas and NewtCanvasAWT
- sized-frame: Set framesize and validate() it
- sized-component: Set component preferred size and call frame.pack()
- added workaround 'OffscreenLayerSurface.layoutSurfaceLayer()' to fix CALayer size, which snaps for:
- OK initial size before setVisible: sized-frame and sized-component
- OK resize w/ sized-frame
- OK manual frame resize
- Invisible: w/ sized-component after setVisible()
++
- CALayer-Sublayer (GL) has additional retain/release when added/removed
to be on safe side.
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Layers and native GL-Context are _not_ Released ; Java Side wait for Main-Thread
- Fix Bug 690: Occasional Freeze on CVDisplayLinkStop
- NSOpenGLLayer.disableAnimation() shall not claim the renderLock mutex,
since the CVDisplayLink callback could be waiting for the lock.
This waiting callback could freeze the call to CVDisplayLinkStop.
- Fix Bug 691: Layers and native GL-Context are _not_ Released
- Following proper release cycle:
Context unrealized:
- JAWTWindow.detachSurfaceLayer() -> OSXUtil.RemoveCASublayer(..)
- CGL.releaseNSOpenGLLayer(..)
JAWTWindow.destroy()
- MacOSXJAWTWindow.UnsetJAWTRootSurfaceLayer(..)
- OSXUtil.DestroyCALayer(..)
- 'Magic' CALayer release calls (w/o manual retain beforehand) at:
- OSXUtil.RemoveCASublayer(..): [subLayer release]
- MacOSXJAWTWindow.UnsetJAWTRootSurfaceLayer(..): [rootLayer release]
- OSXUtil.DestroyCALayer(..): [rootLayer release]
- 'Magic' NSOpenGLLayer's NSOpenGLContext dealloc:
- [NSOpenGLContext clearDrawable]
- CGLDestroyContext( [NSOpenGLContext CGLContextObj] )
- Java Side wait for Main-Thread
- Waiting for the delegated Main-Thread on the Java side eases debugging
and won't block the Main-Thread in native code.
- Utilizing this for all CALayer calls
Test case: TestGLCanvasAddRemove01SwingAWT
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EGL/ES2 tests, attempt to fix wrapped EGL case
- Bug 665 (part 2) was commit 7fd5f76e1eb4bbf93fe9b1171744bd755d8f96e4
- Add EGL/ES2 tests in
- TestGLContextDrawableSwitch01NEWT
- TestGLContextDrawableSwitch11NEWT
- Attempt to fix wrapped EGL case (incomplete)
- Using EGL/ES w/ non native EGL device/surface, but natively wrapped instances (most of the cases),
a 'complicated' delegation of
Native-Upstream -> EGL-Proxy -> EGL-Instance
is being used heavily relying on the objects lifecycle.
GLEventListenerState tries to roll back the realized state
and even sets the upstream device handle,
but this doesn't seem to be sufficient on X11.
Discussion:
It might turn out that we only can implement the survival of GLContext
and it's display device reliable w/ EGL within the GLAutoDrawable implementation,
which can hold the previous not destructed instances.
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Changes allowing re-association (incl. null) of GLContext/GLDrawable:
- GLAutoDrawable: Refine API doc 'setContext(..)'
- GLContext: Refine API doc: 'setGLDrawable(..)' 'getGLDrawable()'
- GLContextImpl.setGLDrawable(): Handle null drawable
- GLAutoDrawableDelegate/GLAutoDrawableBase: Allow null GLContext
- GLDrawableHelper.switchContext(..)/recreateGLDrawable(): Balance GLContext.setGLDrawable(..) calls
- New GLEventListenerState, holding state vector [GLEventListener, GLContext, .. ]
impl. relocation of all components from/to GLAutoDrawable.
- GLDrawableUtil
- Using GLEventListenerState for swapGLContextAndAllGLEventListener(..)
+++
NEWT Window*:
- getDisplayHandle() is 'final', no more 'shortcut' code allowed
due to re-association incl. display handle.
- close*:
- close config's device (was missing)
- null config
+++
Changes allowing reconfig of Display handle as required
to re-associate pre-existing GLContext to a 'window':
- AbstractGraphicsDevice: Add isHandleOwner() / clearHandleOwner()
- Impl. in X11GraphicsDevice and EGLGraphicsDevice, NOP in DefaultGraphicsDevice
- DefaultGraphicsConfiguration add 'setScreen(..)'
- MutableGraphicsConfiguration
- Make DefaultGraphicsConfiguration.setScreen(..) public
- NativeWindowFactory add 'createScreen(String type, AbstractGraphicsDevice device, int screen)'
- Refactored from SWTAccessor
- NativeWindow x11ErrorHandler: Dump Stack Trace in DEBUG mode, always.
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Test*NewtEventModifiers for SWT (TestNewtEventModifiersNewtCanvasSWT)
- Misc OSX/SWT: OSXUtil.RunOnMainThread(..) refinement
- 'waitUntilDone' is implemented on Java site via lock/wait on RunnableTask to not freeze OSX main thread.
- Fix Test*NewtEventModifiers for SWT (TestNewtEventModifiersNewtCanvasSWT)
- Deal with SWT's requirement to run the SWT event dispatch on the TK thread,
which must be the main thread on OSX.
We spawn off the actual test-action into another thread,
while dispatching the events until the test-action is completed.
- AWTRobot: Add 'void requestFocus(Robot robot, Object obj, int x, int y)'
- Use waitForIdle() only if programmed in Robot (Deadlock w/ OSX SWT)
- Required for SWT usage (see above)
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GLCapabilities on X11 (feature complete)
To allow custom GLCapabilities, we had to use native parenting on X11 w/ a new child window.
The desired visualID chosen by the users GLCapabilities is passed to the new child window.
The redraw drops must be caused by the original GDK or the new child GDK window.
Now we use a plain X11 child window similar to NEWT's X11 window and NewtCanvasSWT,
which doesn't expose this bug.
(Note: SWTAccessor/GLCanvas still contains the uncommented GDK code path for further inspection, if desired)
Also added SWTNewtEventFactory to test event handling on the SWT GLCanvas w/ GearsES2.
TestSWTJOGLGLCanvas01GLn tests custom GLCapabilities now.
SWTEDTUtil has been moved to private: com.jogamp.newt.swt -> jogamp.newt.swt.
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PrivilegedAction for static initSingleton block (SWTAccessor, NewtFactory, NativeWindowFactory)
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JAWTWindow.lockSurface(): Check AWT component's native peer
- Fix GLAutoDrawable.dispose(): Dispose drawable even w/o context
- It is possible to have the GLContext not being created (not made current),
so drawable shall be disposed independent.
- Merge Runnable 'postDisposeOnEDTAction' to dispose Runnable for clarity
- GLDrawableHelper: Split disposeGL from invokeGLImpl for clarity
- JAWTWindow.lockSurface(): Check AWT component's native peer
- W/o a native peer (!isDisplayable()), JAWT locking cannot succeed.
- On OSX OpenJDK 1.7, attempting to JAWT lock a peer-less component crashes the VM
- MacOSXJAWTWindow.lockSurfaceImpl(): Remove redundant null checks
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Propagate drawable change to MacOSXCGLContext where either context/NSView or context/NSOpenGLLayer
association needs to get updated.
Fixes drawable/context switch.
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XInitThreads()]
NativeWindowFactory.getDefaultToolkitLock() is no more a global singleton,
but an instance which has to track/lock a single resource.
Hence the decoration w/ it in GLDrawableFactory is useless and applying lock/unlock
on a new instance also a bug/regression.
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Utilizing a GlobalToolkitLock in general to lock the display connection results in deadlock
situations where locked surfaces signal other [offscreen] surfaces to render.
We have to see whether we find a better solution, for now sporadic XCB assertion still happen.
But it is preferrable to point to the root cause, then to jumping through hoops to complicate locking
or even to deadlock.
Locking:
- X11GLXGraphicsConfigurationFactory add missing device locking in:
- getAvailableCapabilities
- chooseGraphicsConfigurationStatic
- Newt/X11Window: Discard display events after window close.
Relax ATI XCB/threading bug workaround:
- ToolkitProperties: requiresGlobalToolkitLock() -> hasThreadingIssues()
- NativeWindowFactory: Don't use GlobalToolkitLock in case of 'threadingIssues' the impact is too severe (see above)
- NativeWindowFactory: Add getGlobalToolkitLockIfRequired(): To be used for small code blocks.
If having 'threadingIssues' a GlobalToolkitLock is returned, otherwise NullToolkitLock.
- X11GLXContext: [create/destroy]ContextARBImpl: Use 'NativeWindowFactory.getGlobalToolkitLockIfRequired()' for extra locking
Misc Cleanup:
- *DrawableFactory createMutableSurface: Also create new device if type is not suitable
- *DrawableFactory createDummySurfaceImpl: Pass chosenCaps and use it (preserves orig. requested user caps)
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driver and w/o native X11 locking
The proprietary ATI X11 driver does not handle multi-threaded [GL] clients well,
i.e. triggers an XCB assertion 'from time to time'.
It almost seems like that the driver either:
- aliases all display connections to it's connection name, i.e. server; or
- utilizes a build-in display connection w/o locking, used for some reason
+++
- X11Lib: Add QueryExtension(dpy, name) allowing early driver determination w/o GL
- X11Util detects 'requiresGlobalToolkitLock' and 'markAllDisplaysUnclosable' via
X11 extensions. In case certain ATI extensions are available, both are set to true.
- X11GLXDrawableFactory: Dropped setting 'markAllDisplaysUnclosable', using X11Util's detection (see above).
- New GlobalToolkitLock to satisfy certain driver restrictions (ATI's XCB multithreading bug)
- NativeWindowFactory handles new property requiresGlobalToolkitLock,
in which case the new GlobalToolkitLock is being used instead of ResourceToolkitLock.
- JAWTUtil ToolkitLock locks GlobalToolkitLock 1st to match new 'requiresGlobalToolkitLock' property.
- Document static method requirement of X11Util, GDIUtil and OSXUtil via marker interface ToolkitProperties
- ToolkitLock: New method 'validateLocked()', allowing use to validate whether the device/toolkit
is properly locked and hence to detect implementation bugs. See unit test class: ValidateLockListener
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