| Commit message (Collapse) | Author | Age | Files | Lines |
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Add HiDPI for AWT GLCanvas w/ OSX CALayer
Core API Change:
To support HiDPI thoroughly in JOGL (NativeWindow, JOGL, NEWT)
we need to separate window- and pixel units.
NativeWindow and NativeSurface now have distinguished
access methods for window units and pixel units.
NativeWindow: Using window units
- getWindowWidth() * NEW Method *
- getWindowHeight() * NEW Method *
- getX(), getY(), ...
NativeSurface: Using pixel units
- getWidth() -> getSurfaceWidth() * RENAMED *
- getHeight() -> getSurfaceHeight() * RENAMED *
GLDrawable: Using pixel units
- getWidth() -> getSurfaceWidth() * RENAMED, aligned w/ NativeSurface *
- getHeight() -> getSurfaceHeight() * RENAMED, aligned w/ NativeSurface *
Above changes also removes API collision w/ other windowing TK,
e.g. AWT's getWidth()/getHeight() in GLCanvas
and the same method names in GLDrawable before this change.
+++
Now preliminary 'working':
- AWT GLCanvas
- AWT GLJPanel
Tested manually on OSX w/ and w/o HiDPI Retina:
java com.jogamp.opengl.test.junit.jogl.demos.es2.awt.TestGearsES2AWT -manual -noanim -time 1000000
java com.jogamp.opengl.test.junit.jogl.demos.es2.awt.TestGearsES2GLJPanelAWT -manual -noanim -time 1000000
+++
TODO:
- NEWT
- Change Window.setSize(..) to use pixel units ?
- OSX HiDPI support
- Testing ..
- API refinement
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JAWTUtil and JAWTWindow
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native libs and null-cursor creation in headless mode
Commit 9fb1e46e43900ec9b2f9c9af1fc8984e101c8811 exposed sideffects,
i.e. libjawt.so could not be loaded in JAWTUtil's static-init while in headless mode.
JAWTUtil's static init block was triggered from AWTMisc debug flag changes.
Fix drops operations in headless mode:
- JAWTUtil
- awt native lib loading
- querying headfull features (locking, java2d ..)
- AWTMisc
- creating null cursor
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headless)
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SurfaceUpdatedListener: Mark methods final, use volatile 'isEmpty' to bail out early @ surfaceUpdated.
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UpstreamSurfaceHookMutableSizePos to take position into account; WrappedWindow: invalidate and destroy - display device could be opened.
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AbstractGraphicsDevice/NativeWindow
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obsolete 'getPrivateGraphicsConfiguration()'
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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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(NativeWindow GDI / NEWT )
.. this allows using the icon definition of WNDCLASSEX instead of setting them at CreateWindow0(..).
- NativeWindow GDIUtil/RegisteredFactory uses WNDCLASSEX and Small/Big Defailt Icons
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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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in RegisteredClass; Safe DDT Post/WaitForReady handling and error cases ; ...
Proper OO integration of DDT in RegisteredClass
- DDT is optional to RegisteredClass[Factory],
i.e. NEWT without DDT and DummyWindow with DDT.
- Using native type DummyThreadContext per DDT
passed as DDT handle to java referenced in RegisteredClass
- Passing DDT handle to related native methods,
if not null use DDT - otherwise work on current thread.
The latter impacts CreateDummyWindow0 and DestroyWindow0.
Safe DDT Post/WaitForReady handling and error cases ; ...
- Wait until command it complete using a 3s timeout
- Terminate thread if errors occur and throw an exception
+++
Discussion: DDT Native Implementation
Due to original code, the DDT is implemented in native code.
Usually we should favor running the DDT from a java thread.
However, since it's main purpose is _not_ to interact w/ java
and the native implementation has less footprint (performance and memory)
we shall be OK w/ it for now - as long the implementation IS SAFE.
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52c95c19dbd69a7fc6b307d2b2db357ceb43ddf5
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Cleanup Commit e9c711a86aa05f4f24c69972532833f5a98911a3:
- Fix while loop in SendCloseMessage (native)
- static 'threadid' must be volatile
- Whitespace
- Redundancy
- CreateDummyWindow
- Scope (java, move JNI funcs back to private)
- Remove [invalid] pointer usage (native)
- ThreadParam's threadReady and hWndPtr shall not be pointers - invalid
- No need to use a threadReady pointer.
- Validate threadid (native)
TODO:
- Make 'native dispatch thread' optional
- Store 'native dispatch thread' in window class
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try to retrieve window names
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'getDummyWndProc0()' in RegisteredClassFactory - Result: Yes we do.
GDI.initSingleton() dummyWindowClassFactory RegisteredClassFactory[moduleHandle 0x13f3e0000, _dummyWindow_clazz, wndProc 0x6c101de6, shared[refCount 0, class null]]
GDI.CreateDummyWindow() dummyWindowClassFactory RegisteredClassFactory[moduleHandle 0x13f3e0000, _dummyWindow_clazz, wndProc 0x6c101de6, shared[refCount 1, class RegisteredClass[handle 0x13f3e0000, _dummyWindow_clazz0]]]
GDI.CreateDummyWindow() dummyWindowClass RegisteredClass[handle 0x13f3e0000, _dummyWindow_clazz0]
++
Note: The RegisteredClassFactory mechanism is used for NEWT Windows as well.
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commit:
a4e3f241cfba55e407c68eba91ffcc4beb0758b5 (Analysis of glXMakeCurrent freeze on ATI fglrx 8.78.6; Misc ..)
Removed 'implements Clonable' from NamedDisplay, which means Object.clone() will
always throw CloneNotSupportedException. Kill clone().
Signed-off-by: Harvey Harrison <[email protected]>
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DEBUG_CALAYER_POS_CRITICAL is explicitly set.
- DEBUG_CALAYER_POS_CRITICAL = nativewindow.debug.JAWT.OSXCALayerPos
Since AWT's location-on-screen query can cause an AWT deadlock,
which is the sole purpose of our custom lock-free impl,
don't enable it's DEBUG output w/ default DEBUG flags.
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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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via onMain && ( isOnMain || 0 < delay )
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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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JAWTUtil.JAWT_OSX_CALAYER_QUIRK_LAYOUT
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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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JAWT_OSX_CALAYER_QUIRK_LAYOUT
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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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JAWT_OSX_CALAYER_QUIRK_SIZE and JAWT_OSX_CALAYER_QUIRK_POSITION.
- Provide quirk bits for OSX CALayer depending on used JVM/AWT
and act accordingly.
- TestBug816OSXCALayerPosAWT: Add resize by frame
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and convenient AWT container traversal context; GLCanvas/GLJPanel properly handle existing MSAA and req. AA;
- Test: Don't resize frame, tweek print-matrix
- Use scaleComp72 to scale the frame to fit on page,
i.e. global print matrix
- Use scaleGLMatXY = 72.0 / glDPI
to locally scale on the GL drawable as being passed to AWTPrintLifecycle.setup(..)
- Hence frame stays untouched/stable, no need for 'offscreen' print test,
which is removed.
- AWTPrintLifecycle: Add scale and convenient AWT container traversal context
Use a simple decoration for all AWTPrintLifecycle impl. components within a container:
final AWTPrintLifecycle.Context ctx = AWTPrintLifecycle.Context.setupPrint(frame, g2d, scaleGLMatXY, scaleGLMatXY);
try {
} finally {
ctx.releasePrint();
}
- GLCanvas/GLJPanel properly handle existing MSAA and req. AA;
- GLCanvas: Workaround bug where onscreen MSAA cannot switch to offscreen FBO,
i.e. stay 'onscreen'
- GLJPanel: Use new offscreen FBO if MSAA is requested and not yet used.
- GLJPanel.Offscreen.postGL(): always swapBufer(), was missing for !GLSL swapping
Results GLCanvas / GLJPanel:
- Good scaling
- Stable behavior / visibility
- High DPI mode works
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'addNativeJarLibsJoglCfg(..)' to GlueGen, commit c0ead6fa10280f8076704726d59f482b183fd77e
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calling 'PropertyAccess.isPropertyDefined(propName, default)' through Debug class.
Calling 'Debug.isPropertyDefined(propName, default)' may be 'optimized' to
'PropertyAccess.isPropertyDefined(propName, default)', which would skip the modules Debug's class initialization.
Iff that happens, an AccessControlException may happen, due to requesting an insecure property,
since modules own Debug class has not been added it's trusted prefixes from within it's init block yet.
This seems to be a bug of the JVM .. to me, however .. the above description is the only
able to explain the issue at hand.
+++
Fix calls Debug class own static methods, either Debug.initSingleton() or Debug.debug(),
before calling 'isPropertyDefined(propName, default)'.
+++
Also mark Debug class static methods final!
+++
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component method.
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70bf3a4ec44504b86294a332255aaae8d2e86bf4 was not sufficient.
Commit 70bf3a4ec44504b86294a332255aaae8d2e86bf4 did not work out on Windows.
Solution now gathers the next or previous 'to be focused' component,
using the FocusTraversalPolicy of the visible/focusable/enabled container.
Then we simply request it's focus.
Works w/ Java7 on Linux and Windows.
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reorder globalLock/isJVMShuttingDown branch/sync
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Usually, the environment variable DISPLAY is used to define the default
display under X11. There are cases where the default display has to be
defined or overridden programmatically. For those cases, the new system
property nativewindow.x11.display.default can be used (as environment variables can't
be changed in Java). Its semantics are identical to the DISPLAY
environment variable.
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lock instead of simple volatile fields (bug).
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5b47372590ec715647ebbd75d70c41ec7a64485a ; Close X11 Display in isDeviceSupported()
- Moved GL vendor version parsing to GLVersionNumber
- Moved X11Util.markAllDisplaysUnclosable() trigger into SharedResource creation of
- X11GLXDrawableFactory
- EGLDrawableFactory
- GLProfile is back to pre 5b47372590ec715647ebbd75d70c41ec7a64485a,
i.e. contains no quirk artifact (clean)
- Close X11 Display in X11GLXDrawableFactory.isDeviceSupported()
Regression of 9a4fcc7ea4ec61e4ceed791acced734ac04ea270
- TODO: Remove X11Util markAllDisplaysUnclosable detection code ?
Notes to Martin:
- Use TAB == 4 SPACES
- No author names into source code, git commit log is enough.
- No need to tag your edits, the diff is enough.
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DontCloseX11DisplayConnection
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Main-Thread
Previous code created, set and unset the root CALayer on the current thread,
which lead to a very delayed destruction of the root CALayer w/.
With Java7 this lead to a possible resource starvation in certain situations,
since Java7 uses an CAOpenGLLayer.
Similar w/ f354fb204d8973453c538dda78a2c82c87be61dc,
creation, set and unset is operated on main-thread.
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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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RunOnMainThread(waitUntilDone:=true,..) can deadlock the main-thread if called from AWT-EDT,
since the main-thread may call back to AWT-EDT while injecting a new main-thread task.
This patch revises all RunOnMainThread CALayer usage, resulting in only one required left:
- OSXUtil.AddCASublayer() w/ waitUntilDone:=false
Hence the CALayer code has no more potential to deadlock main-thread/AWT-EDT.
OSXUtil.AddCASublayer() must be performed on main-thread, otherwise the
CALayer attachment will fail - no visible rendering result.
+++
Note: A good trigger to test this deadlock is to magnify/zoom
the OSX desktop (click background + ctrl-mouse_wheel)
before running some unit tests.
TestGLCanvasAWTActionDeadlock01AWT and TestAddRemove02GLWindowNewtCanvasAWT
also have the potential to trigger the mentioned deadlock.
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- Fix CALayer animation:
- All CALayer animations are set to nil via overriding 'actionForKey'
- Fix CALayer pos/size bug:
- Fix root and sub CALayer position to 0/0 and size on the main-thread w/o blocking.
- If the sub CALayer implements the Objective-C NativeWindow protocol NWDedicatedSize (e.g. JOGL's MyNSOpenGLLayer),
the dedicated size is passed to the layer, which propagates it appropriately.
- On OSX/Java7 our root CALayer's frame position and size gets corrupted by its NSView,
hence we have created the NWDedicatedSize protocol.
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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()
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- CALayer-Sublayer (GL) has additional retain/release when added/removed
to be on safe side.
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