| Commit message (Collapse) | Author | Age | Files | Lines |
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Detection/Processing of 2-Finger-Scroll Gesture ; GearsES2: Add NEWT based 'zoom' gesture detection.
- Fix Delivery of MultiTouch PRESSED/RELEASE
Adopting MouseEvent changes of commit 18cb57246372eda72c25a5cd9a69a873bdf09489
- Fix Detection/Processing of 2-Finger-Scroll Gesture
Dropping utilization of Android's GestureDetector and implementing our own,
which turns out to simplify keeping track of states.
Our gesture detection works well w/ user NEWT based gesture detection (-> See GearsES2 zoom and rotate),
using following criteria related to Android parameter:
- ScaledDoubleTapSlop:
- Max 2 finger distance
- ScaledTouchSlop:
- Min. movement w/ 2 pointer withing ScaledDoubleTapSlop starting 'scroll' mode
- Max. change of finger distance in respect to initiating 2-finger distance (2x ScaledTouchSlop)
- Max. distance growth in respect to initiating 2-finger distance.
- GearsES2: Add NEWT based 'zoom' gesture detection.
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destroys ; Recognizing all GLAutoDrawable's GLAnimatorControl for pause/resume ; Use GLAnimatorControl instead of Animator
- Add Support for GLStateKeeper
If !isFinishing() (HOME button), preserve the GLEventListener if an GLStateKeeper instance
- onPause() always destroys
onDestroy() is too late, i.e. surfaceDestroyed() already called
- Recognizing all GLAutoDrawable's GLAnimatorControl for pause/resume
pause/resume the GLAnimatorControl of all GLAutoDrawable instances
- Use GLAnimatorControl instead of Animator
We used an Animator reference .. duh!
Note: The EGL native WindowDriver (Android and BCM.IV) must retain their own copy of EGLGraphicsDevice,
which preserves the EGLDisplay handle due to EGLDisplayUtil reference counting per nativeHandleID.
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restauration for GLAutoDrawable
- New GLStateKeeper interface, package com.jogamp.opengl
Implemented by:
- GLAutoDrawableBase
Currently supported by:
- NEWT GLWindow
- GLEventListenerState package move:
com.jogamp.opengl.util -> com.jogamp.opengl
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validate Bug 649
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and use alpha in drawable
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TestPNGTextureFromFileNEWT, etc)
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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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RunnableTask adds PrintStream 'exceptionOut' argument in ctor.
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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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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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fps-counter, wait for a few frames!
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(Part 4)
Note:
- GLEventListenerState preservs the GLAutoDrawable state,
i.e. GLContext, all GLEventListener and the GLAnimatorControl association.
- GLEventListenerState may be utilized to move the state from a dying GLAutoDrawable,
to be moved to a new created GLAutoDrawable at a later time.
- GLEventListenerState will be made public soon.
+++
Exessive unit tests cover the new feature, tested manually on GNU/Linux/X11 and OSX(Java6/Java7).
+++
- GLAutoDrawable
- Change 'setContext(..)' to allow the destruction of the unbound old context:
'setContext(GLContext newCtx)' -> 'setContext(GLContext newCtx, boolean destroyPrevCtx)'
- Implementations: Properly implement 'setRealized(..)' incl. obeying threading constraints if exists.
Method is being utilized at least for GLEventListenerState.moveTo(..)
to unrealize and realize the drawable resources.
+++
Fix propagation of GLContext/GLDrawable association change (Bottom -> Top):
GLDrawableImpl.associateContext
GLContextImpl.associateDrawable
GLContextImpl.makeCurrent
GLContextImpl.destroy
GLContext.setGLDrawable
...
GLDrawableHelper.switchContext
GLAutoDrawble.setContext
associateDrawable(..)/associateContext(..) unifies and hence:
- GLContextImpl.contextRealized() (removed)
- GLDrawableImpl.contextRealized() (removed)
- GLDrawableImpl.associateContext(..) (merged)
- MacOSXCGLContext.drawableChangedNotify(..) (removed)
+++
- EGLUpstreamSurfaceHook.evalUpstreamSurface() validates the surface's device for reusage,
which is valid in case of GLEventListenerState.moveTo(..)
- MacOSXCGLContext.NSOpenGLImpl: pixelFormat replaces NSOpenGLLayerPfmt and has simplified lifecycle [create..destroy],
while native NSOpenGLLayer code only holds the reference until released.
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glFinish() after demo -> FBO rendering on or off thread.
Fixes shared GLContext OSX rendering.
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test ant task.
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AWT-EDT and current thread.
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'frame.pack()' on AWT-EDT - Use dedicated test TestBug572AWT for testing otherwise.
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99a50b38f5650fedca0f207e03706ffa9492e50c
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Due to high fluctuation (lack of normalized) pressure values on Android devices,
an option to query the normalized value and access to the current known maximum pressure is required.
MouseEvent:
- getMaxPressure() returning the [self calibrated] known maximum pressure
- getPressure(..) -> getPressure(.., boolean normalize) (API Change!)
- return normalize ? pressure/maxPressure : pressure;
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Original author: Eric Brayet <[email protected]>
Revised by: Sven Gothel <[email protected]>
I took the freedom to cleanup the three original patches
from https://github.com/Pooouf/jogl.git branch 'bug_677':
- 7449d4726633d524a3bb79efffd04cfd0ca25e58 (removed by followup patch!)
- 68c739a4f03e46deecdbb71c125b4586aec08d63 (removes previous patch!)
- c2813dfc325a1482d18b6fc304e4e483f5633964
Further more I was able to reduce the 'extra' code while utilizing
- Window's isKeyboardVisible() and using keyboardVisibilityChanged(false)
to update the hidden keyboard state.
- Moving the key-handling code to the containing WindowDriver class
avoiding passing a reference to the inner view.
- Using AndroidNewtEventFactory for NEWT KeyEvent creation
+++
- Handle KeyEvent.KEYCODE_BACK w/ jogamp.newt.driver.android.WindowDriver.MSurfaceView.onKeyPreIme(..):
if( soft keyboard is up )
[1] Update keyboard visibility state and return NEWT KeyEvent.VK_KEYBOARD_INVISIBLE;
else
[2] call WindowImpl.windowDestroyNotify(true)
[3] then cont. processing, i.e. return false;
- Turns out respecting WindowClosingMode might be
- too complicated
- interfere w/ Android UI behavior
- AndroidNewtEventFactory
- createKeyEvent
- static
- adding boolean param 'inclSysKeys', if true, KEYCODE_BACK and KEYCODE_HOME are mapped
- Unit tests: GearsES2 + MovieCubeActivity0 shows keyboard if pressure > 0.6f
- pressure on Android shall be between [0..1], however we have to figure out
badly calibrated touchpads/Android device where we could experience
pressure > 2.0f !
- TODO: API documentation of pressure [0..1]
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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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use actual component size while setting min/pref. size at setup
- NEWT/OSX Fix: Child positioning
- If !Offscreen and has-parent: Gather screen location by traversing through parent
and set native position (was removed w/ commit 7d5c51b635e0795d9b170342bdebe8e7e0bbd01d since still buggy).
- NewtCanvasAWT: Change reparent time and use actual component size while setting min/pref. size at setup
- Analog to AWT GLCanvas
- validates and reparents at reshape(..), paint(..) and update(..)
- reshape(..) also trigers jawtWindow.layoutSurfaceLayer()
-
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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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TestGearsES2NewtCanvasSWT); Add more AWT/NEWT layout scenarious.
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- clearKeyboadAndMouse(): Add _testMouseListener.clear(); to clear all logs!
- clearKeyboadAndMouse() after all tests
- use implicit 'clearKeyboadAndMouse()' in execOffThreadWithOnThreadEventDispatch()
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particular Windows-AMD Test Node
- Adding 'waitForVisible' and 'waitForRealized' on the GLAutoDrawable before test
- Adding clearKeyboadAndMouse before test
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KeyEvent handling while distinguish keyCode (kbd layout independent) and keySym (kbd layout dependent)
API Changes:
- Virtual key codes and symbols are of type short.
- KeyEvent.keySymbol() shall return a layout dependent value (Bug 641)
- Method returns former keyCode() value, which was layout dependent.
- Returns 'short' value
- KeyEvent.keyCode() returns a short value, instead of int
- KeyEvent.keyCode() shall return a layout independent value (Bug 641)
- To ease implementation, we only 'require' the scan code to be mapped to a 'US Keyboard layout',
which allows reusing layout dependent code while preserving the goal to have a fixed physical key association
- Implementation status:
- Windows OK
- X11 TODO
- OSX: 50/50 TODO
- Using layout independent 'action keys'
- Using layout dependent 'printable keys'
- returning above semantics for both, keyCode and keySym
- Android 50/50 TODO
- Returning the layout independent keyCode
- Mapping probably incomplete
- KeyEvent.EVENT_KEY_TYPED and KeyListener.keyTyped(KeyEvent) (Bug 688)
- Marked DEPRECATED
- No more called for auto-repeat events
- Synthesized in WindowImpl.consumeKeyEvent(..): No more injection by native- or java driver code
- NEWTEvent.eventType: int -> short
- field, as well as all method involving eventType changed to short.
- NEWTEvent.isSystemEvent: REMOVED
- Never used as well as never being implemented properly
Internal Changes:
- Simplified keyEvent driver code
- Especially the Windows native driver's mapping code
could be simplified using scanCode and MapVirtualKeyEx
- NEWT Event Factories: hashMap -> switch/case
Unit Tests:
-
- Added NewtCanvasAWT Offscreen Layer Tests
important to test the AWT -> NEWT translation on OSX/CALayer:
- TestNewtKeyCodeModifiersAWT
- TestNewtKeyCodesAWT
- TestNewtKeyEventAutoRepeatAWT
- TestNewtKeyEventOrderAWT
- TestNewtKeyPressReleaseUnmaskRepeatAWT
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on Main-Thread.
- Fix Memory Leak
- NewtWindow::dealloc -> [NewtView release]: Fixes NewtView leak
- NewtView::dealloc -> removeTrackingRect: Removes occasional crash (double free of TrackingRect)
- Fix Occasional Crash Duer to Lifecycle Ops not on Main-Thread.
Perform OSX WindowDriver ops on Main-Thread:
- close0
- changeContentView0
- createWindow0
- Cleaned up AddRemove unit tests, added TestAddRemove03GLWindowNEWT
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If !visible, GLCanvas and GLJPanel's paint* and display method shall not render
as the other GLAutoDrawable impl. do (GLWindow, SWT GLCanvas).
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will no more call removeNotify() - see commit 3567e7e8519f82720f98b0b2ac30456cbfeddc0d
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main-thread deadlock'ed due to locked shared context
NSOpenGLLayer::openGLContextForPixelFormat(..) is performed on main-thread at 1st NSOpenGLLayer display method.
This happened irregulary, i.e. sometimes (T0) right after NSOpenGLLayer creation and attachSurfaceLayer()/AddCASublayer(..),
sometimes later (T1).
NSOpenGLLayer::openGLContextForPixelFormat(..) uses the passed shared user context.
The shared user context is locked at NSOpenGLLayer's creation (T0) and if performed at this early time
the call deadlocks due to pthread_mutex wait for the shared user context.
This fix performs NSOpenGLLayer creation and layer attachment while the shared user context
is kept unlocked and enforces NSOpenGLLayer display and hence NSOpenGLLayer::openGLContextForPixelFormat(..).
Added CGL.setNSOpenGLLayerEnabled(..) to enable/disable NSOpenGLLayer - currently not used.
- Passed AddRemove tests for GLCanvas/Swing and GLWindow/NewtCanvasAWT w/ 100 loops on Java6 and Java7 on OSX.
- Passed Instruments Leaks test w/ 10 loops on Java6 and Java7
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Move tests to 'acore'.
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Don't issue removeNotify(), delete drawable and context only!
- Fix Bug 675: NPE w/ Beans.setDesignTime(true)
- Carefully consider Beans.isDesginTime() fixes NPE - added unit test
- Fix GLCanvas.destroy(): Don't issue removeNotify(), delete drawable and context only!
- AWT removeNotify() shall only be issued via AWT itself, not manually
- Add 'destroyImpl(boolean destroyJAWTWindowAndAWTDevice)' to be called by
- GLCanvas.destroy(): destroyImpl( false );
- GLCanvas.removeNotify(): destroyImpl( true );
- Ensures JAWTWindow and AWTDevice are created and destroyed via the AWT callbacks
addNotify() and removeNotify() only.
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'CGL.releaseNSOpenGLLayer' triggers release - but very late w/ AWT usage.
OSXUtil_RemoveCASublayer0's added '[subLayer release]' in commit f6e6fab2a7ddfb5c9b614cb072c27ff697629161
is wrong, since 'CGL.releaseNSOpenGLLayer' actually does trigger it's release.
This was not seen w/ AWT tests, since it happens very later.
A NewtCanvasAWT test disclosed this error -> removed that extra release call.
The culprit for the late release w/ AWT usage was CGL.createNSOpenGLLayer's call in the current thread.
Moving it to the Main-Thread fixed the problem.
All CALayer lifecycle calls are issued on the Main-Thread now.
NSOpenGLLayer's CVDisplayLink OpenGL fitting via 'CVDisplayLinkSetCurrentCGDisplayFromOpenGLContext'
is now performed at it's context creation in 'NSOpenGLLayer::openGLContextForPixelFormat'.
The 'extra' release of the NSOpenGLLayer's NSOpenGLContext as introduced in commit f6e6fab2a7ddfb5c9b614cb072c27ff697629161
is still valid.
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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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pausedIssued); Update TestGLWindows02NEWTAnimated (isPaused())
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b47d0d92dd222999bf38633de1cec8de6a7ad369
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always sent.
This foremost fixes an issue w/ OSX/Java7 and NewtCanvasAWT offscreen CALayer usage,
which utilizes AWTKeyAdapter and AWTNewtEventFactory (AWT -> NEWT) key events.
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KeyEventListener (-> On Windows as well)
The following is observed, where t0 and t1 refer to subsequent different timestamps:
NEWT delivery order:
PRESSED (t0), RELEASED (t1) and TYPED (t1)
WINDOWS delivery order:
PRESSED (t0), TYPED (t0) and RELEASED (t1)
Windows Auto-Repeat:
PRESSED (t0), TYPED (t0)
Hence we changed the event reorder-code in NEWT to trigger NEWT-PRESSED on
Windows-TYPED for printable chars, assuring key-char values on all listener callbacks.
- KeyEvent.getKeyChar(): Removed disclaimer dedicated for Windows
- Keyevent.isActionKey(): Completed for all NEWT non-printable action keys; Added static variant
- Keyevent.isPrintableKey(): NEW: returns !isModifierKey(keyCode) && !isActionKey(keyCode) ; With static variant
- Windows WindowDriver:
- EVENT_KEY_PRESSED handles non-printable chars only
- EVENT_KEY_TYPE handles printable chars only
- Native: VK_DELETE passes keyCode
- Unit tests: Wait for completion 1s -> 2s
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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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