| Commit message (Collapse) | Author | Age | Files | Lines |
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Added screen rotation change capability with impl for X11 (using Xrandr)
com.jogamp.newt.Screen: added 2 methods which cover screen roation lifecycle
setScreenRotation(int rot): Change the Screen Rotation to
one of the rotations defined in ScreenMode, namely:
ROTATE_0, ROTATE_90, ROTATE_180, ROTATE_270
int getCurrentScreenRotation(): Get the Current screen rotation
returns -1 if not implemented natively.
+++++++++++++++++++++++++
Notes:
1- At init the original rotation is called natively and cached,
when screen is destroyed the rotation is reverted.
2- On X11 with Nvidia: you need to edit /etc/X11/xorg.conf:
Add the following line:
Option "RandRRotation" "on"
in Section "Device" after BoardName.
+++++++++++++++
Added TestScreenMode02NEWT which includes 4 tests
1- Rotate 90
2- Rotate 180
3- Rotate 270
4- Rotate with screen mode change
should fail if screen rotation not implemented natively.
(4) withh fail if screen mode not impl natively as well.
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Added screen mode change capability with impl for X11 (using Xrandr)
com.jogamp.newt.Screen: added 4 methods which cover screen mode lifecycle
ScreenMode[] getScreenModes(): Get list of available screen modes
returns null if not natively implemented. On first call
will fetch the list thru a set of native calls and stores them
in the ScreenModeState. Consequent calls will retreive the data
from the ScreenModeStatus object. Native calls are done on creation stage,
so subsequent API calls will return cached data.
int getDesktopScreenModeIndex(): Get the Current Desktop Screen mode index
returns -1 if functionality not natively implemented. The index
returned refers to the screen mode location in the ScreenMode array.
Used to get initial mode for reverting back. Initial call will retreive the
mode thru a native call (done on initialization), subsequent API calls will retreive it
from the ScreenModeStatus object.
Note: If Window is closed without reverting back and screen is set to unreachable.
The api will revert the screen. A call to destoy(unreachable) is needed
for revert to take place on close
windowDestroyNotify(WindowEvent e) {
...
window.destroy(true);
}
short getCurrentScreenRate(): Get the current screen rate
returns -1 if not natively implemented. Used along with getDesktopScreenModeIndex
You can identify the current screen mode (w x h) and the rate. Initial call will retreive the
mode thru a native call (done on initialization), subsequent API calls will retreive it
from the ScreenModeStatus object.
void setScreenMode(int modeIndex, short rate): change the screen mode
to the mode index which refers to one of the screen modes retreived by getScreenModes()
and a rate which can be one of screenModes.getRates(). If the rate provided doesnt belong
to the list of available rates the first rate is chosen.
build-newt.xml: Added header files generation for Screen and Display
Added Xrandr syslink to x11 based builds.
+++++++++++++
Fullscreen for X11Window:
Added Fullscreen WM Hint for X11Window. Event of Fullscreen is
sent to the display root. When changing to fullscreen the request is send
after configuring the window otherwize before decoration.
Not Stable yet, needs tweeking on other Linux dist. Window looses focus
after switching to fullscreen mode.
+++++++++++++++
Added TestScreenMode01NEWT which includes 4 tests
1- Fullscreen change mode
2- Screen mode change
3- Screen change with fullscreen (revert screenmode then revert fullscreen)
4- Screen change with fullscreen (revert fullscreen then revert screenmode)
should fail if not screenmode not implemented on platform.
+++++++++++++++
Cleaned up some unused imports
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Changed GLProfile/NativeWindowFactory/.. initialization methodology:
GLProfile:
public static synchronized void initSingleton(final boolean firstUIActionOnProcess);
NativeWindowFactory:
public static synchronized void initSingleton(final boolean firstUIActionOnProcess);
+++
Introducing NativeWindow ToolkitLock, implementations are
NullToolkitLock
JAWTToolkitLock
X11JAWTToolkitLock
X11ToolkitLock
AbstractGraphicsDevice provides generic global toolkit locking methods,
implemented by the ToolkitLock interface.
ToolkitLock's are aggregated in NativeWindow's DefaultGraphicsDevice
to implement it's superclass lock()/unlock() methods.
This enables a device specific locking strategy, ie on X11/AWT utilizing
JAWT && X11 locking, and maybe none for others (NEWT).
No locking is required for X11 / AWT, in case the above mentioned
initialization happened as a 'firstUIActionOnProcess'.
The ToolkitLock factory is currently a hardcoded part of NativeWindowFactory.
We may have to allow 3rd party NativeWindow implementations
to register custom ones.
+++
com.jogamp.opengl.impl.GLDrawableImpl cleanup:
Dealing with all locking code, providing all public methods. Exceptions are commented.
Specializations x11/windows/.. only contains platform code.
Pulled down access qualifiers if possible public -> protected.
com.jogamp.nativewindow.impl.x11.X11Util
Wrapping all X11Lib method with the new locking code.
com.jogamp.nativewindow.impl.jawt.JAWTUtil
Utilize global SunToolkit.awtLock() is available,
the fallback to global JAWT.lock().
The latter just invokes the first.
javax.media.nativewindow.awt.AWTGraphicsDevice
setHandle(long handle) -> setSubType(String type, long handle)
which also resets the ToolkitLock respecting the new type.
This ensures correct locking after the sub type has been determined,
ie AWT using an X11 peer.
+++
Misc Changes done on the way ..
GLCanvas:
Fixed inversed this.drawableHelper.isExternalAnimatorAnimating() condition,
which disabled normal repaint.
GLJPanel:
Removed drawableHelper.isExternalAnimatorAnimating() condition,
which disabled painting, since the animation thread just updates the source image.
NEWT WindowImpl:
When reparenting back to parent and 'refit' child if it's size exceeds it's parent.
More 'Fix: Memory consumption' commit 6ced17f0325d5719e992b246ffd156e5b39694b4.
NEWTEvent:
Removed code to evaluate the 'system event' attribute, need to find a better approach.
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Observing memory consumption showed:
1 - 'traceLock' debug stack traces (GLContextLock)
2 - massive Iterator usage
(1) is fixed, ie only enabled in DEBUG mode, like we have done in RecursiveLock before
(2) Using an Iterator on ArrayLists with a low element count < 100,
as it is usual in our use cases, is observed not to be faster
than accessing the elements via an index (-> TestIteratorIndexCORE.java ).
On the contrary, the index implementation was a bit faster.
Further more, these Iterators were massively used on the fly during animation,
hence their memory managment even impacts fluent processing/animation.
Recoded all animation related (display, surfaceUpdated, ..) loops using an index.
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(ConcurrentModificationException) - 2 - Use volatile barrier
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pending creation
NEWT/AWT: TestParenting03AWT use Container and add delay in addNotify(2nd-gl-element);
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& WindowImpl debug change ; Add NEWT/AWT unit test 1 frame - 2 NewtCanvasAWT
Relocated RecursiveToolkitLock -> gluegen
com.jogamp.nativewindow.impl.RecursiveToolkitLock -> com.jogamp.common.util.RecursiveToolkitLock
NEWT AWTParentWindowAdapter fix
- minimize action if status unchanged
- added missing isValid() condition before runOnEDT..
NEWT WindowImpl:
- debug output only if action triggered (resize/visible)
Add NEWT/AWT unit test 1 frame - 2 NewtCanvasAWT
- Testing case where AWTParentWindowAdapter provokes both
GLWindow instances to resize/visible
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Fix: JOGL GLContextLock starvation
- Apply changes made in RecursiveToolkitLock (c8a9c59e4838cd43090378a7ed60544449472801),
ie notifyAll() -> notify(), plus sync (flow/mem) usage.
Fix: Tighten NEWT/AWT focus unit tests
- AWTRobotUtil.requestFocusAndWait() waits for EventCountAdapter gain and lost focus as well.
- In case of NewtCanvasAWT, additionally wait for it's lost focus
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- Added reset() to EventCountAdapter, to ensure a unqiue start state
- Removed 'lost focus' assertion, since this event might be pending
and we don't poll on it or have a barrier
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Fix: NativeWindow RecursiveToolkitLock
- Use notify(), instead of notifyAll(), so only one thread is being awakened
for the single resource. Otherwise starvation and timeout happen, since
the oldest thread might not get waken up (earlier than other threads) within timeout.
- Inner class for all synchronized (flow/mem) fields for easier fine grained sync/lock.
Fix: GLWindow lockSurface/unlockSurface
- Enter locked surface block only if surface lock could be acquired
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NativeWindow/NativeSurface Refactoring
- Using NativeSurface interface
- NativeWindow extends NativeSurface, adds getLocationOnScreen(Point)
- NativeWindow add: getParent()
- NativeWindow/Surface: Removed 'invalidate()', use 'destroy()' if you must.
- NullWindow -> ProxySurface impl NativeSurface
- JOGL: Uses NativeSurface only.
- GLDrawable.getNativeWindow() -> GLDrawable.getNativeSurface()
Added mouseClick NEWT/AWT unit test
JOGL:
- GLAnimatorControl add: resetCounter()
-
NEWT:
- GLWindow counters: return GLWindow counters always
- WindowImpl
- requestFocus() wait until done
- reparent: readded requestFocusImpl(true),
native impl skips java focusAction if reparented
- X11Window: Add XRaiseWindow() in requestFocus()
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BeforeClass/AfterClass FileLock
Due to the fact that any test with a UI may interfere
with a UI test (test focus, active, ..), all tests are
derived from the common UITestCase superclass, which
decorates the test class with a FileLock at BeforeClass/AfterClass.
Increased junit timeout to 10 min
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otherwise multiple parallel tests will render the result invalid
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temp loss) - instead test focus with key input.
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on an AWT device. Wait until TO or event received.
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- Window add focus tracking and query via hasFocus()
- TestTransformFeedbackVeryingsBug407NEWT allow fail if no GL3 is available
- TestFocus01SwingAWT check on NEWTChild focus
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destroy() ; DisplayImpl: refCount reset
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Test: Add parallel NEWT animation.
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GLCanvas NPE fix - NewtCanvasAWT added destroy(..)
Unit test for Bug 411 (Pre AWT/Swing Usage, Mixed usage with JOGL):
Added exhausting Pre AWT/Swing usage test utilizing a later JOGL init
with GLCanvas and NEWTCanvasAWT.
This works for NV+X11+Ubuntu+64bit, have to do more testing.
GLCanvas NPE fix at destroy/dispose, check if already destroyed, ie context==null
NewtCanvasAWT: Add destroy() and destroy(boolean unrecoverable)
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- Adapted tests to API changes
- Notably new Display lifecycle / Reparenting tests:
- TestDisplayLifecycle01NEWT - Tests display lifecycle
- TestParenting01NEWT - Tests various reparenting cases (native/recreate)
- TestParenting01bAWT - Tests Animator/FPSAnimator with reparenting (AWT/Newt)
- Other changes:
- TestGearsNEWT: Added 'on-the-fly' KeyAdapter
inducing a GLRunnable into the GLWindow for fullscreen toggle.
-
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Window Reparenting (unification):
On the fly Display/Screen creation resides in NewtFactory.
Reparenting logic within Window.
Handles all reparenting cases now:
ACTION_NONE, ACTION_SOFT_REPARENTING,
ACTION_NATIVE_REPARENTING, ACTION_NATIVE_CREATION
- out.println -> err.println
++++
- Bumbed windows bat scripts to 1.6.0_21 and ant 1.8.1
- Debug: /RecursiveToolkitLock.java TO is 300s for now, while not finished.
-
+++
Needs more testing. Deadlocks: AWT/NEWT parenting.
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is redundant due to COPYRIGHT notice in LICENSE.txt.
It's product usage terms are no more applicable,
since our repository is not used by Sun Microsystems to deliver a product.
LICENSE.txt changes:
- Updated SGI FreeB license reference from 1.1 to 2.0
- Dropped Sun alternative license, which is redundant
due to the FreeB 2.0 license.
- Added JogAmp Community and common denominator:
New BSD 3-clause license
README:
- Added contacts
- Sun -> JogAmp
- Added Michael Bien
Changed 'Sven Gothel' and 'Michael Bien' New BSD 3-clause license
to 'JogAmp Community' Simplified BSD 2-clause license.
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Display/Screen:
- Removed Display reusage by unique TLS key: type + name,
instead use user-responsibility or Destroy-When-Unused (usage reference count).
- Removed X11 Display TLS pool usage
- Display creation means i, incl the later native one (X11).
- Added reference counting as follows:
- Display's refCount: number it is referenced by Screen:
display.addReference()/display.removeReference()
- Screen's refCount: number it is referenced by Window:
screen.addReference()/screen.removeReference()
- Lazy creation using refcount 0 -> 1
All resources are created when they are needed.
This also removes redundant native Display/Screen objects,
ie in case of [AWT] reparenting.
- Default lifecycle is user-responsibility, ie no Destroy-When-Unused, where
Window may be destroyed unrecoverable, which removes the Screen reference only.
- If using optional Destroy-When-Unused a
Window may be destroyed unrecoverable, which removes the Screen reference:
Screen.removeReference();
IF Screen.refCount == 0 THEN
Screen.destroy();
Display.removeReference();
IF Display.refCount == 0 THEN
Display.destroy();
- Use Destroy-When-Unused lifecycle for all automatic created Display/Screen
instances (GLWindow, NewtCanvasAWT,..)
- Display/Screen destroy/create cycles valid,
ie you can reuse destroyed Display/Screen's
- EDTUtil:
- Created right away.
- Started always via invoke, if not running.
- DefaultEDTUtil:
- Simplified locking a bit locking on:
- edtLock for start/stop
- edtTasks for tasks queue
- invoke-wait doubles check shouldStop
- invoke-wait 'waiting' outside of edtLock
+++
NEWT: Cleanup
- Window.destroy/invalidate: deep -> unrecoverable
- Window.isNativeWindowValid() -> Window.isNativeValid()
to unify with Display/Screen
- Window.isDestroyed() -> Window.isValid()
to unify and simplify logic.
Returns false if destroy(true) has been called.
- NewtFactory.wrapDisplay(.. handle) -> NewtFactory.createDisplay(.. handle),
since it actually creates a compatible display.
+++
NativeWindow X11Util: Added non TLS createDisplay()/closeDisplay()
+++
TODO:
- Stabilize (many tests fail)
- OSX
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Issueing 'requestFocus' via the native EDT dispatch loop may cause a deadlock,
due to a possible implicite AWT requestFocus call (NewtCanvasAWT).
Approach:
RequestFocus issued directly,
by Window.requestFocus() and the native EDT dispatch loop,
is queued for later execution by EDT.
This shall decouple a possible native windowing TK resource collision.
- X11Windows.c: Add missing 'reparented' param for requestFocus
to force requestFocus after reparenting.
- AWTWindow.java: Add requestFocusImpl()
+++
NEWT: Cleanup
- Remove Event Type Bits in:
- EventListener.h
- NEWTEventListener.java
- Remove InputEvent 'consume' status
-
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reparenting
Set _NET_WM_WINDOW_TYPE to specify decoration etc.
On KDE4 having compositing enabled the reparent window is sometimes
made invisible (UnmapWindow happened). FIXME.
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native repaint; NewtCanvasAWT focus fix
Support for native repaint, which shall call display() in case no animator is running.
GLAutoDrawable invoke(GLRunnable) impl. handles case if invoked on animator thread,
or no animator thread is running (issueing a display() call).
The impl resides in GLDrawableHelper.
GLEventListener's init() and glViewport()/reshape() method must be called before the 1st display()
and after a dispose() call. It could miss the 1st display() call if added
after the setVisible(true) call - due to the native repainting.
The impl resides in GLDrawableHelper.
The Animator un-/registers itself at the GLAutoDrawable via setAnimator.
NEWT Window reparent always issues a resize() and display() call.
NEWT native Window uses direct send.*Event for input events (again),
instead of enqueueing it for performance.
NEWT Window implements all status change and Java native event callbacks,
instead of having duplicated code in all implementations.
NewtCanvasAWT if the Newt window is focused, the AWT/Swing component[s] will loose the focus.
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native repaint; NewtCanvasAWT focus fix
Support for native repaint, which shall call display() in case no animator is running.
GLAutoDrawable invoke(GLRunnable) impl. handles case if invoked on animator thread,
or no animator thread is running (issueing a display() call).
The impl resides in GLDrawableHelper.
GLEventListener's init() and glViewport()/reshape() method must be called before the 1st display()
and after a dispose() call. It could miss the 1st display() call if added
after the setVisible(true) call - due to the native repainting.
The impl resides in GLDrawableHelper.
The Animator un-/registers itself at the GLAutoDrawable via setAnimator.
NEWT Window reparent always issues a resize() and display() call.
NEWT native Window uses direct send.*Event for input events (again),
instead of enqueueing it for performance.
NEWT Window implements all status change and Java native event callbacks,
instead of having duplicated code in all implementations.
NewtCanvasAWT if the Newt window is focused, the AWT/Swing component[s] will loose the focus.
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- Add: 'public void addGLEventListener(int index, GLEventListener listener)'
Fixes previous GLWindow addition, ie public in interface and common impl. behavior.
- Add: 'public void invoke(boolean wait, GLRunnable glRunnable)'
- Change: 'public void display()' semantics, in regards to the GLRunnable queue
New: GLRunnable, invoke() at GLAutoDrawable
Allows injection of GL commands from other threads, executed after the
GLEventListener's display() notifyier by the GLAutoDrawable.
NEWT:
- Fix EDTUTil.invokeAndWait() and Display.enqueueAndWait() impl.,
where we only wait for the single action/event to be processed now.
JUnit: NEWT Parenting
- Added test cases for Swing (JFrame, JPanel and COntainer) with NewtCanvasAWT
- Added thread calling 'invoke(true, GLRunnable)'
- start Animator ASAP
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