| Commit message (Collapse) | Author | Age | Files | Lines |
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Relocation javax.media.nativewindow.* -> com.jogamp.nativewindow.*
Relocation javax.media.opengl.* -> com.jogamp.opengl.*
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sed -i 's/javax\.media\.opengl/com\.jogamp\.opengl/g' `grep -Rl "javax\.media\.opengl" src`
sed -i 's/javax\.media\.nativewindow/com\.jogamp\.nativewindow/g' `grep -Rl "javax\.media\.nativewindow" src`
sed -i 's/javax\/media\//com\/jogamp\//g' `grep -Rl "javax/media/" src`
sed -i 's/javax\/media\//com\/jogamp\//g' `grep -Rl "javax/media/" doc`
Manually edited all occurences within make/**
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- Use float[2] for pixel-scale.
Utilize simple integer rounding:
int-pixel-units = (int) ( int-window-units * pixel-scale + 0.5f )
- Provide minimum and maximum allowed pixel-scale values
to be set by platform, supporting generic pixel-scale validation.
- Remove 'OSXUtil.GetPixelScale(final RectangleImmutable r, final int[] screenIndexOut)',
implementation for all platforms would cause huge redundancy of
Screen and MonitorDevice code (duplication of NEWT).
- instead, add 'float[2] pixelScale' to NEWT's MonitorDevice
- Detect change of pixel-scale and propagate accordingly.
This allows GLCanvas, GLJPanel and NewtCanvasAWT instances
to be dragged between monitor devices w/ different pixel-scale.
- OSX: Handle native triggered reshape events off-thread to avoid EDT congestion
due to locked window when consuming deferred events on EDT.
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- Bug 1102: GLJPanel.setSurfaceScale(..)
Allow setting non-initialized GLJPanel surface scale.
TODO: More tests and probing before initialization.
- SurfaceSize.hashCode()
Resolution's hash code is already multiplied.
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DirectDataBufferInt/BufferedImageInt
- PixelFormat
Refine definition allowing complete format conversion by its attributes
instead of static 'knowledge'.
- PixelFormat has_a *new* PixelFormat.Composition
- PixelFormat.Composition contains all pixel component layout
information as required for inspection and conversion.
Component names are enumerated via PixelFormat.CType.
- PixelFormatUtil.convert(..) utilizes generic conversion
based on PixelFormat.Composition rather static type mapping.
However, a int32 RGBA static conversion is still supported for performance.
Utilizes Bitstream for varying pixel component bit-width.
- Complete w/ hashCode() and equals(..)
- GLPixelBuffer
- Take 'pack' mode into account when determine GLPixelAttributes,
i.e. on GLES pack=true (e.g. glReadPixel) only RGBA is guaranteed to work.
Hence querying GLPixelAttributes requires the GLProfile, PixelFormat and pack mode.
- Complete GLPixelAttributes conversions from PixelFormat or GL format/data-type,
while taking GL data-type into account, as well as pack-mode.
- Complete w/ hashCode() and equals(..)
- SingletonGLPixelBufferProvider queries singleton GLPixelBuffer via
- PixelFormat.Composition hostPixelComp,
- GLPixelAttributes pixelAttributes,
- boolean pack
which comprise a unique key, allowing the implementation to utilize
a hash map. This is implemented in AWTSingletonGLPixelBufferProvider.
This allows distinct singleton GLPixelBuffer for different
host PixelFormat (conversion) and GLPixelAttributes (depending on GLProfile).
- Removes field 'componentCount' which was 'hacked in' to pass
information about an optional host memory layout.
Implementations utilizing conversion, e.g. AWTGLPixelBuffer,
can implement GLPixelBufferProvider's
'PixelFormat.Composition getHostPixelComp(final GLProfile glp, final int componentCount)'
and manage such implementation details, see use-case GLJPanel.
- DirectDataBufferInt/BufferedImageInt: Expose underlying NIO ByteBuffer
- AWTMisc.createCursor(..) uses DirectDataBufferInt.BufferedImageInt exposed
NIO ByteBuffer, allowing to use generic PixelFormatUtil.convert(..).
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size panel size
This is a regression due to commit 84f367a73c5b16dcebfd877e82e1c2cb90ae74ce:
GLJPanel Cleanup: Remove initial FBO reshape;
** Propagate reshape only if differs from panel-size; ** <- this one
Use pre-fetched panel-size.
Above commit only issued 'sendReshape'
if the reshape-size differs from the actual panel-size.
Note: The reshape-size is propagated to panel-size either in
[1] initializeBackendImpl(..) or
[2] handleReshape(..) @ paintComponent.
While printing w/ an invisible GLJPanel the reshape-size
has not yet propagated to the panel-size (see above)
and two consecutive reshape calls will cause the last one to be dropped.
With this patch we have:
GLJPanel.addNotify()
GLJPanel.reshape.0 null resize [paint] [ this 0x0, pixelScale 1x1, panel 560x420] -> 0x0 * 1x1 -> 0x0, reshapeSize 0x0
GLJPanel.reshape.0 null resize [paint] [ this 560x420, pixelScale 1x1, panel 560x420] -> 560x420 * 1x1 -> 560x420, reshapeSize 560x420
GLJPanel.setupPrint: scale 1.000000 / 1.000000, samples 0, tileSz -1 x -1
GLJPanel.createAndInitializeBackend.1: [printing] 560x420 @ scale 1x1 -> 560x420 @ scale 1x1
A
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regression during print
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initializeBackendImpl()
Commit 84f367a73c5b16dcebfd877e82e1c2cb90ae74ce removed utilization of reshape-size
in case panel-size is valid, even if a reshape event happened in between:
- addNotify
- paintComponent
initializeBackendImpl() includes now uses reshape-size IFF handleReshape is set.
Before it was using reshape-size only if panel-size was invalid.
TestAWT03GLJPanelRecreate01 covers this issue.
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if Offscreen-GLAD Realization throws an Exception (Stability)
- GLDrawableFactoryImpl: createOffscreenDrawable(..) and createDummyAutoDrawable(..)
Temporary catch exception during setRealized(true) of newly created GLDrawable,
to unrealize the instance before propagating the exception.
This handling removes a memory leak in case the exception of this method is handled
and application continues to operate, e.g. as in AWTPrintLifecycle.setupPrint().
The underlying drawable gets unrealized, since it's setRealized(boolean)
implementation toggles its realize-state before delegating the realize-operation.
Hence this is functional.
- AWTPrintLifecycle.setupPrint() Stability
Catch exception thrown by factory.createOffscreenAutoDrawable(..)'s setRealize(true)
to continue operation w/ onscreen GLAD.
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- Fix depth- and stencil bit count selection for attachRenderbuffer(..)
- Add generic values: DEFAULT_BITS, REQUESTED_BITS, CHOSEN_BITS, MAXIMUM_BITS
- Refactor depth- and stencil bit-count -> format into own method
- Allow depth- and stencil bit-count select a higher bit-count if required (fix)
- GLFBODrawable.FBOMODE_USE_DEPTH is deprecated, using GLCapabilities.[get|set]DepthBits(..)
- It was an oversight to introduce the bit flag in the first place,
since we should have used the capabilities depth bit-count
- Graph Test: GLEventListenerButton shall use requested capabilities for FBO drawable.
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resetSamplingSink(..) if required; Fix resetSamplingSink(..), isBound(), ..
- Simplify API (init/reset)
- use new unique methods for init and reset:
- void init(final GL gl, final int newWidth, final int newHeight, final int newSamples)
- does not issue resetSamplingSink(..)
- boolean reset(final GL gl, final int newWidth, final int newHeight, final int newSamples)
- always issues resetSamplingSink(..)
- deprecated dual-use (init/reset):
- boolean reset(final GL gl, final int newWidth, final int newHeight)
- boolean reset(final GL gl, int newWidth, int newHeight, int newSamples, final boolean resetSamplingSink)
- reset(..) no more creates a dummy 'samplingSink' instance if sampling > 0,
left up to resetSamplingSink(..)
- Track 'modified' state of FBObject,
if size, format or any attachment has been changed since last
- use(..)
- syncSamplingSink(..)
- resetSamplingSink(..)
- Only issue resetSamplingSink(..) from syncSamplingSink(..)/use(..)
if 'modified == true'
+++
- Fix setSamplingSink(..), i.e. samplingSink state handling:
- Validated whether given samplingSink is initialized,
throws Exception if not.
- Fix resetSamplingSink(..)
- resets the bound state, i.e. leaves it untouched
- also unbinds the samplingSink
- sampleSinkDepthStencilMismatch() also returns true if
this.depth/stencil == null, but samplingSink is not.
- Newly created colorbuffer/-texture matches
exiting colorbuffer's internal-format, if exists.
- Using simplified resetSizeImpl(..) for size mismatch
- Simplified samplingColorSink init check
- Fix isBound()
was: 'bound = bound && fbName != gl.getBoundFramebuffer(GL.GL_FRAMEBUFFER)'
fix: 'bound = bound && fbName == gl.getBoundFramebuffer(GL.GL_FRAMEBUFFER)'
- Fix detachRenderbuffer(..) validates whether detachment was successful,
similar to detachColorbuffer(..)
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differs from panel-size; Use pre-fetched panel-size.
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Offscreen's GLCapabilitiesImmutable reconfiguration will dispose a realized instance
and issues recreation via initializeBackendImpl() immedietly.
Implementation performs operation on AWT-EDT.
Tests:
- TestGearsES2GLJPanelAWT:
- Toggle MSAA via 'm'
- TestGearsGLJPanelAWT:
- Toggle MSAA via 'm'
- Toggle Bitmap via 'b'
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success - otherwise pause()/.. return value is inconsistent.
Caller of e.g. pause() running on the anim-thread or AWT-EDT (AWTAnimatorImpl)
will be non-blocking.
Before this change, a non-blocking simply did not wait until the 'hold' condition is reached
and returned its negated value.
This ofc is 'false', indicated unsuccessful operation.
Caller use the return value to determine whether the call actually paused (or ..)
the animator. Despite the non-blocking nature, the pause state was set, even if not reached.
Hence a resume() would be required to continue operation after a temporary pause.
+++
This change ignores the non-blocking nature's unmet condition.
finishLifecycleAction() returns !nok || !blocking,
i.e. either true for the reached condition (blocking) or true if non-blocking.
Blocking calls with unmet condition still return false.
+++
In case an animated GLAutoDrawableis being pulled after a non-blocking animator pause() call,
the GLAutoDrawable's implementation thread-safety must ensure proper operation.
+++
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GL2ES3; Better adoption of GLPixelStorageModes (GLJPanel, GLReadBufferUtil, TextureIO)
- Emphasize reset*() is being called when saving modes for 1st modification;
- setUnpackRowLength: GL2ES2 -> GL2ES3; Actually GL2ES3 is required for UNPACK_ROW_LENGTH
- Better adoption of GLPixelStorageModes (GLJPanel, GLReadBufferUtil, TextureIO)
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OSX/Nvidia's FBO needs to be cleared before blitting,
otherwise first MSAA frame lacks antialiasing.
GLFBODrawableImpl.initialize(..) can clear
GL.GL_COLOR_BUFFER_BIT and GL.GL_DEPTH_BUFFER_BIT, if used.
FBObject cannot clear the buffer(s) due to it's low-level API,
i.e. it cannot know when the first bind occurs _after_ user
completed FBO setup (attaching buffers).
Hence plain FBObject usage required manual injection
of glClear(..) after setup as demonstrated in GLJPanel.
We may need to elaborate in this case,
i.e. add an FBObject API entry like 'fbo.postInitNotify()'.
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drawable; Review null checks and synchronization/locking.
'drawable' field of GLContextImpl is mutable via setGLDrawable(..),
which requires high-level locking as documented.
The required high-level locking allows us to _not_ add special
synchronization to this field (and drawableRead).
A simple null-check in makeCurrent() shall be sufficient,
plus ensuring mentioned high-level locking is applied.
GLContextImpl 'drawable' and 'drawableRead' synchronization:
- commit ad79bd072b600a3f2416cc6f0c61e2925000069d check of null drawable is sufficient
- Add GLAutoDrawable upstream-lock locking to:
- AWT GLCanvas setupPrint/releasePrint
- AWT GLJPanel (was missing)
Misc:
- validate shared-context native-surface locking, throw exception if not successful
- pixelDataEvaluated does not need to be synchronized, since it's being called while context is current, locking
- GLDrawableHelper.recreateGLDrawable(..): Remove redundant glFinish() call
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complete notes in all implementations)
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GLAutoDrawable processing [part-3]
Add GLAnimatorControl.UncaughtGLAnimatorExceptionHandler interface to optionally handle
uncaught exception within an animator thread by the user.
Implementation also requires to flush all enqueued GLRunnable instances
via GLAutoDrawable.invoked(..) in case such exception occurs.
Hence 'GLAutoDrawable.flushGLRunnables()' has been added.
Only subsequent exceptions, which cannot be thrown are dumped to System.stderr.
+++
Handling of exceptions during dispose()
Exception in NEWT's disposeGL*() are also caught and re-thrown after
the NEWT window has been destroyed in WindowImpl.destroyAction:
- GLEventListener.dispose(..)
- GLDrawableHelper.disposeAllGLEventListener(..)
- GLDrawableHelper.disposeGL(..)
- GLAutoDrawableBase.destroyImplInLock(..)
- GLWindow.GLLifecycleHook.destroyActionInLock(..)
- WindowImpl.destroyAction on NEWT-EDT
- WindowImpl.destroy
Further more, exceptions occuring in native windowing toolkit triggered destroy()
are ignored:
- GLAutoDrawableBase.defaultWindowDestroyNotifyOp(..)
It has to be seen whether such exception handling for
dispose() shall be added to AWT/SWT.
+++
TestGLException01NEWT covers all GLEventListener exception cases
on-thread and off-thread (via animator).
+++
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GLAutoDrawable processing [part-1]
Implements Specification as described on 'Bug 1039 Comment 1'
<https://jogamp.org/bugzilla/show_bug.cgi?id=1039#c1>
TODO:
- Offthread exception handler
++++
GLDrawableHelper is used in all GLAutoDrawable implementations
and for most operations.
GLAutoDrawable/GLDrawableHelper invoke(..) method:
- invoke(..) forwards a caught exception
- if blocking, it forwards an exception
happening within the passed GLRunnable(s).
Here the exception is caught, printed
and then thrown by invoke itself.
- if non-blocking, an exception
happening within the passed GLRunnable(s)
will be thrown in the thread issuing it's execution,
i.e. display() call.
Here the exception is not caught and simply thrown
by the GLRunnable.
GLAutoDrawable.destroy() -> GLDrawableHelper.disposeGL(..) method:
- disposeAllGLEventListener() being invoked by disposeGL(..),
catches exception thrown by GLEventListener.dispose(..)
and prints them to stderr.
The first caught exception is re-thrown at the end as an GLException.
- disposeGL() catches re-thrown GLException by disposeAllGLEventListener()
for GLEventListener.dispose(..)
and re-throws it when operation is complete.
- disposeGL() catches an exception thrown at context destruction or release
and re-throws it when operation is complete.
An early exception at context.makeCurrent() is _not_ caught,
since it is the first operation which simply shall unwind the stack.
GLAutoDrawable.display() -> GLDrawableHelper.invokeGLImpl(..) method:
- invokeGLImpl(..) for display() follows disposeGL() mechanism, i.e.
it catches exception thrown at
GLEventListener's init(..), reshape(..) and display(..) methods
and re-throws it when operation is complete.
It also catches an exception thrown at context release
and re-throws it when operation is complete.
An early exception at context.makeCurrent() is _not_ caught,
since it is the first operation which simply shall unwind the stack.
++++
None of the above thrown exception shall be caught and suppressed
on the caller side.
If an operation must be completed while an exception is caught,
it shall be cached and re-thrown after the operations.
In case multiple exception at multiple places are caught within
an operation, they all shall be cached and the first one
shall be re-thrown.
In case of multiple exception from the same place,
i.e. a loop through all GLEventListener,
the first shall be cached and re-thrown after operation is completed.
It has to be determined, whether we like to dump the exceptions,
especially the ones who get suppressed in case of multiple exceptions.
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GLDrawableUtil.swapGLContextAndAllGLEventListener is safe: Add Accumulator Buffer bits
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In certain cases, it is required to read the user requested capabilities
from places other than the user code.
Hence adding public method to GLDrawable interface.
This removes the need to cast to private GLDrawableImpl,
which included such method.
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GLDrawableUtil.swapGLContextAndAllGLEventListener is safe (Doesn't work w/ pre MSAA onscreen drawable)
GLDrawableUtil.isSwapGLContextSafe(..) allows user to query whether 'we think' it's safe
to utilize swapping of GLContext between GLAutoDrawable instances.
Currently known unsafe cases are:
- between on- and offscreen and one of the following:
- MSAA involved, or
- STEREO involved
Enhanced unit tests in this regard:
- TestGLContextDrawableSwitch02AWT
- using GLContextDrawableSwitchBase0
- TestGLContextDrawableSwitch02NEWT
- using GLContextDrawableSwitchBase0
Utilized safe query for setupPrint(..) action in:
- AWT GLCanvas
- AWT GLJPanel
- NewtCanvasAWT
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use an FBO TextureAttachment if required
We only require an FBO TextureAttachment if using GLSL vertical flip,
otherwise we simply requires a color renderbuffer.
Further, the 'FBO fboFlipped' in GLSL vertical flip mode also simply requires a color renderbuffer.
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'jogl.debug.GLJPanel.Frames' is defined
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for a Colorbuffer, also make DEPTH optional.
API Change
+++
In certain cases a TextureAttachment for the FBO's color buffer
is not desired, either for performance reasons where texture functionality
is not required or to avoid texture restrictions like size, etc.
+++
GLFBODrawable shall use TextureAttachment for the FBO's color buffer
and a DEPTH buffer per default.
However, the user shall be allowed to use a plain ColorAttachment (renderbuffer)
and also no DEPTH buffer.
+++
FBObject Details:
- Colorbuffer interface exposes Attachment details
like format, size, etc as well as it's implementation
specifics, isTextureAttachment() and getTextureAttachment() allowing a clean cast and type query.
- Allow ColorAttachment to be used for non MSAA
- Make TextureAttachment optional for method 'use(GL, TextureAttachment)'
- Only validate size against MAX_TEXTURESIZE if using a TextureAttachment
- API Change:
- rename: getColorAttachmentCount() -> getColorbufferCount()
- add: getTextureAttachmentCount()
- change 'TextureAttachment getSamplingSink()' -> 'Colorbuffer getSamplingSink()'
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avoiding race conditions.
GLAutoDrawable (API CHANGE) allowing atomic operations:
- Add class API-doc chapter about 'GLAutoDrawable Locking'
- Add method invoke(..) API-doc description about throwing IllegalStateException in case of a detected deadlock situation ahead
(Note: Implemented in GLDrawableHelper.invoke(..) for all implementations)
- Add new methods for proper multithread handling:
- public RecursiveLock getUpstreamLock();
- public boolean isThreadGLCapable();
+++
GLEventListenerState/GLDrawableUtil:
- Perform operation in a atomic fashion,
i.e. lock GLAutoDrawable during whole operations:
- GLDrawableUtil.swapGLContext(..)
- GLDrawableUtil.swapGLContextAndAllGLEventListener(..)
- GLEventListenerState.moveFrom(..)
- GLEventListenerState.moveTo(..)
- ReshapeGLEventListener:
- Moved from GLEventListenerState.ReshapeGLEventListener -> GLDrawableUtil.ReshapeGLEventListener
- Takes 'displayAfterReshape' case into account.
+++
javax.media.opengl.Threading Clarifications:
- Public 'enum Mode', i.e. Threading.Mode
- Public getMode()
- Clarified 'isOpenGLThread()':
- Take 'singleThreaded' into account directly,
i.e. always return 'true' if singleThreaded == false
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Removed Deprecated Class:
- com/jogamp/opengl/util/TGAWriter.java
- Use TextureIO w/ .tga suffix
- com/jogamp/opengl/util/awt/Screenshot.java
- Use:
- com.jogamp.opengl.util.GLReadBufferUtil, or
- com.jogamp.opengl.util.awt.AWTGLReadBufferUtil
The latter for reading into AWT BufferedImage
See: TestBug461FBOSupersamplingSwingAWT, TestBug605FlippedImageAWT
- javax/media/opengl/GLPbuffer.java
- Use:
caps.setPBuffer(true);
final GLAutoDrawable pbuffer = GLDrawableFactory.getFactory( caps.getGLProfile() ).createOffscreenAutoDrawable(null, caps, null, 512, 512);
- See: TestPBufferDeadlockAWT, ..
Removed Deprecated Methods:
- Constructor of AWT-GLCanvas, SWT-GLCanvas, AWT-GLJPanel
with argument 'final GLContext shareWith'
See GLSharedContextSetter, i.e. glCanvas.setSharedContext(..) !
- GLDrawableFactory.createOffscreenAutoDrawable(..)
with argument 'final GLContext shareWith'
See GLSharedContextSetter, i.e. offscreenAutoDrawable.setSharedContext(..) !
- GLDrawableFactory.createGLPbuffer(..),
see above!
- com.jogamp.opengl.util.av.AudioSink 'enqueueData(AudioDataFrame audioDataFrame)',
use 'enqueueData(int, ByteBuffer, int)'
- GLSharedContextSetter.areAllGLEventListenerInitialized(),
migrated to GLAutoDrawable !
- GLBase's
- glGetBoundBuffer(int), use getBoundBuffer(int)
- glGetBufferSize(int), use getBufferStorage(int).getSize()
- glIsVBOArrayBound(), use isVBOArrayBound()
- glIsVBOElementArrayBound(), use isVBOElementArrayBound()
- NEWT MouseEvent.BUTTON_NUMBER, use BUTTON_COUNT
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or due branching)
- AWT TextRenderer: Add throw new InternalError("fontRenderContext never initialized!"); FIXME!
- GLContextImpl.hasFBOImpl(): Fix serious NPE issue if extCache is null
- GLDrawableFactoryImpl.createOffscreenDrawableImpl(..):
- Fix NPE issue w/ null drawable
- Fix resetting GammaRamp by ensuring originalGammaRamp will be set at 1st setGammaRamp(..)
- AndroidGLMediaPlayerAPI14: Fix NPE: Use already resolved local referenced
- EGLDrawableFactory: Fix NPE: Only operate on non null surface!
- ALAudioSink.dequeueBuffer(..): Only resolve releasedBuffer elements if not null
-
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c47bc86ae2ee268a1f38c5580d11f93d7f8d6e74)
- Change non static accesses to static members using declaring type
- Change indirect accesses to static members to direct accesses (accesses through subtypes)
- Add final modifier to private fields
- Add final modifier to method parameters
- Add final modifier to local variables
- Remove unnecessary casts
- Remove unnecessary '$NON-NLS$' tags
- Remove trailing white spaces on all lines
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41190c3830157abdf9649cbf7767e57108f55075 (Bug 975)
Commit 41190c3830157abdf9649cbf7767e57108f55075,
fix for 'Bug 975 GLJPanel's OffscreenDrawable double swap',
caused a regression of commit c427ed22244df44b71a0f1f000b0f93e56c283c2,
fix for 'Bug 826: GLJPanel: Fully restore TextureState and Viewport'.
Commit 41190c3830157abdf9649cbf7767e57108f55075 issues offscreenDrawable.swapBuffers()
and hence modifying the texture unit settings before saving the TextureState,
the whole purpose of commit c427ed22244df44b71a0f1f000b0f93e56c283c2.
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surface DPI ; Add NEWT Window.getPixelsPerMM(..) to query surface DPI
With HiDPI and surface scale, we need knowledge of the native surface's pixel-scale
matching the monitor's pixel-per-millimeter value.
Preserving the queried native pixel-scale and exposing it via
ScalableSurface.getNativeSurfaceScale(..) to compute surface DPI.
Add NEWT Window.getPixelsPerMM(..) to query surface DPI.
Surface DPI is demonstrated in GraphUI's GPUUISceneGLListener0A .. and TestRulerNEWT01, etc ..
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entry, fixed NewtCanvasAWT use-case
We require the requested pixelScale in NewtCanvasAWT if the NEWT window (child)
is not yet realized, so the JAWTWindow can receive the request,
since realized/current pixelScale is still 1.
Remove return value (requested pixel scale):
- public int[] setSurfaceScale(final int[] result, final int[] pixelScale);
+ public void setSurfaceScale(final int[] pixelScale);
Add API hook to query requested pixel scale:
+ int[] getRequestedSurfaceScale(final int[] result);
Unique name for get[Current]*:
- public int[] getSurfaceScale(final int[] result);
+ public int[] getCurrentSurfaceScale(final int[] result);
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which also fixed JAWTWindow getSurfaceScale() issue on Windows
Let setSurfaceScale(..) return the validated requested values
and getSurfaceScale(..) always the current values.
This removes complication and solves a bug w/ JAWTWindow on Windows,
where we used 'drawable' as an indicator for 'previous locked' state.
The latter is not true since on Windows 'drawable' is set to null in unlock,
getWindowHandle() should be taken instead.
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OSX impl.
Add ScalableSurface interface
- To set pixelScale before and after realization
- To get pixelScale
- Implemented on:
- NEWT Window
- Generic impl. in WindowImpl
- OSX WindowDriver impl.
- Also propagetes pixelScale to parent JAWTWindow if offscreen (NewtCanvasAWT)
- AWT WindowDriver impl.
- JAWTWindow / OSXCalayer
- AWT GLCanvas
- AWT GLJPanel
- NEWTCanvasAWT:
- Propagates NEWT Window's pixelScale to underlying JAWTWindow
- WrappedSurface for pixelScale propagation
using offscreen drawables, i.e. GLJPanel
- Generic helper in SurfaceScaleUtils (nativewindow package)
- Fully implemented on OSX
- Capable to switch pixelScale before realization,
i.e. native-creation, as well as on-the-fly.
- Impl. uses int[2] for pixelScale to support
non-uniform scale.
Test cases:
- com.jogamp.opengl.test.junit.jogl.demos.es2.newt.TestGearsES2NEWT
- com.jogamp.opengl.test.junit.jogl.demos.es2.awt.TestGearsES2AWT
- com.jogamp.opengl.test.junit.jogl.demos.es2.awt.TestGearsES2GLJPanelAWT
- com.jogamp.opengl.test.junit.jogl.demos.es2.newt.TestGearsES2NewtCanvasAWT
- Press 'x' to toggle HiDPI
- Commandline '-pixelScale <value>'
- Added basic auto unit test (setting pre-realization)
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Remove GLES3Impl.glPixelStorei pname validation which was true for ES2 impl,
but is no more valid for ES3, which accepts more values than
GL_PACK_ALIGNMENT & GL_UNPACK_ALIGNMENT.
Revalidate GLPixelStorageModes:
- Properly support ES3 PixelStorageModes
- Revalidate PixelStorageModes for all GL profiles
- Properly reset values at save
- Separate PACK and UNPACK save/reset/restore implementation
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NEWT Support / Fix JAWT getPixelScale deadlock
- NativeWindow/Surface/NEWT API DOC: Define Coordinate System of Window and Screen
- OSXUtil: Add getPixelScale(..) via Screen index and 'windowOrView'
- JAWTWindow/JAWTUtil.getPixelScale(..): Use pre-fetched AWT GraphicsConfiguration to solve AWT-TreeLock (deadlock)
- [Virtual] Viewport of MonitorDevice and Screen:
- Properly calculate and expose [virtual] viewport in window and pixel units
- OSX Monitor viewports in pixel units are 'reconstructed'
- Window/Viewport to Monitor selection shall be perfomed via window units (unique)
- OSX NEWT Window create/init (native): Use given size and coordinates even in fullscreen mode
Don't override by quering NSScreen coordinates, trust given values.
- Fix test cases, i.e. usage of pixel- and window-units
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Refine commit f9a00b91dcd146c72a50237b62270f33bd0da98e
- Using comment tag 'FIXME HiDPI' to locate remaining issues
- Fix remaining 'getPixel*(..)' -> 'getSurface*(..)'
- UpstreamSurfaceHook
- Fix usage (one by one) of
- NativeWindow: getWindowWidth() / getWindowHeight()
- NativeSurface/GLDrawable: getSurfaceWidth() / getSurfaceHeight()
- mention window- or pixel units in API doc where required
- use 'setSurfaceSize(..)' where appropriate to match 'getSurface*()'
- GLFBODrawable
- GLOffscreenAutoDrawable
- UpstreamSurfaceHook.MutableSize
- NativeWindow's Point: Add API doc and 'Point scaleInv(..)'
- NativeSurface
Simplify new conversion methods and use single in-place storage
- 'int[] getWindowUnitXY(int[], int[])' -> 'int[] convertToWindowUnits(int[], int[])'
- 'int[] getPixelUnitXY(int[], int[])' -> 'int[] convertToPixelUnits(int[], int[])'
- NEWT Screen/Monitor
- Assume screen/window units
- TODO: Refine semantics - Monitor resolution probably is in pixel units ?!
- Including the Rectangle/Monitor association etc etc
- NEWT Window
- Add setSurfaceSize(..) for convenience
- Add 'Point convertToWindowUnits(final Point pixelUnitsAndResult)', etc ..
- All window ops are using window units (size, pos, ..),
but methods operating on the surface/drawable: windowRepaint(..) ..
- TODO: Consider changing method names 'window*(..)' to 'surface*(..)'
actually operating on surface/drawable
- Window.windowRepaint(..)
- GLAutoDrawableDelegate.windowResizedOp(..) (maybe all similar methods in here)
- NEWT Mouse/Pointer Events
- Using pixel units
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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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fixing AWTPrintLifecycle DPI evaluation
We also have to re-validating AWTPrintLifecycle's DPI semantics,
since we currently are based on pixel dimension w/ 72 dpi!
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(which disables print if !isShowing())
Commit 071bdd6ce9f8c41ccecdbf8bc74f276ccd7ff651
uses 'isShowing' state to determine whether to display or not.
It also uses 'isShowing' instead of 'isVisible' for printing,
which is a regression, since not showing elements offscreen shall be able to be printed.
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mechanism ; Refined API doc getDefaultReadBuffer() ; Add GLDrawableUtil.swapBuffersBeforeRead(..)
Commit 82f679b064784213591b460fc5eaa1f5f196fbd1 which introduces the default swap-buffers
mechanism is erroneous:
The OffscreenBack backend requires the following operation order:
Order-1:
[1] - GL display
[2] - GL swapBuffers (always due to single-buffer non-MSAA or MSAA offscreen drawable)
[3] - readPixels
+++
Commit 82f679b064784213591b460fc5eaa1f5f196fbd1 however introduced:
Order-2:
[a] - GL display
[b] - readPixels
[c] - GL swapBuffers (always due to single-buffer non-MSAA or MSAA offscreen drawable)
since [a] and [b] happened in Updater's display method, and [c] followed the same
triggered by GLAutoDrawableHelper.
+++
The proof, commit d46d9ad8f998a7128d9f023294d5f489673d6d8a, is faulty,
since it always included the 'snapshot' GL event listener
which turned-off auto-swap and swapped before read-pixels.
TL;DR it enforced proper Order-1.
+++
This fix allows the Backend to intercept disable GLDrawableHelper's setAutoSwapBufferMode(..)
and perform the auto-swap mode itself in the proper Order-1.
The unit test has been refined to optionally disable the snapshot
to validate auto-swap mode.
+++
Refined GLBase and GLContext's API doc for 'getDefaultReadBuffer()'
+++
Add GLDrawableUtil.swapBuffersBeforeRead(..)
and reuse it for TileRendererBase (original impl.).
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auto-swap mechanims
Refines commit 908ebd99d1eb57ce773a1fdd67c76886da86b9e6
Note that the test case decide whether to auto-swap (after read-pixels)
or not auto-swap (manual swap before read-pixels).
See UITestCase.swapBuffersBeforeRead(GLCapabilitiesImmutable chosenCaps):
Determines whether the chosen GLCapabilitiesImmutable requires a swap-buffers before reading pixels.
Usually one uses the default-read-buffer, i.e. GL.GL_FRONT for single-buffer
and GL.GL_BACK for double-buffer GLDrawables
and GL.GL_COLOR_ATTACHMENT0 for offscreen framebuffer objects.
Here swap-buffers shall happen after calling reading pixels, the default.
However, multisampling offscreen GLFBODrawables utilize swap-buffers to downsample
the multisamples into the readable sampling sink.
In this case, we require a swap-buffers before reading pixels.
Returns: chosenCaps.isFBO() && chosenCaps.getSampleBuffers()
+++
- GLJPanel:
- Remove SurfaceUpdatedListener mechanism in favor of
default auto-swap-buffer via GLDrawableHelper.
This removes complexity.
- postGL does not need to perform explicit swapBuffer operation,
but rely on GLDrawableHelper and the default mechanism.
This is also compatible w/ J2D backend.
- Use GLDrawableHelper for setAutoSwapBufferMode(..) and getAutoSwapBufferMode()
+++
UnitTests:
- UITestCase:
- Add 'boolean swapBuffersBeforeRead(GLCapabilitiesImmutable chosenCaps)'
to determine whether swapBuffers() must occure before read-pixels. See above.
- GLReadBuffer00Base*
- remove explicit addSnapshotGLEL/removeSnapshotGLEL
- add TextRendererGLEL, to display frame-count and -dimension
- SnapshotGLEL*
- simply toggle auto-swap in their init(..) and dispose(..) method!
- clear back-buffer if 'swapBuffersBeforeRead'
to test whether the right buffer is being used for read-pixels.
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GLEventListener using [AWT]GLReadBufferUtil)
When utilizing [AWT]GLReadBufferUtil it is usually desired to read from the front-buffer
instead the back-buffer. The latter may not be defined, e.g. when using MSAA.
A GLEventListener utilizing [AWT]GLReadBufferUtil,
must perform the drawable.swapBuffers() to be able to read from the front-buffer.
Usually GLAutoDrawable.setAutoSwapBuffer(false) should be called here,
to avoid a double swap - however GLJPanel does not support toggling auto-swap
since it requires to control swap for it's own read-pixels.
Remedy for GLJPanel:
- GLJPanel issues helper.setAutoSwapBufferMode(false) - immutable
- Enable GLJPanel.swapBuffer() if initializes
This was previously disabled.
- GLJPanel's OffscreenBackend listens to surfaceUpdated,
to be notified whether postGL needs to swap buffer
or the drawable.swapBuffer() was already called between preGL and postGL.
See unit tests adding/removing a snapshot GLEventListener
performing swapBuffers() and setting auto-swap accordingly.
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block until all master's GLEventListener.init(..) methods have been called
Better shared GLAutoDrawable synchronization.
Block slave instances to also block until all master's GLEventListener.init(..) methods have been called
- GLSharedContextSetter: Add areAllGLEventListenerInitialized()
- GLCanvas (SWT, AWT)
- GLJPanel
- GLAutoDrawableBase (GLWindow, ..)
- GLDrawableHelper's isSharedGLContextPending(..)
takes 'areAllGLEventListenerInitialized()' into consideration
allowing to block the slave creation until master is completed.
This solves teh use case, where the master creates resources in it's
GLEventListener initialization (buffers), which are shared with
it's slaves.
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Simplify JAWTComponentListener's HierarchyListener:
- Don't interfere w/ Component's visibility anymore!
This shall reduce sideeffects.
Utilize 'isShowing' in each Component specialization, i.e. GLCanvas.
- On SHOWING_CHANGED if a parent caused a change
of the tracked components showing state,
propagate it to the offscreen-layer!
- Remove all other complicated states!
GLCanvas, GLJPanel:
- Instead of 'isVisible()' use 'showing state',
since only the 'showing state' reflects 'true' visibility
throughout the hierarchy.
- Add HierarchyListener and track volatile showing state
to be used instead of 'isVisible'.
Using a cached showing state is more efficient
than quering 'isShowing()' all the time!
NewtCanvasAWT:
- Use 'isShowing()' instead of 'isVisible(), see above
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considered in AWTTilePainter: 'Origin of GL image is still on Bottom'
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