| Commit message (Collapse) | Author | Age | Files | Lines |
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EGLUpstreamSurfaceHook) to generalize ProxySurfaceImpl.getUpstreamSurface()
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NativeWindow; [AWT|SWT]NewtEventFactory use NativeSurfaceHolder as source, fixes pixel unit conversion
- Add new NativeSurfaceHolder interface to GLDrawable and NativeWindow, allowing NativeSurface access (pixel unit conversion)
A NativeSurfaceHolder is e.g.:
- NativeWindow (is-a)
- NEWT [GL]Window
- GLDrawable (has-a)
- [AWT|SWT]GLCanvas
- [AWT|SWT]NewtEventFactory use NativeSurfaceHolder as source, fixes pixel unit conversion
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API doc
Simplify event processing of NEWT's AWTAdapter:
- enqueueEvent -> processEvent
- add return value (new enum) determinating action
Using processEvent(..) now reduces manual invocation of NEWT Window.enqeueEvent(..).
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AWTNewtEventFactory of commit 8b255eb303bba045b4eb087da1d1cb33b2e89e96
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dpi), add all modes to applet test-page
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AWTNewtEventFactory (e.g. for NewtCanvasAWT)
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56d60b36798fa8dae48bf2aa5e2de6f3178ab0d1
Fix regression of commit 56d60b36798fa8dae48bf2aa5e2de6f3178ab0d1:
createWindow(..) was issuing sizeChanged(..) to ensure size notification,
however - the offscreen case used the dummy size 64x64.
Fix issues the notifications in caller w/ true size.
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'Rotated Viewport window-units' / Refine API doc in MonitorModeProps
Regression of commit 56d60b36798fa8dae48bf2aa5e2de6f3178ab0d1
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NativeWindow, i.e. getWindow[Width|Height]() -> get[Width|Height]()
We have distinguished pixel- and window units in commit f9a00b91dcd146c72a50237b62270f33bd0da98e
and introduced NativeWindow.getWindow[Width|Height]() and NativeSurface.getSurface[Width|Height]().
To have a unique naming scheme, we could rename all method using 'Window',
but for simplicity and since there will be no 'semantic override'
just use the simple version.
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valid SWT thread (OSX: on main-thread); unclutter updatePosSizeCheck(..)
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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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if possible (ES3 spec requirement)
Make FBObject's sampling sink format compatible w/ sampling source if possible,
i.e. for all GL profiles but ES1 and ES2.
This is an ES3 spec requirement:
For ES3, sampling-sink colorbuffer format must be equal w/
the sampling-source Colorbuffer.
ES3 BlitFramebuffer Requirements: OpenGL ES 3.0.2 p194: 4.3.2 Copying Pixels:
If SAMPLE_BUFFERS for the read framebuffer is greater than zero, no copy
is performed and an INVALID_OPERATION error is generated if the formats of
the read and draw framebuffers are not identical or if the source and destination
rectangles are not defined with the same (X0, Y 0) and (X1, Y 1) bounds.
Texture and Renderbuffer format details:
ES2 Base iFormat: OpenGL ES 2.0.24 p66: 3.7.1 Texture Image Specification, Table 3.8
- ALPHA, LUMINANCE, LUMINANCE_ALPHA, RGB, RGBA
ES3 Base iFormat: OpenGL ES 3.0.2 p125: 3.8.3 Texture Image Specification, Table 3.11
- ALPHA, LUMINANCE, LUMINANCE_ALPHA, RGB, RGBA
DEPTH_COMPONENT, STENCIL_COMPONENT, RED, RG
ES3 Required Texture and Renderbuffer iFormat: OpenGL ES 3.0.2 p126: 3.8.3 Texture Image Specification
- RGBA32I, RGBA32UI, RGBA16I, RGBA16UI, RGBA8, RGBA8I,
RGBA8UI, SRGB8_ALPHA8, RGB10_A2, RGB10_A2UI, RGBA4, and
RGB5_A1.
- RGB8 and RGB565.
- RG32I, RG32UI, RG16I, RG16UI, RG8, RG8I, and RG8UI.
- R32I, R32UI, R16I, R16UI, R8, R8I, and R8UI.
+++
Our implementation shall attempt to use the same format
for the sampling-source and -sink
wherever possible, e.g. GL2ES3 (excluding ES1 and ES2)!
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after) / Bug 741 HiDPI: Update pixelScale after monitor mode change
This seems to be a bug within QUARTZ .. hence this is a workaround
Monitor-Mode-Changed Notification:
- In case the window is not in fullscreen,
render it temporary invisible until the mode change is completed.
- Also update the HiDPI pixel-scale when the mode change is completed.
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NEWT
To properly convert Top-Left (TL) from/to Bottom-Left (BL) coordinates
we need to utilize the given CGDisplay viewport (TL)
and NSScreen (BL) to perform the y-flip.
This is especially true for the case of having multiple monitors
covering different viewports (mixed resolution).
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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 fb57c652fee6be133990cd7afbbd2fdfc084afaa
- NEWT Screen, Monitor, MonitorMode, ..
- All Units are in pixel units, not window units!
- On OSX HiDPI, we report the current scaled monitor resolution,
instead of the native pixel sized.
Need to filter out those, i.e. report only native unscaled resolutions,
since out MonitorMode analogy is per MonitorDevice and not per window!
- Fix usage (one by one) of
- Screen and Monitor viewport usage
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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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JAWTUtil and JAWTWindow
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API stability
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TextureSequence's fragment shader hash-code
Adding TextureSequence.getTextureFragmentShaderHashCode() allowing to use a cached hash-code (performance, interface usability).
Implemented in GLMediaPlayerImpl and ImageSequence.
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private package.
jogamp.opengl.util.av.impl.FFMPEGNatives.SampleFormat -> jogamp.opengl.util.av.AudioSampleFormat
jogamp.opengl.util.av.impl.FFMPEGNatives.PixelFormat -> jogamp.opengl.util.av.VideoPixelFormat
.. to be reused for other decoders later-on.
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(recognize diff. TextureLookupFragmentShader and TextureSampler2DType)
Fix RegionRenderer's TextureSequence shader program selection,
i.e. TextureLookupFragmentShader and TextureSampler2DType are considered in the ShaderProgram hash key selector.
Now the proper ShaderProgram for different TextureSequence objects will be selected,
e.g. diff video pixel formats and/or texture sampler types.
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derivations ImageSeqButton + GLEventListenerButton + MediaPlayerButton
Split GraphUI's TextureButton to TextureSeqButton (Base) and it's derivations:
- ImageSeqButton
- displays an ImageSequence
- GLEventListenerButton
- displays any GLEventListener as rendered into FBO as an ImageSequence
- MediaPlayerButton
- displays movies
- Added public ImageSequence impl. TextureSequence,
was private SingleTextureSeqFrame.
- Demo GPUUISceneGLListener0A shows:
- MediaPlayerButton w/ Big Buck Bunny film
- GLEventListenerButton w/ GearsES2
- ImageSeqButton w/ 2 textures (pressed/released)
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method from TextureIO
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See GlueGen commits:
- c06288d2a12586ab8df3715cf130549fdd7499fb
- 64615f17a8c63f692159235e169dbdd14d30b737
- 1a504fa682e6f28c5543da4d5885c7f2ff4ed3f1
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AppContextInfo to mitigate related bugs, e.g. Bug 983
Bug 1004, as well as Bug 983, are caused by issueing certain AWT tasks
from a Thread which ThreadGroup is not mapped to a valid sun.awt.AppContext (AppContext).
The 'certain AWT tasks' are all quering the current EventQueue instance,
which is associated to the AppContext.
This operation will fail and cause a NullPointerException.
This workaround simply gathers a ThreadGroup
which is mapped to the desired AppContext.
This AppContext ThreadGroup is being used to launch a new Thread
which is then mapped to an AppContext and hence can issue
all AWT commands.
+++
In the Bug 1004 scenario, JAWTWindow is constructed
from within the AWT EDT, which ThreadGroup does belong to the AppContext.
Here the issue is that an AWT operation was invoked from the OSX main thread,
which itself does not belong to the AppContext.
The workaround as described above solves this issue.
+++
For Bug 983 the scenario is different, since JAWTWindow is _not_
constructed from a thread which ThreadGroup is mapped to the AppContext.
[It is also not constructed on the AWT-EDT].
It is recommended to have Java3D gathering the AppContextInfo itself early
and issues the JAWTWindow creation on an eligible thread using
AppContextInfo.invokeOnAppContextThread(..)
similar to JAWTWindow.attachSurfaceLayer(..).
This will allow removing the more intrusive remedy
of Java3D commit bdda2ac20bfef85271da764d1989ec3434d5c67a
and simply issuing the crucial commands on a proper thread.
+++
The more intrusive workaround of above commit
does not work in general at least for Bug 1004 (OSX and Applets).
While forcing the mapping of the 'alien' thread-group
to the AppContext work for the 1st launch w/ the 1st AppContext,
a second launch w/ a new AppContext will fail.
Here we did update the new AppContext knowledge in AppContextInfo,
however a NPE is received in getEventQueue() .. since the AppContext
is gathered after patching, but the EventQueue is still null.
Further more, using static knowledge of AppContext/ThreadGroup mapping
violates at least the Applet lifecycle. Here we can have one ClassLoader
with multiple AppContext - i.e. Applets.
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validation (libavutil)
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shader cannot work properly
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pspec is never initialized, this would have always crashed.
Signed-off-by: Harvey Harrison <[email protected]>
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Signed-off-by: Harvey Harrison <[email protected]>
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test-ntsc01-28x16.png asset ; Generalize TextureSequenceDemo01 -> SingleTextureSeqFrame ; Unit tests use test-data, not assets.
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deal w/ GL_DEPTH_TEST accordingly
Fixes VBORegion2PMSAAES2 no-depth-buffer usage
and allows user to control behavior w/o quering GL state.
If BITHINT_GLOBAL_DEPTH_TEST_ENABLED set:
- RegionRenderer.defaultBlendEnable: glDepthMask(false)
- RegionRenderer.defaultBlendDisable: glDepthMask(true)
- VBORegion2PMSAAES2 enables/disables GL_DEPTH_TEST, otherwise MSAA is corrupt.
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disabled depth buffer in blend mode
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use proper pointerId >= 0
In case of single-pointer mouse events, always use pointerId 0,
don't derive from button name.
Multiple pointer events still derive button name from the 'action' pointerId.
This allows applications to utilize pointerId equally for single and multiple
pointer events.
Passed all 'junit.run.newt.event' unit tests
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clarity and unique method naming
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- Region Dirty Update
- Split dirty -> ShapeDirty + StateDirty,
where StateDirty forces re-rendering content
w/o geometry update as req. for 2-pass mode.
- Fix TextureSequence (GLMediaPlayer) usage in RegionRenderer / GLRegion*
- handle GL_TEXTURE_EXTERNAL_OES incl. Android ES3 bug
- inject TextureSequence's shader stubs
- shader: Use abstract lookup 'texture2D' -> 'gcuTexture2D'
- flip scaled colorTexBBox if TextureSequence 'tex.getMustFlipVertically()'
- TODO: Handle multiple TextureSequence shader programs!
- Fix Blending: GLRegion* / RegionRenderer / RenderState
- Disable/Enable depth-writing w/ blending
- Region impl. sets proper glBlendFunc*(..),
i.e. 2-pass:
- render2FBO: glClearColor(0f, 0f, 0f, 0f)
glBlendFuncSeparate(GL.GL_SRC_ALPHA, GL.GL_ONE_MINUS_SRC_ALPHA, GL.GL_ONE, GL.GL_ONE_MINUS_SRC_ALPHA)
- renderFBO: glBlendFunc(GL.GL_ONE, GL.GL_ONE_MINUS_SRC_ALPHA)
- User code shall not set glClearColor(..) for 2-pass anymore
- Graph-UI Demo
- UIShape:
- Add MouseGestureListener, combining MouseListener + GestureListener
- EventDetails -> PointerEventInfo
- PointerEventInfo contains objPos (ray-intersection) and glWin-pos
- Toggle:
- Separate color (on/off) if enabled
- Toggle on click if enabled
- SceneUIController
- Use PinchToZoomGesture and propagete same gesture to UIShape
- Use AABBox.getRayIntersection(..) using 'real' shape coordinates
for 1st picking.
- Use shape PMV for secondary picking (drag, zoom 2-pointer, etc),
see windowToShapeCoords(..)
- Sort shapes according to z-value (render: ascending; picking: descending)
- Only 'drag' if pointerId matches 1st pressed pointer
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added; ShaderCode.addDefaultShaderPrecision(..): Branch GLES3 before GLES2, since gles2.isGLES2() == true
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to GestureHandler
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when source becomes ready
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incl. getNormal*(..) and getPlane*(..)
AABBox.getRayIntersection(..) provides the intersecting coordinates,
where the fast alternative AABBox.intersectsRay(..) does not.
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setting identity
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