| Commit message (Collapse) | Author | Age | Files | Lines |
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uniforms/attributes); Refine API doc.
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GL3/GEOMETRY_SHADER unit tests. ; Simplified GLContext version number
- Adding GEOMETRY_SHADER support in ShaderCode, adding core GL3/GEOMETRY_SHADER unit tests
Chuck Ritola reported in December 2012 that we lack support of GEOMETRY_SHADER
and he provided a test case.
The latter is cleaned up to use GL3 core profile features only
tesing a pass-through and the flip-XYZ geometry shader.
ShaderUtil is fixed.
- Simplified GLContext version number
The OpenGL major/minor version is now hold in a VersionNumber instance
to simplify usage. Also expose it via getGLVersionNumber() while marking
getGLVersionMajor() and getGLVersionMinor() deprecated.
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AnimatorBase: Add setModeBits/MODE_EXPECT_AWT_RENDERING_THREAD; FPSAnimator: Make transactions deterministic.
ExclusiveContextThread (ECT) allows user to dedicate a GLContext to a given thread.
Only the ECT will be allowed to claim the GLContext, hence releasing must be done on the ECT itself.
The core feature is accessible via GLAutoDrawable, while it can be conveniently enabled and disabled
via an AnimatorBase implementation. The latter ensures it's being released on the ECT and waits for the result.
Note that ECT cannot be guaranteed to work correctly w/ native (heavyweight) AWT components
due to resource locking and AWT-EDT access. This is disabled in all new tests per default and
noted on the API doc.
Note: 'Animator transaction' == start(), stop(), pause(), resume().
- Add ExclusiveContextThread (ECT) feature
- GLAutoDrawable NEW:
- Thread setExclusiveContextThread(Thread t)
- Thread getExclusiveContextThread()
- AnimatorBase NEW:
- Thread setExclusiveContext(Thread t)
- boolean setExclusiveContext(boolean enable)
- boolean isExclusiveContextEnabled()
- Thread getExclusiveContextThread()
- AnimatorBase: Add setModeBits/MODE_EXPECT_AWT_RENDERING_THREAD
Allows user to pre-determine whether AWT rendering is expected before starting the animator.
If AWT is excluded, a more simple and transaction correct impl. will be used.
- FPSAnimator: Make transactions deterministic.
FPSAnimator previously did not ensure whether a transaction was completed.
A deterministic transaction is required to utilize ECT.
FPSAnimator now uses same mechanism like Animator to ensure completeness,
i.e. Condition and 'finishLifecycleAction(..)'. Both are moved to AnimatorBase.
Tested manually on Linux/NV, Linux/AMD, Windows/NV and OSX/NV.
- All new tests validated correctness.
- All new tests shows an performance increase of ~3x w/ single GLWindow, where multiple GLWindows don't show a perf. increase.
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behavior for Client/Server FFP usage.
- GLArrayDataWrapper's init() only validated and set the 'name' for VBO ARRAY_BUFFER usage and validates it,
regardless of FFP or GLSL usage.
- GLArrayDataWrapper's init() included the no-VBO case to the above 'name' set/validate code path.
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657)
One FloatStack for each, MV, P and T, with initialialSize zero to save memore
and growSizes: MV = 16 arrays, P = 2 arrays, T = 2 arrays,
with array = 16 floats.
This shall save performance due to the preallocated stack when used
and growing only in the above mentioned grow intervals.
We may finetune the growSize, if required.
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PROFILE_ALIASING compat -> core ; Fix setGLFunctionAvailability(..) failure path @ profile query
- Add GLRendererQuirks.GLNonCompliant, marking a GL context/profile non compliant.
Currently: 'Mesa DRI Intel(R) Sandybridge Desktop' && 3.1 compat profile
- Fix Bug 658 (Mesa 9.0 3.1 Intel compat quirk, 3.1 core only)
Detect case using new GLRendererQuirks.GLNonCompliant in setGLFunctionAvailability() and return 'false'.
- No PROFILE_ALIASING compat -> core
Use true core GL profiles / context if available to ensure
proper API behavior across platforms due to different functionality.
E.g. don't use GL3bc if GL3 is requested.
- Fix setGLFunctionAvailability(..) failure path @ profile query
Destroy temp context & zero result to cont. iterating through GL versions.
This missing cleanup lead to returning the faulty GL context handle and it's mapping/usage.
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GL2ES2.GL_MAX_COLOR_ATTACHMENTS
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GLDrawableFactory.createOffscreenDrawable(..) for common OffscreenBackend (dropping pbuffer/software); Flip FBO w/ GLSL texture renderer.
- Implementation is GLProfile agnostic
- Shall work on ES2, GL2, .. etc
- Use GLDrawableFactory.createOffscreenDrawable(..) for common OffscreenBackend (dropping pbuffer/software)
- Leave offscreen selection to common factory code, favoring FBO
- Flip FBO w/ GLSL texture renderer
- Faster on low CPU machines
- Enabled if GL2ES2 and FBO offscreen
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operating w/o it; ShaderState: Remove notion of GL context attachment, use pass-through or object association; GLArrayData/GLUniformData: Add basic GLSL location methods
- GLArrayData/GLUniformData: Add basic GLSL location methods
- GLArrayData
- add: setLocation(..) for attribute location/index retrieval (post link) and binding (pre link)
- GLUniformData
- add: setLocation(..) for attribute location/index retrieval (post link)
- GLArrayData/ImmModeSink: Remove implicit dependency on ShaderState - allow operating w/o it
- GLArrayData
- add: 'public void associate(Object obj, boolean enable)', allows setting ShaderState usage
- ShaderState: Remove notion of GL context attachment, use pass-through or object association
- ownsAttribute(..) associates the attribute w/ ShaderState
- removed GL context ShaderState attachment
Tested:
- ImmModeSink w/ GLSL/ES2 w/ and w/o ShaderState
- GLArrayData* w/ and w/o ShaderState
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getOffscreenContextReadBuffer(), .. ; Add GLFBODrawable API entries for multi buffering (no impl. yet); GLJPanel 1st simplification using offscreen drawable
- Cleanup GLContext special entries: getOffscreenContextPixelDataType(), getOffscreenContextReadBuffer(), .. ;
- add: getDefaultReadBuffer() (-> exposed via GLBase as well)
- add: isGLOrientationFlippedVertical()
- add: getDefaultPixelDataType()
- removed impl: getOffscreenContextPixelDataType()
- removed impl: getOffscreenContextReadBuffer()
- removed impl: offscreenImageNeedsVerticalFlip()
- Add GLFBODrawable API entries for multi buffering (no impl. yet);
- TODO: Add implementation code in GLFBODrawableImpl
- GLJPanel 1st simplification using FBO
- Use above new GL/GLContext entries
- Fix: getNativeSurface() and getHandle()
- TODO:
- Remove distinction of 'pbuffer' and 'software',
- Use GLDrawableFactory.createOffscreenDrawable(..)
- Use GL for FBO swapping
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GLCapabilities on X11 (feature complete)
To allow custom GLCapabilities, we had to use native parenting on X11 w/ a new child window.
The desired visualID chosen by the users GLCapabilities is passed to the new child window.
The redraw drops must be caused by the original GDK or the new child GDK window.
Now we use a plain X11 child window similar to NEWT's X11 window and NewtCanvasSWT,
which doesn't expose this bug.
(Note: SWTAccessor/GLCanvas still contains the uncommented GDK code path for further inspection, if desired)
Also added SWTNewtEventFactory to test event handling on the SWT GLCanvas w/ GearsES2.
TestSWTJOGLGLCanvas01GLn tests custom GLCapabilities now.
SWTEDTUtil has been moved to private: com.jogamp.newt.swt -> jogamp.newt.swt.
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remove just introduced setVisible(false) and adapt to setEDTUtil() changes. ; Enhance Bug 643 unit test: Also test NEWT EDT and pre-visible GLWindow.
- SWT GLCanvas/NewtCanvasSWT: Check isVisible() @ validation
- NewtCanvasSWT remove just introduced setVisible(false) and adapt to setEDTUtil() changes
- Enhance Bug 643 unit test: Also test NEWT EDT and pre-visible GLWindow.
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DisposeListener; Run GL tasks on current thread w/o restrictions
Fix dispose bug, check for isDisposed() and add DisposeListener
- Don't issue SWTAccessor.setRealized(..), since it's called implicit via super.dispose()
- Check isDisposed() ..
- add DisposeListener to act on parent's disposal (Shell, Composition, ..)
Run GL tasks on current thread w/o restrictions
+ * The current thread seems to be valid for all platforms,
+ * since no SWT lifecycle tasks are being performed w/ this call.
+ * Only GL task, which are independent from the SWT threading model.
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'sendReshape' for onscreen drawables as well.
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references
Clarify method names:
- update(..) -> updateByPMV(..), updateByPlanes(..)
- isOutside(AABBox) -> isAABBoxOutside(AABBox)
- .. same for point/sphere, while adding 'Location classifyType(..)'
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Frustum: Cleanup / update
- Remove ctor w/ PMV, use update(..) instead - avoid API explosion
- Add update(Plane[]) to copy existing Frustum planes
- Mention world-coordinates in update(PMV)
PMVMatrix: Fix mulPMV
- P*Mv in column major order is correct for Frustum
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the original paper
Paper:
Fast Extraction of Viewing Frustum Planes from the World-View-Projection Matrix
http://graphics.cs.ucf.edu/cap4720/fall2008/plane_extraction.pdf
Authors (in alphabetical order):
Gil Gribb <[email protected]>
Klaus Hartmann <[email protected]>
06/15/2001
Fix:
- Column Major Order PMV (Passing to Frustum and in calculation itself) according to paper coeff. calculation of plane
- Plane's signed distance function (only add d, don't multiply)
- Normalization: divide by lenght, not multiply
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methodology as for Mvi and Mvit
Allows user to derive Frustum from updated P + MV
Clarify method name for clearing all update request:
- disableMviMvitUpdate() -> clearAllUpdateRequests()
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Don't store passing PMV reference. isInside() -> isOutside()
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PMVMatrix: Add getPreMultipliedPMV(..)
- Independent / Compile Clean
- Remove OpenMALI dependencies
- Use basic float[] type and FloatUtil
- Use AABBox - FIXME: May need BBox (no axis alignment ?!)
- Relocation
- Move to com.jogamp.opengl.math.geom (see commit 5fafc1ac360333645b807dcd8dff0c0a655ea439)
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com.jogamp.opengl.math.geom packages
Note: WIP - We may relocate / reorg math package.
Public relocations:
com.jogamp.opengl.util -> com.jogamp.opengl.math
- FixedPoint
- FloatUtil
com.jogamp.graph.math -> com.jogamp.opengl.math
- Quaternion
- VectorUtil
com.jogamp.graph.geom -> com.jogamp.opengl.math.geom
- AABBox
VectorUtil:
Introducing Vert2fImmutable and Vert3fImmutable interfaces, allowing graph Vertex instances
to be used 'graph' agnostic and to document 2d/3d use-cases.
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on OpenMALI - hence broken.
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dbc260bd2e917ee9001461749c99da0c9cbfaf9a
- init(..): Query MAX_COLOR_ATTACHMENTS: Remove erroneous samplingSink null check (it's always null)
- reset(..): Create & construct samplingSink if required and missing before detaching all (due to bind)
- setSamplingSink(..) returns previous samplingSink
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JAWTWindow.lockSurface(): Check AWT component's native peer
- Fix GLAutoDrawable.dispose(): Dispose drawable even w/o context
- It is possible to have the GLContext not being created (not made current),
so drawable shall be disposed independent.
- Merge Runnable 'postDisposeOnEDTAction' to dispose Runnable for clarity
- GLDrawableHelper: Split disposeGL from invokeGLImpl for clarity
- JAWTWindow.lockSurface(): Check AWT component's native peer
- W/o a native peer (!isDisplayable()), JAWT locking cannot succeed.
- On OSX OpenJDK 1.7, attempting to JAWT lock a peer-less component crashes the VM
- MacOSXJAWTWindow.lockSurfaceImpl(): Remove redundant null checks
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samplingSink*
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setSamplingSink(..). Create MSAA samplingSink lazy if null.
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c002e04f848116922a1ed7bd96ead54961649bbd
As suggested by Julien Gouesse, align 'enqueue(..)' method w/ 'invoke(..)':
- public void enqueue(GLRunnable glRunnable);
+ public boolean invoke(boolean wait, List<GLRunnable> glRunnables);
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and after ctx/drawable swap - sync'ing GL state
Otherwise a driver crash may occur on Windows/NVidia.
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pause/stop - taking execution frequency into account
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(API Change) ; Added GLDrawableUtil
A GLEventListener resides in two states, initialized and uninitialized.
When added to a GLAutoDrawable, it is uninitialized.
A first 'display()' will issue GLEventListener's 'init(..)' which renders it initialized.
This is usually accompanied by 'reshape(..)' propagating the drawable's dimension.
Destruction of the GLAutoDrawable will issue GLEventListener's 'dispose(..)' which renders it uninitialized.
It turns our these means of GLEventListener controls are not sufficient in case
the user requires to remove and add them during the lifecycle and rendering of their GLAutoDrawable host.
GLAutoDrawable 'removeGLEventListener(..)' merely removes the GLEventListener from the list,
but does not complete it's lifecycle, i.e. issues 'dispose(..)' if initialized to realease GL related resources.
Hence the following essential API changes are made to complete the lifecycle:
+ public GLEventListener disposeGLEventListener(GLEventListener listener, boolean remove);
disposing a single GLEventListener, allowing it's removal from the list being optional
This is demonstrated via GLDrawableUtil.swapGLContextAndAllGLEventListener(GLAutoDrawable a, GLAutoDrawable b), see below.
++++++++
Further more the following API changes were made to expose complete control of
GLEventListener to the user:
- public void removeGLEventListener(GLEventListener listener);
+ public GLEventListener removeGLEventListener(GLEventListener listener);
The return value allows simple pipelining, and also delivers information whether
the passed listener was actually removed.
- public GLEventListener removeGLEventListener(int index) throws IndexOutOfBoundsException;
+ public int getGLEventListenerCount();
+ public GLEventListener getGLEventListener(int index) throws IndexOutOfBoundsException;
Dropping the redundant removal by index, while adding count and get methods.
+ public boolean getGLEventListenerInitState(GLEventListener listener);
+ public void setGLEventListenerInitState(GLEventListener listener, boolean initialized);
Allows retrieving and setting of listener states.
All in all these API changes allows a user to experience all freedoms in dealing w/
GLEventListeners hosted by GLAutoDrawable impl. and shall be future proof.
Note that we have avoided the Iterator pattern due to it's overhead of temporal objects creation.
The simple indexed access allows us to implement each method as an atomic operation.
+++++++++++
Further more a simple enqueue(..) method has been added, allowing to just enqueue a GLRunnable
w/o provoking it's execution - as invoke(..) does.
This method pleases a use case where GLRunnables are batched and shall be executed later on..
public boolean invoke(boolean wait, GLRunnable glRunnable);
+ public void enqueue(GLRunnable glRunnable);
+++++++++++
Added GLDrawableUtil, exposes utility function to rearrange GLEventListener, modifiy GLAutoDrawable, etc.
GLDrawableUtil.swapGLContextAndAllGLEventListener(GLAutoDrawable a, GLAutoDrawable b)
is tested and demonstrated w/ TestGLContextDrawableSwitchNEWT.
Manually tested on X11, OSX and Windows.
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reduce buffer usage (performance) in favor of float[].
Thomas De Bodt reported this error and provided the unit test.
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for success.
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- Setting up default VAO for all GL >= 3.2 core ctx.
Refines commit 9b6448b1d54716fd455c0cad0c6133c0edeb3bb8
Due to GL 3.2 core spec: E.2. DEPRECATED AND REMOVED FEATURES (p 331)
"There is no more default VAO buffer 0 bound, hence generating and binding one
to avoid INVALID_OPERATION at VertexAttribPointer."
More clear is GL 4.3 core spec: 10.4 (p 307):
"An INVALID_OPERATION error is generated by any commands which
modify, draw from, or query vertex array state when no vertex array is bound.
This occurs in the initial GL state, and may occur as a result of BindVertexAr-
ray or a side effect of DeleteVertexArrays."
+++
I just have read (same spec) 2.10 (p 46/47):
"An INVALID_OPERATION error is generated if any of the *Pointer commands
specifying the location and organization of vertex array data are called while zero
is bound to the ARRAY_BUFFER buffer object binding point, and the pointer argu-
ment is not NULL."
.. which only constraints the *Pointer command use to _VBO_, not forcing a VAO.
+++
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w/ higher GLSL versions
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GLContextImpl: Bind default VAO if having quirk RequiresBoundVAO.
OSX w/ OpenGL >= 3 core context implementation requires a bound VAO for vertex attribute operations,
i.e. VertexAttributePointer(..). This has been experienced on OSX 10.7.5, OpenGL 3.2 core w/ Nvidia GPU
and in several forum posts. Such 'behavior' violates the GL 3.2 core specification,
which does not state this requirement, hence it is a bug. (Please correct me if I am wrong!)
GLContextImpl works around this quirk, by generating a default VAO and binds it at 1st makeCurrent (@creation)
and deletes it at destroy. This is minimal invasive since no action is required for subsequent makeCurrent or release.
We assume if a user uses and binds a VAO herself, she will mind this quirk.
Note: We could enhance this workaround by quering for a currently bound VAO at makeCurrent() and bind our default if none.
However, we refrain from this operation to minimize the workaround and complexity.
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GLSL version and default precision (if GLES) - Used by GearsES2/RedSquare/PointDemo (Made GLSL version proof)
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EXT_packed_depth_stencil extension
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fourth element was invalid
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