| Commit message (Collapse) | Author | Age | Files | Lines |
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favor a more detailed request than getDefault().
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397665ff472d83809a028e4f4a5d332294617623)
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Shared-Context and more 'known' test cases for ES.
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int -> int[]
"texWidth desired texture width for multipass-rendering.
The actual used texture-width is written back when mp rendering is enabled, otherwise the store is untouched."
This allows the 'backend' to correct the texSize, ie in regards to GL_MAX_TEXTURE_SIZE .. etc.
Without this write-back, it would re-create the FBO for every frame.
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to reduce load
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immediate mode for ES1) ; Fix GLES1Impl.glOrtho()
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availability.
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massive '!!!' occurence
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NetPbmTextureWriter ; Added unit tests
- Allow GL_BGR[A] usage (TGA / NetPbm)
- Use GL_BGRA if available (TGA),
utilize GLContext.isTextureFormatBGRA8888Available()
- Fix NetPbmTextureWriter
- Maintain 'auto' magic mode for 'spi' role in TextureIO (was overwritten)
- Use FileChannel for nio buffer streaming, instead of array copy
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- MSAATool: Catch gl-errors on glIsEnabled(..) queries
- Call MSAATool.dump(..) in base class GPURendererListenerBase01
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of IOException
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GLProfile.get<Profile>() methods.
We need to distinguish between software and hardware accelerated OpenGL profiles
to allow choosing the proper profiles [default, GL2ES1, GL2ES2, ..]
on platforms where both, software and hardware implementations exist (GL, GLES2, ..).
Where no preference is being requested, hardware acceleration is favored:
GLProfile.getDefault()
GLProfile.getGL2ES1()
GLProfile.getGL2ES2()
Some method signatures needed to change
GLProfile:
getMaxProgrammable(AbstractGraphicsDevice device) ->
getMaxProgrammable(AbstractGraphicsDevice device, boolean favorHardwareRasterizer)
GLProfile adds: isHardwareRasterizer()
Determination whether a hardware acceleration is being used or not
is extended in GLContextImpl by querying the current context's
GL_RENDERER string. If the latter contains 'software' (case insensitive)
it is not hardware accelerated. At least this works w/ newer Mesa3D impl,
where GLX_SLOW_CONFIG is not set!
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ShaderState.attachShaderProgram(..)
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- Add multiple sources for create ShaderCode
- Add Shaderstate attachShaderProgram w/ enable flag
- Clarify doc
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for profile, allowing test on OSX (only has GL3 core profile at max).
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(not GL4) and check. Ooops.
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and debug context.
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(and clean up)
- GLContext
- Expose isFunctionAvailable(), isExtensionAvailable(),
getPlatformExtensionCount(), getGLExtensionCount()
- sort methods a bit
ExtensionAvailabilityCache:
- Favor StringBuilder instead of StringBuffer (faster)
- Resuse set's
- Hold dedicated counts of extensions, platform and GL
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TestGLProfile01NEWT
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- GLProfile properly detects native EGL/ES1/ES2 on the 'desktop' device factory.
This allows usage of Mesa's EGL/ES or Imageon's PVR emulation, etc.
- GLProfile drops getDefaultDesktopDevice() and getDefaultEGLDevice()
since both are aligned by getDefaultDevice().
- Fix GL_ARB_ES2_compatibility detection and utilize
resulting isGLES2Compatible() where possible.
This allows ES2 compatible desktop profiles to use core ES2 functionality
(glShaderBinary() .. etc) even with a GL2ES2 desktop implementation.
- EGLDrawable: If createSurface(..) fails (BAD_NATIVE_WINDOW) w/ surfaceHandle
it uses windowHandle if available and differs.
This allows the ANGLE impl. to work.
- Properly order of EGL/ES library lookup:
ES2: libGLESv2.so.2, libGLESv2.so, GLES20, GLESv2_CM
EGL: libEGL.so.1, libEGL.so, EGL
- *DynamicLookupHelper reference will be null if it's library is not complete
(all tool libs, all glue libs and a ProcAddressFunc lookup function - if named).
- Enhance GL version string (incl. ES2 compatible, hw/sw, ..)
- GLBase: Fix docs and remove redundancies
- Prepared (disabled) DesktopES2DynamicLibraryBundleInfo
to be used for a real EGL/ES2 implementation within the desktop GL lib (AMD).
Sadly it currenly crashed within eglGetDisplay(EGL_DEFAULT_DISPLAY),
hence it's disabled.
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Turns out, that the culprit (at least on my Win7 NVidia machine) is
the runtime property "-Dsun.java2d.opengl=false".
When _not_ setting this prop. the test runs fine.
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- allocate CALayer w/ invoking init:
[[CALayer alloc] init]
- attach CALayer to JAWTSurfaceLayer w/o autorelease:
surfaceLayers.layer = layer; // already incr. retain count
- destroy CALayer @ JAWTWindow destroy
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- toFront*(..) uses the AWT Window focus state, instead of our AWTWindowFocusAdapter,
which removes false negatives.
Often the focus is already hold on the Window where no focus change
will be recognized by our AWTWindowFocusAdapter.
- assertRequestFocusAndWait(..) recovers from lack of focus-lost event
(if received focus-gained) and only dumps the case - returns success.
- Since assertRequestFocusAndWait(..) implicitly tests the passed
FocusAdapter and relaxes the constraints (see above)
no more post-call assertions on the FocusAdapter is being performed (removed).
- assertRequestFocusAndWait(..) is no more used on AWT Window or Frame,
see 1st note above!
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threading (-> FIXME)
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hdc/hwnd dump.
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Previous commit 098398c2a9145447da5314eed9792b3738c2d515 cleaned up
and fixed context/drawable lock/unlock for makeCurrent()/release()/destroy()
and consistency is looks much better now in this regard.
However, on Intel HD 3000 / Windows7, our AnimatorControl start/stop still
let the 2nd switch to GLCanvas within the CardPanel not showing rendering results.
One interesting artefact though:
1st switch 2 GLCanvas (rendering visible):
*** hdc 0x2f010ec5, hdw(hdc) 0x1003a0, hdw 0x1003a0 - AWT-EventQueue-0, com.jogamp.opengl.util.Animator[started true, animating true, paused false, drawable 1]
*** hdc 0x160110c4, hdw(hdc) 0x1003a0, hdw 0x1003a0 - AWT-EventQueue-0, com.jogamp.opengl.util.Animator[started true, animating true, paused false, drawable 1]
*** hdc 0x2f010ec5, hdw(hdc) 0x1003a0, hdw 0x1003a0 - AWT-EventQueue-0, com.jogamp.opengl.util.Animator[started true, animating true, paused false, drawable 1]
*** hdc 0x160110c4, hdw(hdc) 0x1003a0, hdw 0x1003a0 - AWT-EventQueue-0, com.jogamp.opengl.util.Animator[started true, animating true, paused false, drawable 1]
-> alternating HDC's
2nd switch 2 GLCanvas (rendering _not_ visible):
*** hdc 0x160110c4, hdw(hdc) 0x1003a0, hdw 0x1003a0 - AWT-EventQueue-0, com.jogamp.opengl.util.Animator[started true, animating true, paused false, drawable 1]
*** hdc 0x160110c4, hdw(hdc) 0x1003a0, hdw 0x1003a0 - AWT-EventQueue-0, com.jogamp.opengl.util.Animator[started true, animating true, paused false, drawable 1]
*** hdc 0x160110c4, hdw(hdc) 0x1003a0, hdw 0x1003a0 - AWT-EventQueue-0, com.jogamp.opengl.util.Animator[started true, animating true, paused false, drawable 1]
*** hdc 0x160110c4, hdw(hdc) 0x1003a0, hdw 0x1003a0 - AWT-EventQueue-0, com.jogamp.opengl.util.Animator[started true, animating true, paused false, drawable 1]
-> fixed HDC
Maybe this is a hint for what is going wrong in JAWTWindow locking,
which aquires the frame's HDC.
Verifying the recursive lock shows proper lock/unlock actions though.
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diff. Platforms
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Add updateScreenSize() utilizing new getNativeScreenSizeImpl() to set/update the virtual Screen size.
This replaces setScreenSize() where the ScreenMode dimension was being used
which doesn't reflect the virtual size.
ScreenMode Test Impact:
We cannot assertEquals(sm.getRotatedWidth(), screen.getWidth()),
since ScreenMode size != virtual size.
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- Allow negative window position, using flag 'autoPosition' to mark a custom user position.
This impacts Windows and X11 window creation code, which supports native auto positioning.
- Screen: Validate Screen-Index.
In 'big-desktop' mode the Screen index is always 0. This is true for X11 with
Xinerama enabled and MS-Windows in general.
Platforms w/o multiple Screen support always use index 0.
- X11: Separate X11 Display/Screen/Window native code in their respective C files
- Windows test scripts: use '%*' to catch all arguments
- Add missing (c)
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Fix SWT test on OSX 32/64 bit:
- Pick 32bit SWT for 32bit tests
Fix TestSWTAWT01GL for OSX:
- Using proper thread for AWT and SWT actions, platform agnostic
but required for OSX.
- Enable SWT*AWT* tests on OSX
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thread, only for shutdown.
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NewtCanvasAWT/GLCanvas (delegation) ; Fix GLCanvas OffscreenLayerSurface usage.
JAWTWindow.destroy():
- No more getGraphicsConfiguration().getScreen().getDevice().close() call,
since the configuration (hence the device) is passed @ creation and owned by the caller.
New Interface 'OffscreenLayerOption', impl. by JAWTWindow (impl) and NewtCanvasAWT/GLCanvas (delegation)
- Abstract offscreenLayer option to be delegated by using classes
- Allow offscreen testing of GLCanvas as well (like NewtCanvasAWT)
Fix GLCanvas OffscreenLayerSurface usage
- common 'createDrawableAndContext()' for context and drawable instance creation
- addNotify() calls createDrawableAndContext() after super.addNotify() to be able
to lock the surface (JAWTWindow) and hence to determine offscreen usage.
- reshape(...) issues recreation 'dispose(true)' in case of using an offscreen layer
- dispose() explicitly destroys the JAWTWindow
NewtCanvasAWT:
- explicitly close the device of the JAWTWindow (as GLCanvas does)
Tests:
com.jogamp.opengl.test.junit.newt.parenting.TestParentingOffscreenLayer01GLCanvasAWT
com.jogamp.opengl.test.junit.newt.parenting.TestParentingOffscreenLayer02NewtCanvasAWT
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12 -> 7 in initialization.
Reducing the calls to resetProcAddressTable() 12 -> 7 in initialization, saves:
Linux/AMD: 600ms -> 300ms
Linux/NV: 161ms -> 112ms
OSX 10.7/NV: 522ms -> 397ms
Still some freezes on OSX 10.6.8/NV .. further analysis is going on.
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is called 1st, add tests. Add performance numbers of init/shutdown in tests.
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