| Commit message (Collapse) | Author | Age | Files | Lines |
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trusted before ..
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row-stride (regression of b33bdf41cf53f37203643a8551bf5d94b42a8fab)
SingleAWTGLPixelBufferProvider w/ allowing row-stride reuses the AWTGLPixelBuffer and it's BufferedImage
even w/ different width.
This leads to distortion if using the BufferedImage unhandled.
GLJPanel also set GL_PACK_ROW_LENGTH to pixelBuffer.width, which leads to an 'out-of-bounds'
exception if ReadPixels is used w/ panelwidth and panelHeight.
++
Introduce AWTGLPixelBuffer.getAlignedImage(width, height) which returns an aligned
BufferedImage while reusing the DataBuffer.
GLJPanel fetches a new alignedImage if required.
This allows a more efficient single buffer usage as intended, w/o the need of copying data.
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resized; Add unit test for resize while printing.
Perform immediatly reshape at releasePrint on AWT-EDT:
- sendReshape = handleReshape(); // reshapeSize -> panelSize, backend reshape w/ GL reshape
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commit fe284b515d984198fdbe702837809f181625a457)
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'handleReshape' if panelSize/awtSize mismatch, otherwise 'sendReshape' and exception if offscreen size doesn't match panelSize.
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AWT-GLAD's size, since the latter uses AWT's component size.
.. the AWT component size could have been modified after setupPrinting(..).
The AWT-GLAD getWidth() and getHeight() is implemented by AWT's component
and hence may not reflect the actual GLDrawable size while printing.
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functionality (reshapeTile(..), ..); Only process GLEventListener impl. TileRendererListener; attachToAutoDrawable -> attachAutoDrawable, etc.
-TileRendererNotify -> TileRendererListener
- Added methods:
- void reshapeTile(TileRendererBase tr,int tileX, int tileY, int tileWidth, int tileHeight, int imageWidth, int imageHeight);
- void startTileRendering(TileRendererBase tr);
- void endTileRendering(TileRendererBase tr);
allowing to clarify user code and API specification,
i.e. TR only processes GLEventListener which impl. TileRendererListener.
This also allows simplifying the API doc, while having a more descriptive
reshape method focusing solely on tile rendering.
Further more, the start/end TR methods allow certain GL related actions
while the context is current before and after iterating through the tiles.
This is even used for RandomTileRenderer (one tile only), to allow
to reuse same TileRendererListener for diff TRs.
- Fix language, attach and detach usage was vice versa. We do attach an GLAutoDrawable to a TR
- attachToAutoDrawable -> attachAutoDrawable
- detachFromAutoDrawable -> detachAutoDrawable
- Adapted unit tests.
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'isInit' flag.
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In FBO mode save TextureState of current texture-unit,
as well as for the fbo texture-unit if the latter is a different.
In glslTextureRaster mode for verical flip (using FBO),
set the viewport to drawable size if before flipping and restore afterward - if equired.
TestGLJPanelTextureStateAWT fully tests use cases:
- Keep texture bound w/ same or other texture-unit
- Use 2 viewports within one drawable and keep it
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double precicion clip bounds 'all the way'; Explicitly scale image and clip w/ current scaled transform.
- Use 'Shape getClip()'
Don't assume Rectangle2D, but use Shape's getBounds2D()
- Use double precicion clip bounds 'all the way'
Remove rounding error on clip bounds w/ start value, which was _not_ using doubles.
- Explicitly scale image and clip w/ current scaled transform.
Instead of abusing Graphics2D's clip shape to scale image size and clip-area,
explicitly use transform both bounding boxes into transformed space,
scale space and transform out (inversion).
A possible NoninvertibleTransformException will be thrown while Graphics2D has not been modified.
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GLJPanel: Attempt to initialize if not done yet (similar to GLCanvas)
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AWTPrintLifecycle's lifecycle
- AWTPrintLifecycle:
- Should decorate:
PrinterJob.print(..),
instead of within Printable.print(..) { .. container.printAll(..); .. }
This is due to AWT print implementation, i.e.
AWT will issue Printable.print(..) multiple times for 'overlapping'
or non-opaque elements!
- Move from javax.media.opengl.awt -> com.jogamp.nativewindow.awt
- Make _interface_ AWT agnostic, i.e. remove Graphics2D from 'setup(..)'
- Add 'int numSamples' to 'setup(..)' to determine the number of samples
- AWTTilePrinter:
- Use double precision when scaling image-size and clip-rect,
then round them to integer values.
Otherwise AWT will use the bounding box for the clipping-rectangular.
- Clip negative portion of clip-rect,
this removes redundant overpaints, as well as increasing the tile count
due to the increased clipping-size.
- Clip the image-size in the tile-renderer according to the clip-rect.
- DEBUG_TILES: Dump tiles to file
- Use sub-image of final BuffereImage instead
of adding another clipping region. This might increase performance
if no clip-rect has been set.
TODO:
TestTiledPrintingGearsSwingAWT overlapping tests exposes
a 'off by one' bug of the first layer's background!
Note: The GL content seems to be correct though - maybe it's simply an AWT rounding error ..
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drawable, skip vertical flip and use 1:1 y-coord.
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GLCanvas/GLJPanel
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and convenient AWT container traversal context; GLCanvas/GLJPanel properly handle existing MSAA and req. AA;
- Test: Don't resize frame, tweek print-matrix
- Use scaleComp72 to scale the frame to fit on page,
i.e. global print matrix
- Use scaleGLMatXY = 72.0 / glDPI
to locally scale on the GL drawable as being passed to AWTPrintLifecycle.setup(..)
- Hence frame stays untouched/stable, no need for 'offscreen' print test,
which is removed.
- AWTPrintLifecycle: Add scale and convenient AWT container traversal context
Use a simple decoration for all AWTPrintLifecycle impl. components within a container:
final AWTPrintLifecycle.Context ctx = AWTPrintLifecycle.Context.setupPrint(frame, g2d, scaleGLMatXY, scaleGLMatXY);
try {
} finally {
ctx.releasePrint();
}
- GLCanvas/GLJPanel properly handle existing MSAA and req. AA;
- GLCanvas: Workaround bug where onscreen MSAA cannot switch to offscreen FBO,
i.e. stay 'onscreen'
- GLJPanel: Use new offscreen FBO if MSAA is requested and not yet used.
- GLJPanel.Offscreen.postGL(): always swapBufer(), was missing for !GLSL swapping
Results GLCanvas / GLJPanel:
- Good scaling
- Stable behavior / visibility
- High DPI mode works
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RenderingHints test; setupPrint(Graphics2D): Query RenderingHints to use MSAA rendering
- AWTPrintLifecycle.setupPrint(Graphics2D): Query RenderingHints to use MSAA rendering
- Impl. in GLCanvas
- TODO GLJPanel (would need a new offscreen buffer)
- TiledPrintingAWTBase:
- Fix scaling - Fit frame to page
- add MSAA RenderingHints test
- GLCanvas: Remove dumpStack() DEBUG output
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GLProfile (just a query, no new profile)
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reused w/ GLCanvas and GLJPanel
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print(Graphics): Don't force on AWT-EDT -> Deadlock; releasePrint(): perform reshape/display!
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setupPrint()/releasePrint(), modularize unit test TestTiledPrintingGearsAWT
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drawing image and show same; Test: Add offscreen print and add borders.
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print(..); Test: Add auto-print w/o UI 72dpi and 300dpi
NOTE: Tile raster is added at print plus lots of debug output - WIP!
- Swap to offscreen at setupPrint()
- Swap GLEventListener (GLEL) and GLContext to fixed size offscreen GLAutoDrawable (GLAD)
- Destroy onscreen drawable/context
- Setup TileRenderer w/ offscreen GLAD
- @ releasePrint() restore onscreen ..
This shall ensure we don't hog the GPU resources when
resizing the AWT component (upscaling).
- Use TileRenderer @ print(..)
The clip-rect will be used as the TileRenderer's image-size
and we perform a whole tile-rendering loop.
This helps to limit resources, see above.
- Test: Add auto-print w/o UI 72dpi and 300dpi
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GLEventListener reshape(..) or manual reshape after beginTile(..) method.
GLEventListener reshape(..) method should be aware of TileRenderer usage
and get the missing tile position and image size from it (-> see Gears example).
TestRandomTiledRendering3GL2AWT demos AWT GLCanvas onscreen
being used for random tile rendering to produce a PNG file.
TestTiledRendering1GL2 is now GLAutoDrawable/GLEventListener agnostic,
hence demos plain GLDrawable tile rendering usage.
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utilization AWTGLPixelBuffer* -> GLPixelBuffer*
GLPixelBufferProvider:
- Default*.getAttributes(): Add componentCount==1 (ALPHA/RED), validate values, throw exception if n/a or not supported
- Add 'allowRowStride' (as for AWTGLPixelBufferProvider)
- Add default for true and false
GLPixelBuffer:
- Add 'allowRowStride' (as for AWTGLPixelBuffer)
- Fix requiresNewBuffer(..):
- aquire minByteSize if passed one is <= 0
- validate minByteSize w/ currentByteSize according to allowRowStride.
AWTGLPixelBuffer: 'allowRowStride' impl. moved to GLPixelBuffer.
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'addNativeJarLibsJoglCfg(..)' to GlueGen, commit c0ead6fa10280f8076704726d59f482b183fd77e
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-> GLES2 (in profile set)
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reflect semanics - Also fix the exception message (enabled/disabled -> bound/unbound)
Reason of change: Avoid confusion and point to the cause!
API change:
glIsVBOArrayEnabled() -> glIsVBOArrayBound()
glIsVBOElementArrayEnabled() -> glIsVBOElementArrayBound()
glIsPBOPackEnabled() -> glIsPBOPackBound()
glIsPBOUnpackEnabled() -> glIsPBOUnpackBound()
Exception message change:
"must be enabled to call this method" -> "must be bound to call this method"
"must be disabled to call this method" -> "must be unbound to call this method"
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Make impl. methods final.
createDummyDrawable(..) is useful for efficient shared context w/o actually rendering to this dummy drawable's framebuffer
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calling 'PropertyAccess.isPropertyDefined(propName, default)' through Debug class.
Calling 'Debug.isPropertyDefined(propName, default)' may be 'optimized' to
'PropertyAccess.isPropertyDefined(propName, default)', which would skip the modules Debug's class initialization.
Iff that happens, an AccessControlException may happen, due to requesting an insecure property,
since modules own Debug class has not been added it's trusted prefixes from within it's init block yet.
This seems to be a bug of the JVM .. to me, however .. the above description is the only
able to explain the issue at hand.
+++
Fix calls Debug class own static methods, either Debug.initSingleton() or Debug.debug(),
before calling 'isPropertyDefined(propName, default)'.
+++
Also mark Debug class static methods final!
+++
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add GLProfile argument, similar to canCreateFBO(..)
In case a compatible non-core profile is requests, canCreateGLPbuffer(..) returns false on OSX.
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commit 1a20ef3aa1dc9acedd7da0475ee19d4c40b18498)
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case proper ES3_compat is given.
isGLES3Compatible() and isGL4ES3() of GLBase _and_ GLContext
includes [ GL >= 4.3, GL >= 3.1 w/ GL_ARB_ES3_compatibility and GLES3 ].
Tested GL 'aliasing' w/ TestGLProfile01NEWT, i.e. isGL*() and getGL*().
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core profile now - no more OSX exception!
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BuildComposablePipeline: Unify GL identify methods
- Only use base pipelines for Trace/Debug, mock others (ES2, GL2, ..)
The Trace/Debug generated pipelines consume quite some space
and only the actual GL*Impl pipeline is actually required.
To make this work, we have to identify the GL type via it's downstream instance
to implement isGL*() and getGL*() methods, see below!
Adding dummy Trace/Debug type wrapper for GL2, GL3, GL3bc, GL4 and GLES2.
BuildComposablePipeline: Unify GL identify methods
As described above, Trace/Debug shall utilize downstream identification for isGL*() and getGL*() methods.
Custom types, like FixedFuncImpl may choose to be identified by their class inheritance,
by passing command-line argument 'gl_identity_by_assignable_class'.
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3a0d7703da32e9a5ddf08a334f18588a78038d88
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getDownstreamGL()/getRootGL(); GLContext.isGL* added proper API doc., isGL3core()/hasNoDefaultVAO() and getDefaultVAO().
- Fix BuildComposablePipeline's isGL*/getGL* (regression of commit 3a0d7703da32e9a5ddf08a334f18588a78038d880)
- GLBase: getDownstreamGL()/getRootGL()
Allows user traversing through pipelined GL instances.
Also added getRootGL() to GLContext.
- GLContext.isGL* added proper API doc.: We test the actual context, not the profile.
- GLContext isGL3core()/hasNoDefaultVAO() and getDefaultVAO()
- Move isGL3code() def. back to pre 3a0d7703da32e9a5ddf08a334f18588a78038d880, i.e. Includes [ GL4, GL3 ] w/o GLES3.
- Added hasNoDefaultVAO() and getDefaultVAO() .. incl. [ GL4, GL3, GLES3 ]
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ES3 / GL4.3:
- Update all EGL, GLX, WGL and GL (desktop and mobile) khronos headers to latest version.
- GL3/gl3* -> GL/glcorearb*
- Explicitly preserve ES2_compatibility and ES3_compatibility in header,
most extension grouping was removed in new headers.
- Always load all GLHeader to ensure proper extension association across all profiles.
- Unified method signatures
- Added GL_EXT_map_buffer_range to core
- Using common 'glMapBufferImpl(..)' for all glMapBuffer(..) and glMapBufferRange(..) impl.
- Init necessary fields of GL instances via 'finalizeInit()' called by reflection, if exist.
This allows removing initialization checks, i.e. for all buffer validations.
- BuildStaticGLInfo: Can handle new GL header structure, i.e. one CPP extenstion block incl. define + funcs.
- GLJavaMethodBindingEmitter: Simply print the
- No GL duplication due to new intermediate interfaces, see below
- OO lineare inheritance (Added GL2ES3, GL3ES3 and GL4ES3 intemediates):
GLBase - GL - GL2ES2 - GLES2
GLBase - GL - GL2ES2 - GL2GL3 - [ GL2, GL3 ]
GLBase - GL - GL2ES2 - GL2ES3 - GL3ES3 - [ GL3 ]
GLBase - GL - GL2ES2 - GL2ES3 - GL3ES3 - GL4ES3 - [ GLES3, GL4, .. ]
- Expose 'usable' intermediate interfaces GL3ES3 and GL4ES3 in GLBase/GLProfile/GLContext
via is*() and get*().
- GLContext*:
- isGL3core() is true if [ GL4, GL3, GLES3 ] (added GLES3)
- Added ctxProfile argument to allow handling ES versions:
- getMaxMajor(..), getMaxMinor(..), isValidGLVersion(..) and decrementGLVersion(..)
- mapGLVersions(..) prepared for ES ARB/KHR validation
- EGLContext checks ES3 (via old ctx's GL_VERSION)
- ExtensionAvailabilityCache adds GL_ES_Version_X_Y for ES.
- Prelim tests w/ Mesa 9.1.3
GL Version 3.0 (ES profile, ES2 compat, ES3 compat, FBO, hardware) - OpenGL ES 3.0 Mesa 9.1.3 [GL 3.0.0, vendor 9.1.3 (Mesa 9.1.3)]
- TODO:
- Use KHR_create_context in EGLContext.createContextARBImpl(..)
- More tests (Mobile, ..)
+++
Misc:
- GLContext*:
- Complete glAllocateMemoryNV w/ glFreeMemoryNV.
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i.e. allowing 4.3 and 4.4 for GL version validation.
4.4 b/c it may come up soon.
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- Quaternion.isEmpty()
- Texture.dispose(GL)
- GLContext.getGLVersionMajor() / ..Minor()
- GLContextImpl.bindPbufferToTexture() / releasePbufferFromTexture()
- MouseEvent.getWheelRotation()
-
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entry to set/get texture unit (default 0).
Allowing a user to set a specific texture-unit and to query the used texture-unit,
allows one to avoid a collision w/ own texture programming .. i.e. removes the burden to setup all params etc.
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