I fixed some bugs and did some more tests with both of the video-plugins. I integrated CoreVideo with osgPresentation, ImageStream has a new virtual method called createSuitableTexture which returns NULL for default implementations. Specialized implementations like the QTKit-plugin return a CoreVideo-texture. I refactored the code in SlideShowConstructor::createTexturedQuad to use a texture returned from ImageStream::createSuitableTexture.
I did not use osgDB::readObjectFile to get the texture-object, as a lot of image-related code in SlideShowConstructor had to be refactored to use a texture. My changes are minimal and should not break existing code.
There's one minor issue with CoreVideo in general: As the implementation is asynchronous, there might be no texture available, when first showing the video the first frame. I am a bit unsure how to tackle this problem, any input on this is appreciated.
Back to the AVFoundation-plugin: the current implementation does not support CoreVideo as the QTKit-plugin supports it. There's no way to get decoded frames from AVFoundation stored on the GPU, which is kind of sad. I added some support for CoreVideo to transfer decoded frames back to the GPU, but in my testings the performance was worse than using the normal approach using glTexSubImage. This is why I disabled CoreVideo for AVFoundation. You can still request a CoreVideoTexture via readObjectFile, though.
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Added template readFile(..) function to make it more convinient to cast to a specific object type.
Added support for osgGA::Device to osgViewer.
Added sdl plugin to provides very basic joystick osgGA::Device integration.
--This line, and thosAttached is an update to ReaderWriterDAE.cpp/h and daeReader.cpp/h that implements
osgDB::ReaderWriter::ReadResult
ReaderWriterDAE::readNode (std::istream&, const osgDB::ReaderWriter::Options*)
This virtual function had never been implemented in ReaderWriterDAE. I implemented this function because the DAE plugin could not load files from other ReaderWriter derived objects that use protocol handlers.
I have updated function declarations in the header to have identical signatures with the base class declarations that include the default parameter.
readNode (std::istream&, …) is nearly identical to readNode(const std::string &, …) except it uses a new private function to convert the file from standard input:
bool daeReader::convert( std::istream& fin )
When this function is called fileURI is the string “from std::istream” to make the user aware where the file is coming from. Then instead of calling
_dae->open(fileURI)
we call
_dae->openFromMemory(fileURI, buffer.data())
Where buffer.data() is a pointer to the dae file text in memory.
Other changes include private functions to clear caches and to consolidate redundant code that appears between the two convert functions.
e below, will be ignored--
M src/osgPlugins/dae/ReaderWriterDAE.cpp
M src/osgPlugins/dae/daeReader.cpp
M src/osgPlugins/dae/ReaderWriterDAE.h
M src/osgPlugins/dae/daeReader.h
(KTX). The KTX file format is straightforward and designed to be easy to
use in OpenGL.
http://www.khronos.org/opengles/sdk/tools/KTX/file_format_spec/http://www.khronos.org/opengles/sdk/tools/KTX/
The attached plugin can read:
* 1D, 2D, and 3D textures
* uncompressed and compressed images
* mipmapped and non-mipmapped textures
* little-endian and big-endian files
* textures from files as well as seekable istream objects
It does not handle:
* array textures (not supported by the ReaderWriter API)
* cubemap textures (not supported by the ReaderWriter API)
* the "KTXorientation" key-value pair; support could be added later (see
the file format spec for more information)
* non-seekable istream objects (would require more complicated memory
management)
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But the layers are not always children of the "model root" node : there can be a matrix transform between "model root" and "layers parent", so I've added the name "Layers" on the node which contains all layers to easily retrieve the layers groups from application code."
- Also, a 'dontSaveNormals' was added. It allows to ignore normals when writing an STL file. For example, it is useful for me when writing an STL file for CFD simulations.
- Some comments and code formatting were improved (to be consistent with the formatting already used in the plugin).
- With 'separateFiles' option files are now named fooX.stl instead of foo.stlX
The changes have been tested on various STL, both ASCII and binary found on the net. The change was based on the trunk branch."
From Robert Osfield, changed assert in Piotr's code to a runtime check warning report.
This fixes problems with PolygonZ records where the previous code was reading past the end of the record since it thought it had M values even if it didn't. I suspect the problem that James McGlone had back in 2006 was the same but reversed, when he tried to simply comment out the check, which was a (correctly) refused submission.""
indexed draws instead of plain array draws to save some amount of main memory.
Draw performance does not change with the nvidia binary blob as well as with
the open source drivers."
- add non square matrix
- add double
- add all uniform type available in OpenGL 4.2
- backward compatibility for Matrixd to set/get an float uniform matrix
- update of IVE / Wrapper ReadWriter
implementation of AtomicCounterBuffer based on BufferIndexBinding
add example that use AtomicCounterBuffer and show rendering order of fragments,
original idea from geeks3d.com."
1) they use direct link to texture
-> this is already handle by current plugin : OK
2) they defined colors with only 3 color components
-> it leads to a crash when trying to acces to the fourth component
I fixed that
3) they contain empty primitive lists
-> reading is ok, but osgviewer crashes when trying to display the geometries
The reason is that osg assume that DrawElementsare never empty (blunt acces to DrawElements.front() in PrimitiveSet.cpp)
I corrected this (on the plugin side), but I wonder :
Is it the responsability of plugins to create non empty DrawElements, or of osg core not to crash when they occur ?
If the responsability is on the osg core side, I can submit a patch to PrimitiveSet.cpp regarding that aspect.
4) they use a material binding scheme not supported by the plugin
->I've implemented a mechanism to handle this binding scheme
You will also find in the patch an example of these evil dae and comments on the offending elements.
They seems to be produced by ComputaMaps (www.computamaps.com)
They load well in Google Earth
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- correction to writeFace : the fourth point was defined with an incorrect code (http://www.autodesk.com/techpubs/autocad/acad2000/dxf/3dface_dxf_06.htm)
- if no layer name was found, an empty string was used, with is incorrect according to dxf specifications and was rejected by Autodesk DWG TrueView
- the plugin was writting polygons and triangles as LINE, as if PolygonMode GL_LINE was active, and didn't use 3DFACE primitive.
I changed this behaviour to write 3DFACE as default, and LINE when PolygonMode GL_LINE is active.
when reading back the file with osg, the result is now consistent with the source
Tested with osg plugin, FME (Safe software), Autodesk DWG TrueView
"
Here's a summary:
* Uses a separate ZIP file handle per thread
* Maintains a single shared (read-only) index, created the first time through
* Stress-tested with the DatabasePager using 24 threads under osgEarth
I also updated the member variables to use OSG's leading-underscore convention."