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Problem: Attempting to share a Renderbuffer (or a Texture), bound to a Framebuffer, fails when clSetKernelArg() is called. Thorough error checking reports no problems until that call.

My program generates frames for a video projector that runs at 60fps (16.7ms frames).

My kernel runs in (typically) 24ms, but it's taking 50ms between each frame. I assume that some of the extra cost is because I'm using the GPU to calculate the pixels, then enqueuing a readbuffer to pull the data off the GPU, then using glDrawPixels to put it back onto the GPU for display. Perfect situation to try OpenGL/OpenCL interoperation, right?, to avoid the two extra copy operations.

There are many examples, and I have succeeded in sharing a VBO with OpenCL, and can write to it, but that doesn't help me. I don't want to write vertex data, just a 2-D image that's been calculated.

There are examples of two different ways to do this, and they both involve Framebuffer objects.

You can attach a Renderbuffer to a Framebuffer, or you can attach a Texture to a Framebuffer.

Then you should be able to write to that buffer in opencl and display it with opengl, no extra copies.

I have found a few examples of this in code, and I think I'm doing everything exactly the way the examples say to do it, but maybe it is broken in OSX? .. because it doesn't work. The FBO is "Complete", no errors along the way, until I try to do the clSetKernelArg. That call returns error -38, CL_INVALID_MEM_OBJECT.

*note: I would rather use a Renderbuffer than a Texture, since all I'm doing is making a 2-D RGB image that I want to display. But I tried a Texture out of desperation. Still no help.

I do these steps, in this order, with some other stuff in between:

kCGLContext = CGLGetCurrentContext(); 
kCGLShareGroup = CGLGetShareGroup( kCGLContext );

glGenFramebuffers( 1, &fboid );
glBindFramebuffer( GL_FRAMEBUFFER, fboid );

glGenRenderbuffers( 1, &rboid );
glBindRenderbuffer( GL_RENDERBUFFER, rboid );
glRenderbufferStorage( GL_RENDERBUFFER, GL_RGBA, rb_wid, rb_hgt );

glboid = rboid;



cl_context_properties ourprops[] = { CL_CONTEXT_PROPERTY_USE_CGL_SHAREGROUP_APPLE, (cl_context_properties)kCGLShareGroup, 0 };

contextZ = clCreateContext( ourprops, 1, &dev_idZ[0], clLogMessagesToStdoutAPPLE, NULL, &err );

clbo = clCreateFromGLRenderbuffer( contextZ, CL_MEM_WRITE_ONLY, glboid, &err );

then clCreateCommandQueue, clCreateProgramWithBinary, clBuildProgram, clCreateKernel, all no errors

then later:

clEnqueueAcquireGLObjects( queueZ, 1, &clbo, 0,0,0 );

err = clSetKernelArg( kernelZ, 1, sizeof(cl_mem), &clbo );

... which fails with error -38, CL_INVALID_MEM_OBJECT.

clbo is a static cl_mem, just like the buffer object that's used when interop is not on. The difference being that it was created using clCreateFromGLRenderbuffer instead of clCreateBuffer, and it's in a context created in association with the gl sharegroup.

(I've tried adding a second Renderbuffer and attaching it to a Depth Attachment Point, in case that was needed. No help.)

(I've tried the same thing with a Texture bound to the FBO, and I get the same error in the same place.)

... does anybody have any ideas at all?

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1 Answer

Ok; got it!

The problem was that the kernel was specifying a uint * as its output argument instead of image2d_t. I didn't think this would matter at least for the setkarg call; they are both cl_mem on the host side (image2d_t is #defined as cl_mem). However, once you call clCreateFromGLTexture2D or clCreateFromGLRenderbuffer, that object acquires properties the ocl knows about. When the kernel was changed to specify image2d_t, more useful error messages appeared, and it now works.

Bonus fact: you can't write to a UNORM_INT8 image with write_imageui; you have to use write_imagef.

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do you know why write_imagef should be used instead of write_imageui with UNORM_INT8? Did you find it yourself or it was documented somewhere? Thanks! –  Filipp Nov 25 '12 at 21:37
Oh, it was in OpenCL spec, I've just missed it. –  Filipp Nov 25 '12 at 21:39
Sorry; haven't looked here in a while ... No, I found it out through internet searches and stumbling across someone who said something like "of course you can't use write_imageui to write a UNORM8" ... whereas, naturally, I had thought that you'd have to use something that ended in "i" to write to an int! . . . so, complete random luck. I guess I should have read the spec like you did!!! :) –  Photovore Dec 5 '12 at 23:27
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