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I trying to use OpenCL using HASKELL. I write a simple program converting a working one in C. It appears to work well, but when I assign a memory object to the kernel parameters, it fails with CL_INVALID_MEM_OBJECT error. I don't know who to fix because I use the same calls than in C program and there it works:

The programSource is the OpenCL code

programSource :: String
programSource = "__kernel void duparray(__global float *in, __global float *out ){  int id = get_global_id(0); out[id] = 2*in[id]; }"

And the initializacion works until the call of clSetKernelArg that fails with Just (ErrorCode (-38))

-- test openCL
input  <- newArray ([0,1,2,3,4] :: [CFloat])

Right mem_in <- clCreateBuffer myContext (memFlagsJoin [clMemReadOnly,clMemCopyHostPtr]) (4*5) (castPtr input)
Right mem_out <- clCreateBuffer myContext clMemWriteOnly (4*5) nullPtr
print (mem_in,mem_out)
Right program <- clCreateProgramWithSource myContext programSource
print program

err <- clBuildProgram program [myDeviceId] "" buildProgramCallback nullPtr
print err

Right kernel <- clCreateKernel program "duparray"
print kernel

kaErr0 <- clSetKernelArg kernel 0 (fromIntegral.sizeOf $ mem_in) (castPtr mem_in)
kaErr1 <- clSetKernelArg kernel 1 (fromIntegral.sizeOf $ mem_out) (castPtr mem_out)
print (kaErr0,kaErr1)

I'm using OpenCLRaw, with several modifications that i put on https://github.com/zhensydow/OpenCLRaw

share|improve this question
    
Don't know Haskell, so maybe it's what it is already doing, but clSetKernelArg expects the address of mem_in, not mem_in itself. – Eric Bainville Jul 1 '11 at 21:37
    
@Eric you're right in that. I used the address of mem_in and it works – Zhen Jul 5 '11 at 10:57
up vote 1 down vote accepted

I found that I need to pass the direction of the mem buffer pointer, no the pointer itself. This is the rigth way to call clSetKernelArg:

dir_mem_in <- (malloc :: IO (Ptr Mem)) 
poke dir_mem_in mem_in
kaErr0 <- clSetKernelArg kernel 0 (fromIntegral.sizeOf $ mem_in) (castPtr dir_mem_in)
dir_mem_out <- (malloc :: IO (Ptr Mem)) 
poke dir_mem_out mem_out
kaErr1 <- clSetKernelArg kernel 1 (fromIntegral.sizeOf $ mem_out) (castPtr dir_mem_out)
print (kaErr0, kaErr1)
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