From the CUDA programming guide:
The address of a __global__ function taken in host code cannot be used in device code (e.g. to launch the kernel). Similarly, the address of a __global__ function taken in device code cannot be used in host code.
It is not allowed to take the address of a __device__ function in host code.
So you've two options:
Define your __device__ function pointer globally and call it in kernel.
typedef float (*pfunc)(float arg);
__device__ float dev_func(float arg) {
return arg * arg;
}
// create device function pointer here
__device__ pfunc dev_func_ptr = dev_func;
__global__ void ker_func() {
// call function through device function pointer
printf("%f\n", dev_func_ptr(2));
}
If you want to pass function pointer to kernel as argument, then:
#define gpuErrchk(val) \
cudaErrorCheck(val, __FILE__, __LINE__, true)
void cudaErrorCheck(cudaError_t err, char* file, int line, bool abort)
{
if(err != cudaSuccess)
{
printf("%s %s %d\n", cudaGetErrorString(err), file, line);
if(abort) exit(-1);
}
}
typedef float (*pfunc)(float arg);
__device__ float dev_func(float arg) {
return arg * arg;
}
// create device function pointer here
__device__ pfunc dev_func_ptr = dev_func;
__global__ void ker_func(pfunc fnc) {
// call function through device function pointer
printf("%f\n", fnc(2));
}
int main(int argc, char** argv)
{
// create a host function pointer
pfunc host_function_ptr;
// copy function pointer value from device to host
gpuErrchk(cudaMemcpyFromSymbol(&host_function_ptr, dev_func_ptr, sizeof(pfunc)));
// pass the copied function pointer in kernel
ker_func<<<1,1>>>(host_function_ptr);
gpuErrchk(cudaPeekAtLastError());
gpuErrchk(cudaDeviceSynchronize());
return 0;
}
