Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

While developing an OpenCL kernel supposed to compute some features on an image, I came across a bug I didn’t manage to solve. To figure out the problem I built a silly, tiny kernel that still returns wrong values. Here it is:

__constant sampler_t sampler =  CLK_NORMALIZED_COORDS_FALSE |
                                CLK_ADDRESS_CLAMP_TO_EDGE |

__kernel void readImageTest(__read_only image2d_t img, __global float *result){
    const int2 coord = (int2)(get_local_id(0), get_local_id(1));
    int2 nbOfWorkers = (int2)(get_local_size(0), get_local_size(1));
    uint4 tmp = read_imageui(img, sampler, coord);
    result[coord.x + coord.y * nbOfWorkers.x] = (float)tmp.x;

As you can see, this kernel is made to work with only one workgroup where each thread copies the red channel of an image into a global buffer.
I call this kernel with 1 workgroup of size (2, 2) on an image of 6 by 6 pixels. Moreover only the red channels contain value different from 0. These values go from 0 to 35 with the left upper corner pixel having the red value set to 0, its right neighbor to 1 and so on, until the right lower corner pixel with the red value to 35. Here are some fragments of the python code:

def test_read_img(self):
    arr = np.array(range(0, 36), dtype=np.uint8).reshape((6, 6))
    img = np.dstack((arr, np.zeros((arr.shape[0], arr.shape[1], 3), dtype=np.uint8)))
    result = self.detector.read_img(img, (2, 2))

detector is an instance of a class that handles the OCL calls, here is the *read_img* function:

def read_img(self, image, local_size):
        cl_image = cl.Image(self.ctx,
                            self.mf.READ_ONLY | self.mf.COPY_HOST_PTR,
        out_buf = cl.Buffer(self.ctx, self.mf.WRITE_ONLY,
                            size=int(local_size[0] * local_size[1] * dtype('float32').itemsize))
        self.prog.readImageTest(self.queue, local_size, local_size, cl_image, out_buf)
        result = zeros(local_size[0] * local_size[1], float32)
        cl.enqueue_copy(self.queue, result, out_buf).wait()
        return result

And finally how the variable *cl_image_format* is instanciated:

self.cl_img_format = cl.ImageFormat(cl.channel_order.RGBA,

So if everything worked fine, the result should be [0. 1. 6. 7.] instead I get [0. 24. 4. 28.].
I tested this code on three different devices: 2 ATIs and 1 NVIDIA. All returned the same false result. I also made a small C program that does the same stuff that python and called the same kernel which that time returned me the proper result. So my mistake is in the python code but I really can’t see it though it must be just under my nose. Does anybody have an idea what could be wrong?
P.S. I'm using Win7 x64, free EPD 7.3-2 distribution, python 2.7.3 and I used the pyopencl installer from this website.

share|improve this question
What happens if you hardcode the kernel output values? This will tell you if it's the kernel setup/execution that are failing, or reading the results as well, narrowing down the bug. –  Thomas May 8 '13 at 15:36

1 Answer 1

up vote 1 down vote accepted

Ok I found what was wrong....stupid me. So, if someone is as absent-minded as me, here is the solution:
As Thomas suggested I tested the “reading part” and it returned the expected result.
I also read back the image with cl.enqueue_read_image. The result was wrong but explained the values I get the first time. I had sth like:

[[[ 0  6 12 18]
  [24 30  1  7]
  [13 19 25 31]
  [ 2  8 14 20]
  [26 32  3  9]
  [15 21 27 33]]

 [[ 4 10 16 22]
  [28 34  5 11]
  [17 23 29 35]
  [ 0  0  0  0]
  [ 0  0  0  0]
  [ 0  0  0  0]]

The rest is only 0.
The reason is that the dstack function returns me an F-ordered array. D’oh!!
I fixed the problem by copying the result of the dstack function:

img = np.dstack((arr, np.zeros((arr.shape[0], arr.shape[1], 3), dtype=np.uint8))).copy()

The default order value for the copy function is 'C'

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.