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I've the following opencl-code:

__constant SomeConstants[] = { 5, 7, 242, 74 };

long aslong(__global int * arr, int offset) {
    return ... <CalculateLong> ...;
};

void calcSomething(__global int * numArray, int * result) {
    long tempArray[] = { numArray[0], numArray[1], numArray[2], numArray[3] };

    long x0 = (result[0] = aslong(numArray, 0)) + tempArray[0];
    long x1 = (result[1] = aslong(numArray, 8)) + tempArray[1];
    long x2 = (result[2] = aslong(numArray, 16)) + tempArray[2];
    long x3 = (result[3] = aslong(numArray, 32)) + tempArray[3];
    // do some calculations here
    result[0] = x0;
    result[1] = x1;
    result[2] = x2;
    result[3] = x3;

};

__kernel void calc(__global int * numArray, __global long * sum) {
    long arr[] = { SomeConstants[0], SomeConstants[1], SomeConstants[2], SomeConstants[3] };
    calcSomething(numArray, arr);
    sum[get_global_id(0)] = arr[0];
    sum[get_global_id(0)+1] = arr[1];
    sum[get_global_id(0)+2] = arr[2];
    sum[get_global_id(0)+3] = arr[3];
};

The code above works as expected but the problem is, that I can't add some more calculations to calcSomething. When I add an empty loop to calcSomethig like as follows:

void calcSomething(__global int * numArray, int * result) {
    long tempArray[] = { numArray[0], numArray[1], numArray[2], numArray[3] };

    long x0 = (result[0] = aslong(numArray, 0)) + tempArray[0];
    long x1 = (result[1] = aslong(numArray, 8)) + tempArray[1];
    long x2 = (result[2] = aslong(numArray, 16)) + tempArray[2];
    long x3 = (result[3] = aslong(numArray, 32)) + tempArray[3];

    for (int i = 0; i < 18; i++) {}

    result[0] = x0;
    result[1] = x1;
    result[2] = x2;
    result[3] = x3;

};

result[0] and result[1] stores the correct values, but result[2] and result[3] are absolutely wrong. By commenting out the for-loop, result[2] and 3 are correct... any idea what happened to x0, x1, x2 and x3 while calling the for-loop?

share|improve this question

EDITED ANSWER: Your problem is located in the operations:

sum[get_global_id(0)] = arr[0];
sum[get_global_id(0)+1] = arr[1];
sum[get_global_id(0)+2] = arr[2];
sum[get_global_id(0)+3] = arr[3];

You are using your sum[] global array with overlapping indexes. However MANY work-items will write the same memory, producing undefined results. You need either to fix the overlapping, or perform an atomic operation to the global variable.

Example:

 gid 0 -> Write to sum[0,1,2,3]
 gid 1 -> Write to sum[1,2,3,4]
 //....

The for loop doesn't have to do with the problem at all. You are just seeing the effect of different schedules in a multithreaded enviroment. But that is not the root of the problem.

Further edit: The code has problems NOT related to OpenCL. The only problem with OpenCL is already described above.

There are many places where C variables are wrongly adressed or casted implicitly and then used wrongly. For example in aslong() 8 consecutive ints are added to make a long, but a long is made of 8bytes, not 8int.

share|improve this answer
    
You mean, I've to use get_global_id(0) instead of access the array with absolute indexes? My result-array isn't defined as __global. I'm creating the result-array in my calc-Kernel... – Nrgyzer Nov 12 '13 at 11:45
    
Sry, the answer is valid but the variables are wrong. Let me edit it. – DarkZeros Nov 12 '13 at 12:46
    
Alright, thanks, but I've only 1 work item (for testing purposes). That's the reason for absolute indexes... it is also notable that the result is always correct without the loop. When I add the for loop, the last 2 results are always wrong (but always have the same value). – Nrgyzer Nov 12 '13 at 13:11
    
Mmm, are you sure you are running 1 work-item only? Does your global aray have enough space for 4 long values? – DarkZeros Nov 12 '13 at 13:21
    
Yes... the global sum-array in my kernel has space for 8 long values (for testing purposes). Edit:\\ The same problem occurs when I try to replace the for loop with a while loop... – Nrgyzer Nov 12 '13 at 13:23

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