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I am stuck with my program because of the stated problem. When I put a printf statement before or after assigning a computed value to an array, I get correct answer. Otherwise, it's a strange number. The number is pretty consistent though. The printf does not have to contain anything relevant to the array. I check this answer, but did not get much out of it. Below is part of my code:

int xcorr(Imdata, Kernel, sizeIm, sizeKernel, result_im)
unsigned short** Imdata;
unsigned short** Kernel;
long sizeIm[2], sizeKernel[2];
float** result_im;
register float Imstd, Imavg, Kernelstd, Kernelavg, combine_avg, outtmp, area;
register int bufYsize, bufXsize;
    int i,j,r,c;
register unsigned short *ImdataPtr, *KernelPtr;
register float *result;
register float val1, val2;

// kernel average and standard deviation are constant throughout this function
area = sizeKernel[0]*sizeKernel[1];
outtmp = Kernelavg = 0;

// Using the One-pass standard variance algorithm
    KernelPtr = Kernel[i];
           val1 = KernelPtr[j];
        Kernelavg += val1;
        outtmp += val1*val1;
Kernelavg /= area;
outtmp /= area;

// now the standard deviation
Kernelstd = sqrt(outtmp - Kernelavg*Kernelavg);

  // Perform Correlation
  bufYsize = sizeIm[0] - sizeKernel[0] + 1;
  bufXsize = sizeIm[1] - sizeKernel[1] + 1;

    result = result_im[i];
        combine_avg = outtmp = Imavg = 0;

        // Using one-pass method for standard variance:
        for (r = 0; r < sizeKernel[0]; r++){
            KernelPtr = Kernel[r];
            ImdataPtr = Imdata[i+r];
            for (c = 0; c < sizeKernel[1]; c++){
                val1 = KernelPtr[c];
                val2 = ImdataPtr[j+c];
                Imavg += val2;
                outtmp += val2*val2;
                combine_avg += val1*val2;
        outtmp /= area;
        Imavg /= area;
        // standard deviation
        if((Imstd = outtmp - Imavg*Imavg)<=SMALL_VAR){
            result[j] = 0;
        Imstd = sqrt(outtmp - Imavg*Imavg);

        combine_avg /= area;
        result[j] = (float)combine_avg-(Imavg*Kernelavg))/(Kernelstd*Imstd);

return 0;

The error is with result, which is allocated in main as follow:

result = (float**)malloc(bufYsize*sizeof(float*));
if(result == NULL){
    printf("Error allocating the output array (pair num=%d)\n",k+1);
    xit_status = 1; //exit(EXIT_FAILURE);
       printf("Error allocating the output array at row %d, pair %d\n",i,k+1);
    exit_status = 1; //exit(EXIT_FAILURE);
share|improve this question
Sounds like you somewhere access that array out of bounds, or otherwise overwrite the stack. – Joachim Pileborg Jul 25 '13 at 19:03
Printf should only cause effects related to reading from data. And writing to a file. Maybe show some code so less speculation is needed? – wallyk Jul 25 '13 at 19:05
Is it possible that you're trying to print the value of a variable, before assigning a value to the variable? – mti2935 Jul 25 '13 at 19:05
or not allocating memory for array so not printing show your code! – Grijesh Chauhan Jul 25 '13 at 19:05
So where is the printf which causes weirdness? What is the error in the result? – wallyk Jul 26 '13 at 17:48

1 Answer 1

The only way that printf should be able to affect a variable is via the %n format specifier.

int x;
printf("foo%nbar\n", &x);
printf("%d\n", x);  // 3

If anything else is being modified, then your program must be invoking undefined behaviour somewhere. I suggest starting with Valgrind (or similar) to track this down.

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