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I have a function that processes some data and finds the threshold that classifies the data with the lowest error. It looks like this:

void find_threshold(FeatureVal* fvals, sampledata* data, unsigned int num_samples, double* thresh, double* err, int* pol) {
    //code to calculate minThresh, minErr, minPol omitted
    printf("minThresh: %f, minErr: %f, minPol: %d\n", minThresh, minErr, minPol);
    *thresh = minThresh;
    *err = minErr;
    *pol = minPol;

Then in my test file I have this:

void test_find_threshold() {
    //code to set up test data omitted
    find_threshold(fvals, sdata, 6, &thresh, &err, &pol);

    printf("Expected 5 got %f\n", thresh);
    assert(eq(thresh, 5.0));
    printf("Expected 1 got %d\n", pol);
    assert(pol == 1);
    printf("Expected 0 got %f\n", err);
    assert(eq(err, 0.0));

This runs and the test passes with the following output:

minThresh: 5.000000, minErr: 0.000000, minPol: 1
Expected 5 got 5.000000
Expected 1 got 1
Expected 0 got 0.000000

However if I remove the call to printf() from find_threshold, suddenly the test fails! Commenting out the asserts so that I can see what gets returned, the output is:

Expected 5 got -15.000000
Expected 1 got -1
Expected 0 got 0.333333

I cannot make any sense of this whatsoever.

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The problem may like in the code you omitted (//code to calculate minThresh, minErr, minPol omitted) –  David V. Mar 15 '10 at 13:54
What you've written looks good to me at first glance, so the actual error probably lies in the code you have omitted. Are you sure that when you remove the printf call, the code after it is still being executed? Can you run this in a source-level debugger (such as gdb)? –  John Bode Mar 15 '10 at 13:54
Pointer aliasing? –  KennyTM Mar 15 '10 at 13:56
Where and how are minThresh, minErr, minPol defined? –  gnavi Mar 15 '10 at 13:57
This may be an optimizer bug. I would try compiling with all optimizations disabled to see if the problem still occurs. –  Hasturkun Mar 15 '10 at 13:59

2 Answers 2

printf can call malloc. Because of this, if you have some dangling pointers, calling printf can change the values pointed to by these. If your program was strictly conforming you wouldn't observe this kind of differences when calling printf though (as you rightly expect). At worst an allocation in printf could fail, but not silently corrupt other variables.

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To test this, move your printf calls down below the last of your assignment statements. That way, if printf is changing anything it will happen after the "important part" of the function takes place. –  bta Mar 15 '10 at 18:18

I would suspect some problem with memory access / allocation and test with valgrind

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I ran it through valgrind and it informed me that there were some uninitalized variables in the function. I tracked down the culprits (a pair of doubles I was using to keep cumulative sums) and initialized them properly and now it works. So now I know why my code was giving the wrong answers - but I'm still mystified as to how calling printf could make it give the correct answers! –  user294003 Mar 15 '10 at 14:26
The only way I can think of to figure that out would be to look at the assembly code generated. Did you compile with optimisations ? Perhaps the printf makes some variables allocated on the stack instead of a register, and the result is different (probably by luck since the variables were unitialized) –  David V. Mar 15 '10 at 15:41
David's last comment seems right to me - since the printf call will clobber registers, adding it will change the allocation of variables to registers/memory in the calling function. –  caf Mar 15 '10 at 21:40

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