Just writing a simple C program to read a long binary file, break it into 12-bit chunks with a 4 bit CRC appended, then output to another file. When I run the code in debug mode (Visual Studio 2012), it returns garbage, but as soon as I switch to Release mode it works fine.

Switching back to debug mode doesn't seem to bring back the problem either... just trying to understand what is going on here. Whatever VS is doing with "release mode" makes the code work there, but I always get the same garbage as debug mode when I use Dev-C++ to compile.

EDIT: I have made the suggest change of using malloc in the calc function, and free in my main, but I am still getting garbage output. VS actually crashes on running now.

char * calc(char bit12[])
    int r0,r1,r2,r3;
    int i,tmp;
    //char * bit16;
    char * bit16 = malloc(sizeof(char)*(17));
    char bits[16];
    bit16 = &bits[0];
    /* Set registers to zero */
    r0 = r1 = r2 = r3 = 0;
    /* Insert info bits, most significative first */
    for(i=0; i<12; i++) {
        /* shift registers and make mod2 (^) sums */
        tmp = r3;
        r3 = r2;
        r2 = r1 ^ tmp;
        r1 = r0 ^ tmp;
        r0 = (bit12[i] == '0') ? 0 ^ tmp : 1 ^ tmp;
    /* Insert 4 zeros to finish CRC calculation */
    for(i=0; i<4; i++) {
        /* shift registers and make mod2 (^) sums */
        tmp = r3;
        r3 = r2;
        r2 = r1 ^ tmp;
        r1 = r0 ^ tmp;
        r0 = tmp;
    for (i=0;i<12;i++) 
    if (r3 == 1)
    if (r2 == 1)
    if (r1 == 1)
    if (r0 == 1)

    printf("Internal Function input: %s\nInternal Function output: %s\n", bit12, bit16);

    return bit16;


int main(){
    char str[999];
    char *os,outstr[16];
    FILE *dataIn, *dataOut;
    os = &outstr[0];

    dataIn = fopen("data.txt", "r");
    dataOut = fopen("out.txt", "w");

        //printf("test point 1.\n");
        while(fscanf(dataIn, "%s", str)!= EOF){
            os = calc(str);
            fprintf(dataOut,"%0.16s\n", os);
            //printf("input: %s\n", str);
            //printf("output1: %s\n", outstr);
            //printf("output2: %s\n", os);
        printf("Error opening data!\n");

    printf("end of prog.\n");
    return 0;

  • The definition of sizeof is the size in multiples of the size of a char, so sizeof (char) is one, by definition. You can drop that from your code. – Ulrich Eckhardt Jan 20 '15 at 20:57

garbage in “Debug” mode but not in “Release” mode

Trust me it has nothing to do with that.

char bits[16]; is a Local (array) variable with automatic storage duration and references to it will become invalid once it leaves its declaring scope, i.e., when your calc function returns. When the function ends, the array ceases to exist and when you access that pointer/address later its Undefined behavior.

Instead of making a local array placed on stack, malloc it:

char * bit16 = malloc(sizeof(char)*(17)); //+1 for NUL char 
//do something
return bit16;

And use free to clear the memory when you do not need it.

os = calc(str);
fprintf(dataOut,"%0.16s\n", os);
  • 1
    If one wants to keep it static, the way is to pass a pre-allocated buffer to the function. – Eugene Sh. Jan 20 '15 at 17:50
  • Then just create your array like this char * bit16 = malloc(sizeof(char)*(17)); using malloc once and pass the char pointer in your calc functon and keep overwriting it. So your function prototype could be like char * calc(char bit12[], char * bit16) – Sadique Jan 20 '15 at 17:52
  • In this case the array can be allocated statically (char bit16[16]). No need to mess with heap. – Eugene Sh. Jan 20 '15 at 17:56
  • Of course you could pass a stack based array here - it all depends on your algo requirements. That is if you needed resizing of array then you would have to use malloc and free. – Sadique Jan 20 '15 at 17:56
  • "Trust me it has nothing to do with that." - It has. In release mode functions are often inlined, and then the memory on the stack is still there after the called function ends. It is still UB, but this is why it works in release. – Suma Jan 20 '15 at 18:19

You are returning a pointer to a local variable. Though this may fool the compiler

char * bit16;
char bits[16];

it will not work when returning bit16.

Because the data is stored in the stack frame of the calc() function, and hence it will be destroyed when the function returns.

You need to copy the value using malloc() and memcpy() like this

char *bit16 = malloc(16);
if (bit16 == NULL)
    return NULL;
memcpy(bit16, bits, 16);

you should be careful since the bit16 array cannot be used as a string because it has not '\0' terminator.

And then you will need to call free() on the return value of calc()

To avoid all of this you could pass the array as an argument to the function, like this

char * calc(char bit12[], char bit16[])

and then in the caller function

char * calc(char bit12[], char bits[])

char bit16[16];
calc(str, bit16);

without returning a value, and you should of course remove the declaration of bits and bit16 inside the calc() function.


Your bits[] array is local to the function, i.e. it is released after the function is returned. So the values in the returned pointer can be overwritten by other parts of the program. So most likely you will get garbage. Sometimes (like in your Release) you can get lucky and get something useful from there. But it is totally unreliable.


It has been a long time that I did C programming, but to me it seems you are returning a wrong pointer from calc(). bit16 points to bits16[0], but this becomes invalid the moment the function ends.

So you have an invalid pointer for the short period between the two calls:

 os = calc(str);
 /* here, os points to freed memory */
 fprintf(dataOut,"%0.16s\n", os);

I believe, if you just add something between those two lines, that consumes and frees memory, you will be able to make your error more reproducable.

bits16[16] should probably be a static char array outside of calc.

Just a shot.

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