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So the following code compiles with no warnings etc with gcc, but for some reason, the swap code doesn't actually modify the array by swapping the values...What could be going on here? One interesting thing is that tempalways contains what I want, it just doesn't get used.

#include <stdio.h>
#include <stdlib.h>
#include <math.h>

struct complex_
  double re, im;

typedef struct complex_  complex;

int reverseBits(int x,int elements);
complex new_complex(double re, double im);

int main()
    int n,m,elements = 8;
    complex temp,**v;

    //Allocate memory for the struct array...
    v = malloc(sizeof(complex*));
    *v = malloc(sizeof(complex)*elements);

    //Initialize the struct array...
    for (n = 0; n < elements; n++)
        (*v)[n] = new_complex(n,0);

    //View the initialized struct array contents...
    for (n = 0; n < elements; n++){printf("%f+%fi\n", (*v)[n].re,(*v)[n].im);}

    //Swap elements for the bit reversal...
    for (n = 0; n < elements; n++)
        m = reverseBits(n,elements);
        temp = (*v)[n];
        (*v)[n] = (*v)[m];
        (*v)[m] = temp;

    //View the new swapped struct array contents...
    for (n = 0; n < elements; n++){printf("%f+%fi\n", (*v)[n].re,(*v)[n].im);}

    return 0;

int reverseBits(int x,int elements)
    //This function performs a binary bit reversal
    //for example 3 = 011 => 110 = 6...
    int num_bits = log2(elements);
    int reverse_x = 0;
    int i;

    for (i = 0; i < num_bits; i++)
        if((x & (1 << i)))
            reverse_x |= 1 << ((num_bits - 1) - i);
    return reverse_x;

complex new_complex(double re, double im)
    //This function creates a new complex number.
    complex r; = re; = im;
    return r;
share|improve this question
You're not doing the allocation right. You're now first allocating a pointer to complex*, and then allocating an array of complex, which the first pointer points to. You'd better just allocate an array of complex* pointers - malloc(sizeof(complex*)*elements), and fill it using new_complex. Also, you should free all the allocated memory - first the complexes, and then the array. – eran Aug 17 '11 at 6:29
The reason I've created a pointer to an array is because I will modify that array in other functions. Is this still a problem? Also, I agree--I should free the memory. – nick_name Aug 17 '11 at 6:55
you can still pass around the array the way I suggest you create it. If you'd like some other function to create the array or replace it with another one, you can pass &v to it, and there do *v = some_other_complex_star_star. But if you'd like to change the array's content, you can pass it as is - v. – eran Aug 17 '11 at 7:17
up vote 3 down vote accepted

If you swap all items of the array once with the item at the "reversed" index, then you'll end up with the start state again. ie., for an array size of 8, these swaps are done :

  • swap item at index 0 with item at index 0
  • swap item at index 1 with item at index 4 (a)
  • swap item at index 2 with item at index 2
  • swap item at index 3 with item at index 6 (b)
  • swap item at index 4 with item at index 1 (a)
  • swap item at index 5 with item at index 5
  • swap item at index 6 with item at index 4 (b)
  • swap item at index 7 with item at index 7

Notice that the swaps marked with the same letter ((a) or (b)) cancel each other out, and the others are no-ops.

share|improve this answer
That makes sense. What is the proper way to achieve the desired value swap, then? – nick_name Aug 17 '11 at 6:56
@nick_name : what's the desired value swap ? – Sander De Dycker Aug 17 '11 at 7:35

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