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I am generating contiguous 2d arrays using the method posted on here by Shawn Chin.[1][2] It works very well.

Briefly from his post:

char** allocate2Dchar(int count_x, int count_y) {
  int i;

  # allocate space for actual data
  char *data = malloc(sizeof(char) * count_x * count_y);

  # create array or pointers to first elem in each 2D row
  char **ptr_array = malloc(sizeof(char*) * count_x);
  for (i = 0; i < count_x; i++) {
      ptr_array[i] = data + (i*count_y);
  }
  return ptr_array;
}

And the following free function:

void free2Dchar(char** ptr_array) {
  if (!ptr_array) return;
  if (ptr_array[0]) free(ptr_array[0]);
  free(ptr_array);
}

It is not obvious to me how to create an equivalent reallocate function in either dimension, though I am only interested in realloc'ing the number of rows while maintaining continuity. Growing the number of columns would be interesting to understand but probably quite difficult. I haven't found any direct discussion of this issue anywhere other than to say, "it's hard!".[2]

Of course this is doable by a horrible brute force method, copying the data to a new 1D array (data, above) for storage, realloc'ing the 1D array, then freeing and regenerating the pointers (ptr_array) to the row elements for the new size. This, however, is pretty slow for row modifications, since it is necessary to at least double the memory requirement to copy out the data, and this is truly horribly bad for changing the number of columns.

This is an example of said method for changing the number of rows (it wouldn't work properly for changing the number of columns because the offsets for the pointers would be wrong for the data). I haven't fully tested this, but you get the idea ...

double **
reallocate_double_array (double **ptr_array, int count_row_old, int count_row_new, int count_col)
{
  int i;
  int old_size = count_row_old * count_col;
  int new_size = count_row_new * count_col;

  double *data = malloc (old_size * sizeof (double));
  memcpy (&data[0], &ptr_array[0][0], old_size * sizeof (double));
  data = realloc (data, new_size * sizeof (double));

  free (ptr_array[0]);
  free (ptr_array);

  ptr_array = malloc (count_row_new, sizeof (double *));

  for (i = 0; i < count_row_new; i++)
    ptr_array[i] = data + (i * count_col);

  return ptr_array;
}

Plus, this method requires you know the previous size, which is obnoxious!

Any thoughts greatly appreciated.

[1] How can i allocate a 2D array using double pointers?

[2] http://www.eng.cam.ac.uk/help/tpl/languages/C/teaching_C/node52.html

share|improve this question
up vote 2 down vote accepted

The first malloc and the memcpy are unnecessary, because you have easy access to the original data array at ptr_array[0]. You don't need to know the old size, because realloc should recall how much it allocated at the address and move the correct ammount of data.

Something like this should work.

double **
reallocate_double_array (double **ptr_array, int count_row_new, int count_col)
{
  int i;
  int new_size = count_row_new * count_col;

  double *data = ptr_array[0];
  data = realloc (data, new_size * sizeof (double));

  free (ptr_array);

  ptr_array = calloc (count_row_new, sizeof (double *));

  for (i = 0; i < count_row_new; i++)
    ptr_array[i] = data + (i * count_col);

  return ptr_array;
}
share|improve this answer
    
Thanks much. This is correct and works well. – coastal Mar 4 '11 at 20:05

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