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If this is a beginner's question, my apologies - most of my programming has been in very high level langauges, and I have limited expertise in C. (This is the sort of thing I could do very easily in languages such as Matlab, Octave, Sage, Maxima etc, but for this I need the speed of C).

But anyway... I have an array whose size is set at run time with malloc:

int *A = malloc(m * sizeof(int));

where m is computed from some values provided by the user. I have a function "update" which updates the array (or, if you prefer, takes the array as input and returns another as output). This update function may be called upwards of 10^8 times.

So the function itself can't introduce the appropriately sized output array with malloc, or the memory will be used up. So, for example, I can't do this:

int * update(int *L) /* produces next iteration of L */
  int *out = malloc(m * sizeof(int));
  /* do some stuff with L and produce new array out */
  return (out);

I've tried to make out a static variable outside the update function:

static int *out;

and define its size in main:

out = malloc(m * sizeof(int));

But this doesn't seem to work either.

Anyway, I would be very grateful of some advice - I think I've exhausted the excellence of google.

share|improve this question
are you free()ing the memory after use? – Otto Allmendinger Aug 1 '12 at 12:49
memory will be used up: just free() it when no longer required. – hmjd Aug 1 '12 at 12:51

3 Answers 3

up vote 3 down vote accepted

Allocate the array outside of update, then pass a pointer to it:

void update(int const *L, int *out)
    // whatever

Call as

int *A = malloc(m * sizeof(int));
if (A == NULL)
    // handle error

for (i=0; i < N_ITER; i++)
     update(L, A);

Though you may want to redesign the program so that it updates L in-place.

share|improve this answer
Thanks very much - this is the one which seemed to work best, and which I could apply with the least amount of fiddling with my program. I tested it on some values which had caused a memory crash before, and the update function was called approximately 200,000,000 times before I got my result. Thanks again! – Alasdair Aug 1 '12 at 13:36

You should use realloc.

int *a = realloc(a, m * sizeof(a[0]));

It will work just as malloc in the first run but then it will reallocate a different sized array. You should note that the new array might or might not have the previous values assigned in it. You should assume that it has garbage like all things given by malloc.

Here is a good explanation of using realloc.

NOTE : sizeof(a[0]) is equal to sizeof int but if you change int it will still be right

share|improve this answer
There's nothing in the OP's question that suggests the array size changes in between updates (and in typical iterative number crunching algorithms, such changes are rare). Also, realloc does copy/leave in place the previous values in the array. – larsmans Aug 1 '12 at 13:29
I've used realloc when I've needed to adjust an array's size, but that isn't needed here. Oh for python, where if L is a list, then L += [val] just appends the new value to it. – Alasdair Aug 1 '12 at 13:51
I missread the question. – Dimitar Slavchev Aug 1 '12 at 14:31

So if you are simply wanting to work on the data that is coming into the function directly, then what you have is partially already correct. The only thing that I would do is to add the size of the array as an input parameter to the routine to look like this:

void update(int * L, unsigned int size){
    unsigned int count;

    // Make sure the array has actually been allocated from outside
    if(L == NULL) return;

    // Example work on L just as if it is an array of values
    for(count = 0; count < size; count++){
        L[count] = L[count] + 1;

REMEMBER, this will work if you DO NOT wish to maintain the original data within L. If you do wish to maintain the original data, then larsmans answer will work better for you.

Also remember that you will have to malloc whatever variable you wish to input into L, outside and prior to your update routine, and free at some other point.

int * myVar = (int *)malloc(m * sizeof(int));

update(myVar, m);

// Other work to be done

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