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If for some reason you don't have access to STL -- or want to learn how to do this yourself -- you could use an algorithm like this:

Allocate your array as some arbitrary size, and remember how many elements are in it and how big it is:

int *a = malloc(int * ARBITRARY_SIZE);
int size = 0;
int allocated = ARBITRARY_SIZE;

each time you add a new element, increase "size". If size equals ARBITRARY_SIZE, multiply 'allocated' by 2, and reallocate the array. Either way, assign the new value to a[size].

void addElement(int value) {
  ++size;

  if (size == allocated) {
    allocated *= 2;
    int *new_a a = malloc(sizeof(intrealloc(sizeof(int) * allocated);
    memcpy(new_a, a, (allocated / 2) * sizeof int);
    a = new_a;
  }

  a[size] = value;
}

Note that your code above has at least one bug -- you aren't allocating enough space for x[1] in either case.

Also obviously in real code you'd check that the return from malloc & realloc isn't null.
show/hide this revision's text 1

If for some reason you don't have access to STL -- or want to learn how to do this yourself -- you could use an algorithm like this:

Allocate your array as some arbitrary size, and remember how many elements are in it and how big it is:

int *a = malloc(int * ARBITRARY_SIZE);
int size = 0;
int allocated = ARBITRARY_SIZE;

each time you add a new element, increase "size". If size equals ARBITRARY_SIZE, multiply 'allocated' by 2, and reallocate the array. Either way, assign the new value to a[size].

void addElement(int value) {
  ++size;

  if (size == allocated) {
    allocated *= 2;
    int *new_a = malloc(sizeof(int) * allocated);
    memcpy(new_a, a, (allocated / 2) * sizeof int);
    a = new_a;
  }

  a[size] = value;
}

Note that your code above has at least one bug -- you aren't allocating enough space for x[1] in either case.