Sign up ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

I have a dynamic array of structures, so I thought I could store the information about the array in the first structure.

So one attribute will represent the amount of memory allocated for the array and another one representing number of the structures actually stored in the array.

The trouble is, that when I put it inside a function that fills it with these structures and tries to allocate more memory if needed, the original array gets somehow distorted.

Can someone explain why is this and how to get past it? Here is my code

#define INIT 3

typedef struct point{
    int x;
    int y;
    int c;
    int d;
Point empty(){
    Point p;
    p.d=1000; //if you put different values it will act differently - weird
    return p;
void printArray(Point * r){
    int i;
    int total = r[0].y+1;
          printf("%2d | P [%2d,%2d][%4d,%4d]\n",i,r[i].x,r[i].y,r[i].c,r[i].d);

void reallocFunction(Point * r){
    r=(Point *) realloc(r,r[0].x*2*sizeof(Point));
void enter(Point* r,int c){
    int i;
        if( (r[0].y+2) >= r[0].x ){ /*when the amount of Points is near
                                     *the end of allocated memory.
                                      reallocate the array*/

int main(int argc, char** argv) {
    Point * r=(Point *) malloc ( sizeof ( Point ) * INIT );
    r[0].x=INIT;    /*so here I store for how many "Points" is there memory
                    //in r[0].y theres how many Points there are.*/
    return (0);
share|improve this question

2 Answers 2

up vote 2 down vote accepted

Your code does not look clean to me for other reasons, but...

void reallocFunction(Point * r){
    r=(Point *) realloc(r,r[0].x*2*sizeof(Point));

The problem here is that r in this function is the parameter, hence any modifications to it are lost when the function returns. You need some way to change the caller's version of r. I suggest:

Point *   // Note new return type...
reallocFunction(Point * r){
    r=(Point *) realloc(r,r[0].x*2*sizeof(Point));

    return r; // Note: now we return r back to the caller..

Then later:

r = reallocFunction(r);

Now... Another thing to consider is that realloc can fail. A common pattern for realloc that accounts for this is:

Point *reallocFunction(Point * r){
    void *new_buffer = realloc(r, r[0].x*2*sizeof(Point));

    if (!new_buffer)
       // realloc failed, pass the error up to the caller..
       return NULL;

    r = new_buffer;

    return r;

This ensures that you don't leak r when the memory allocation fails, and the caller then has to decide what happens when your function returns NULL...

But, some other things I'd point out about this code (I don't mean to sound like I'm nitpicking about things and trying to tear them apart; this is meant as constructive design feedback):

  • The names of variables and members don't make it very clear what you're doing.
  • You've got a lot of magic constants. There's no explanation for what they mean or why they exist.
  • reallocFunction doesn't seem to really make sense. Perhaps the name and interface can be clearer. When do you need to realloc? Why do you double the X member? Why do you increment Y? Can the caller make these decisions instead? I would make that clearer.
  • Similarly it's not clear what enter() is supposed to be doing. Maybe the names could be clearer.
  • It's a good thing to do your allocations and manipulation of member variables in a consistent place, so it's easy to spot (and later, potentially change) how you're supposed to create, destroy and manipulate one of these objects. Here it seems in particular like main() has a lot of knowledge of your structure's internals. That seems bad.
  • Use of the multiplication operator in parameters to realloc in the way that you do is sometimes a red flag... It's a corner case, but the multiplication can overflow and you can end up shrinking the buffer instead of growing it. This would make you crash and in writing production code it would be important to avoid this for security reasons.
share|improve this answer
Thanks for the advice. I will probably just design it differently (as Flavio suggested) , because this is just too messy. This code was just quickly made to extrapolate my problem from a much larger code so many of the things you mentioned are actually alright in the original code.Not all of them, though, so thank you for that again. –  Randalfien Dec 26 '10 at 0:27

You also do not seem to initialize r[0].y. As far as I understood, you should have a r[0].y=0 somewhere.

Anyway, you using the first element of the array to do something different is definitely a bad idea. It makes your code horribly complex to understand. Just create a new structure, holding the array size, the capacity, and the pointer.

share|improve this answer
Ok, I sort of anticipated that it is the case. I have a much more complex program (450lines) so I only extracted what concerned this problem, but I see I should not have done this in the first place. Just one more question, would I need to pass this other stucture as a parameter all over the program or is there another way to do this? somehow bind it together with the array? yeah and global variables I was told I should't use. –  Randalfien Dec 26 '10 at 0:24
The array would be one of the fields of the new structure, so instead of passing around the array, you can pass around a pointer to the structure, and obtain the array from it. –  Flavio Dec 27 '10 at 7:56

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.