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;
Point empty(){
Point p;
p.x=1;
p.y=10;
p.c=100;
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;
for(i=0;i<total;i++){
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));
r[0].x*=2;
}
void enter(Point* r,int c){
int i;
for(i=1;i<c;i++){
r[r[0].y+1]=empty();
r[0].y++;
if( (r[0].y+2) >= r[0].x ){ /*when the amount of Points is near
*the end of allocated memory.
reallocate the array*/
reallocFunction(r);
}
}
}
int main(int argc, char** argv) {
Point * r=(Point *) malloc ( sizeof ( Point ) * INIT );
r[0]=empty();
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.*/
enter(r,5);
printArray(r);
return (0);
}
```