C++ Functions dealing with a Struct with a member of a Double Pointer [duplicate]

Question

So I have a header file and cpp file which contain this struct named 'Point' along with these already made working functions...

struct Point{
    double x;
    double y;
    double z;
};t

Point* createPoint(double x, double y, double z);
void displayPoint(Point* p);
void destroyPoint(Point* p);

I am attempting now to create a header and cpp for "Points" with the struct below...

struct Points{
    Point** array;
    int pointsSize;
};

Whenever I implement the similar functions for "Point" but for "Points", It creates it perfectly. The first function that I call beyond creating it works perfectly too, but after that first function after creating Points, It messes up. My theory is that in my implementation of displayPoints (destroyPoints is the same for test purposes) is actually deleting the values after it gets off the stack.

Points* createPoints (const char* filename){
  double x, y, z;

  std::ifstream inFile;
  inFile.open(filename);

  Points p;
  inFile >> p.pointsSize;

  p.array = new Point*[p.pointsSize];

  for(int i=0; i<p.pointsSize; i++){
     inFile >> x;
     inFile >> y;
     inFile >> z;
     p.array[i] = createPoint (x,y,z);
  }

  Points* ptr = &p;
  return ptr;
}


// ERROR MUST BE DELETING POINTS
void displayPoints (Points* p){
    Points n = *p;
    int size = n.pointsSize;
    Point** a = n.array;
    for(int i=0; i<size; i++){
        std::cout<<"Displaying Point "<<i<<"..."<<std::endl;
        displayPoint(a[i]);
    }
}

void destroyPoints (Points* p){
    Points n = *p;
    int size = n.pointsSize;
    Point** a = n.array;
    for(int i=0; i<size; i++){
        std::cout<<"Displaying Point "<<i<<"..."<<std::endl;
        displayPoint(a[i]);
    }
}

Answer 1

You are allocating Points on the stack and returning a pointer to memory that is freed as you go out from createPoints. That is creating a dangling pointer and it will be potentially dangerous, the address (Points *) is pointing on the stack, so it will not trigger a segfault or undefined behavior at runtime, unless that memory is overwritten by other function calls.

Second, you are right that memory is (most likely) overwritten when you call displayPoints because ,as the stack goes up, it overwrites the freed memory.

To solve this problem, you have to allocate Points on the heap so it will not be freed as you go out of the scope of the createPoints function.

This is an example on how you can sovle the problem.

Points* createPoints (const char* filename){
  double x, y, z;

  std::ifstream inFile;
  inFile.open(filename);

  Points * p = new Points;
  inFile >> p->pointsSize;

  p->array = new Point*[p->pointsSize];

  for(int i=0; i<p->pointsSize; i++){
     inFile >> x;
     inFile >> y;
     inFile >> z;
     p->array[i] = createPoint (x,y,z);
  }

  return p;
}

And also destroy points should be modified in this way.

void destroyPoints (Points* p){
    int size = n->pointsSize;
    Point** a = p->array;
    for(int i=0; i<size; i++){
        std::cout<<"Displaying Point "<<i<<"..."<<std::endl;
        delete a[i];
    }
    delete p;
}