# Calling Base Class Functions with Inherited Type

I can't describe exactly what I want to say but I want to use base class functions with an inherited type. Like I want to declare "Coord3D operator + (Coord3D);" in one class, but if I use it with Vector3D operands, I want it to return Vector3D type instead of Coord3D.

With this line of code below, I add two Vector3D's and get a Coord3D in return, as told to me by the typeid().name() function. How do I reorganize my classes so that I get a Vector3D on return?

``````#include <iostream>
#include <typeinfo>
using namespace std;

class Coord3D
{
public:
float x, y, z;
Coord3D (float = 0.0f, float = 0.0f, float = 0.0f);
Coord3D operator + (Coord3D &);
};

Coord3D::Coord3D (float a, float b, float c)
{
x = a;
y = b;
z = c;
}

Coord3D Coord3D::operator+ (Coord3D &param)
{
Coord3D temp;
temp.x = x + param.x;
temp.y = y + param.y;
temp.z = z + param.z;
return temp;
}

class Vector3D: public Coord3D
{
public:
Vector3D (float a = 0.0f, float b = 0.0f, float c = 0.0f)
: Coord3D (a, b, c) {};
};

int main ()
{
Vector3D a (3, 4, 5);
Vector3D b (6, 7, 8);
cout << typeid(a + b).name();
return 0;
}
``````
-
what do you expect to happen here and what do you want to happen –  aaronman Jun 27 '13 at 21:08
I want Vector3Ds to be able to add each other by using the functions derived from Coord3D, but when they do add, they turn into a Coord3D instead of a Vector3D. –  Kein Mitleid Jun 27 '13 at 21:10
You have to define an `operator+` in `Vector3D` that returns a `Vector3D` instead of a `Coord3D`. –  David Brown Jun 27 '13 at 21:11
Could you just make a operator+ in Vector3D that calls the base class? –  Michael Dorgan Jun 27 '13 at 21:12
So I have to create a whole new function instead of base it off of Coord3D's functions? Is there another way, because the first way is really verbose and kinda defeats the purpose of OOP. –  Kein Mitleid Jun 27 '13 at 21:13
show 1 more comment

The functionality you want is in the base class, but it returns a base class (which makes sense since the `Coord3D` has no idea what a `Vector3D` is). If you are adamant about not rewriting `operator+()` for `Vector3D` (which I think is fair if you plan to have multiplication and such as well), you can instead create a copy constructor in the `Vector3D` class that can construct a `Vector3D` from the `Coord3D` result.

``````class Vector3D: public Coord3D
{
public:
Vector3D (float a = 0.0f, float b = 0.0f, float c = 0.0f)
: Coord3D (a, b, c) {};

Vector3D (const Coord3D& param){ new ((Coord3D*)this) Coord3D(param); }
};

int main ()
{
Vector3D a (3, 4, 5);
Vector3D b (6, 7, 8);
Vector3D c = a + b;
cout << typeid(c).name();
Sleep(1000);
return 0;
}
``````
-
Um, isn't that 'new' going to leak memory like crazy? Hmm, or is that placement_new and all is well. –  Michael Dorgan Jun 27 '13 at 22:26
It's not actually allocating any more space; the constructor has already created a nice little slot in memory for the `Vector3D` object that looks like `[Coord3D Vector3D]`. Basically, the base class is concatenated with the derivative class in memory. With placement new, we are telling it to put the `Coord3D` that results from the addition into the base class location within the `[Coord3D Vector3D]` slot. –  Aggieboy Jun 27 '13 at 22:56
@Aggieboy Are you sure? There are now three floats on the heap and they will be copied to the stack; so the three floats on the heap are now dangling pointers. Please correct me if I'm wrong. –  rwols Jul 6 '13 at 23:25
@rwols look at this reference. The version that applies here is the (3) placement which explicitly says placement new simply returns ptr (no storage is allocated). The pointer returned by the placement new is just `this`. There is nothing allocated on the heap in my code, and therefore no dangling pointers. –  Aggieboy Jul 9 '13 at 17:20