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I have a project for school in C++ and I am stuck on one part: I have to overload the operators + and * to work with geometrical figures. That was no problem, but here it where it doesn’t work: I have to declare the operator as a pure virtual method, in an abstract class that all other classes derive from.

using namespace std;

class Figabs {
    int fel;
    int getFEL() { return fel; }
    virtual Figabs operator +()=0; /*this is where I get an error: function returning  abstract class “Figabs” is not allowed : function Figabs::operator+ is a pure virtual function */

class Coord {
    int cx, cy; 
    Coord (){ 
        cx = cy = 0;

    Coord (const int x, const int y) {
        cx = x;
        cy = y;

    Coord (const Coord &din) { 
        cx = din.cx;
        cy = din.cy;

    ~Coord () { }
    void setX(const int val) { cx = val; } ;
    void setY(const int val) { cy = val; };
    int getX() { return cx; }
    int getY() { return cy; }

class Point : public Coord, public Figabs { //one of the figures

    Point() { 
        fel = 0;

    Point(const int x, const int y): Coord (x,y) { 
        fel = 0;

    Point(const Point &din): Coord (din) { 
        fel = din.fel; 

    ~Point() { } 

    Point operator +(const Coord &vector) { /*this works perfectly when I delete the declaration from the abstract class Figabs, but I don’t know how to make them work together */
        int xp = cx + vector.cx;
        int yp = cy + vector.cy;
        return (Point (xp, yp));

    Point operator *(const Coord &vector) {
        Point temp;
        temp.cx = cx * vector.cx;
        temp.cy = cy * vector.cy;
        return (temp);

Thank you and please be patient with me, it is my first contact with C++.

share|improve this question
@Shark: what would that change exactly? – Mat May 22 '13 at 10:44
virtual Figabs operator +()=0 with no arguments -> Point operator +(const Coord &vector) with different type returned? their signature has to be the same... – Exceptyon May 22 '13 at 10:47
I'm still grasping to understand what you're expecting with no RHS of that operator-abstract? (or did I miss something) ? Your retval will slice even if you do provide a proper op, btw. For a first-time C++ question, you're hitting a lot of subtle issues, so gratz for that =P – WhozCraig May 22 '13 at 10:48
This is a slightly tricky problem, because operator+ should return an object (not a reference), so it can't return an abstract class (which Figabs is here because it has a pure virtual function). This is tricky to solve within the constraints of the assignment, at least partly because the assignment is enforcing bad design. operator+ should generally not be a member function (GOTW #4, part 5). – BoBTFish May 22 '13 at 10:49
@BoBTFish It's tricky to solve because overloads of the binary operators must return by value, and return by value and polymorphism don't work well together. At all. – James Kanze May 22 '13 at 10:52
up vote 9 down vote accepted

As other posters have pointed out, the assignment is far from trivial, and operator+ isn't normally a member. There are two issues which should be addressed:

  1. If you support `FigAbs + Coord`, then you should also support `Coord + FigAbs`. The first can be a member (there's no real problem there); the second, if it is to be a member, must be a member of `Coord`, which is probably not what is wanted.
  2. Any reasonable implementation of `operator+` must return by value. And you can't (normally) return a polymorphic class by value; you need something like the letter-envelope idiom for this to work: the base class must look something like:
    class Figure : BinaryOperators<Figure, Coord>
        Figure* myImpl;
        Figure& operator+=( Coord const& translation )
            myImpl->operator+=( translation );
            return *this;
    Of course, you'll need factory methods for correctly instantiating `Figure` for each different type, a virtual `clone` function, and copy constructor, assignment and destructor which support deep copy. (`BinaryOperators` is a template class which implements `operator+` in terms of `operator+=`; this is the usual way to provide the binary operators.)

Finally, I would argue that this is operator overloading abuse. The notion of addition doesn't apply to geometrical figures. What you're doing is called translation, and the logical solution is to provide a member function which does it, not to overload addition.

share|improve this answer

Figabs contains a pure virtual member function virtual Figabs operator +()=0; this means you cannot instantiate Figabs


virtual Figabs& operator +()=0; 
/*Now you will not be returning an actual instance but can return derived class instances*
share|improve this answer
To where will that return value refer? – BoBTFish May 22 '13 at 10:51
Thank you, that made the error go away, but now the derived class, where i have: Puncte operator +(const Coord &vector) says error: return type is not identical to nor covariant with return type Figabs& of overridden virtual function Figab::operator+ – Casandra May 22 '13 at 11:09
@BoBTFish I totally see and agree. This is a very specific answer drawing attention to the cause of the compiler error not a complete solution to the problem. – DuncanACoulter May 22 '13 at 12:16

Please take a look at the following link for useful info bit related to question

overriding virtual function return type differs and is not covariant

virtual Figabs operator +() = 0;//Here ur not passing any i/p parameters

But in derived class ur passing parameters

Point operator +(const Coord &vector)//here ur sending i/p parameter .

share|improve this answer
This is more of a comment than an answer. – Shark May 22 '13 at 10:52

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