7

Can anyone explain to me what I'm doing wrong here?

struct X {
    int x{};

    explicit X(int x) : x(x) {}

    virtual X &operator++() = 0;
};

struct OK : X {
    int ok{};

    explicit OK(int ok) : X(ok), ok(ok) {}

    X &operator++() override {
        ok += 10;
        return *this;
    }
};

struct MU : X {
    int mu{};

    explicit MU(int mu) : X(mu), mu(mu) {}

    X &operator++() override {
        mu *= 5;
        return *this;
    }
};

int main() {
    X *x_base = new OK(0);
    ++x_base;
    std::cout << x_base->x;
    return 1;
};

All that I'm trying to do is to use the idea of polymorphism for operators, in special the operator++. I want to have a result something like this:


Base* base = new Derivate();

++base <--- the ++ should be called from the Derivate class


Base* base2 = ned Derivate_2();

++base <--- the ++ should be called from the Derivate_2 class


UPDATE:

The current solution to my problem is to use ++(*base) which I know about this already.

But is there any other way to do ++base instead of ++(*base)?


Thanks for the help :)

  • 2
    x_base is a pointer to X. Incrementing a pointer is not the same as applying the increment operator to the object. Your code printing x_base->x has undefined behaviour, since, after incrementing, x_base doesn't point at an object that exists. Change the incrementing to ++(*x_base). – Peter Feb 18 at 11:19
  • To your updated question the answer is no. You can not override inbuilt operators of raw pointer to Base. – Öö Tiib Feb 18 at 11:27
  • Thata's true, but you can wrap a pointer in another class and write an overload for that wrapper class. – john Feb 18 at 11:34
9

In these two lines,

X *x_base = new OK(0);
++x_base;

you create a pointer to the new instance, and you then increment the pointer, not the pointee. The increment operator of your class hierarchy is never called, instead, this invokes the builtin increment operator for pointers. You can fix that by dereferencing the pointer first:

++*x_base; // or ++(*x_base), might be more readable

You can also work with references instead of pointers, which allows for an increment syntax without the need to derefence a pointer, e.g.

OK ok(0);
X& x_base = ok;

++x_base; // now, x_base is a reference, no need to dereference it

Note that the implementation of the operator overload that is called doesn't change the value of X::x. The std::cout << x_base->x; after the increment suggests that you expect the value to be non-zero.

  • and in this case is any solution in order to receive the same result but instead of writing ++(*x) to write just ++x? or it's totally impossible. – Vali Feb 18 at 11:21
  • 2
    @Vali I think this answer shows that you can solve your problem by making the variable x have type X& rather than X*. Then ++x will act on the object rather than on a pointer. Frankly I think this is better than the other answer. – David K Feb 18 at 14:03
3

To solve your second question you need to write a wrapper for your pointer class. Something like

class XPtr
{
public:
    XPtr(X* p) : ptr(p) {}
    X* operator->() { return ptr; }
    X& operator*() { return *ptr; }
    XPtr& operator++() { ++*ptr; return *this; }
private:
    X* ptr;
};

int main() {
    XPtr x_base = new OK(0);
    ++x_base;
    std::cout << x_base->x;
    return 1;
};
  • 2
    This has the very unpleasant effect of making something that acts like a pointer except when you apply ++ to it. It seems to me this violates the principle of least surprise. – David K Feb 18 at 14:08
0

Don't do it.

First, using ++ to mean either += 10 or *= 5 should probably get you fired.

Arithmetic operators are for things that actually behave like mathematical objects or pointers/iterators. In that sense, there is almost no reason for any such object to exhibit any runtime polymorphism.

After you get ++ to work as you wish on the pointer, you better not ever iterate over any arrays of struct MU or struct OK.

Runtime polymorphism is a tool of last resort. Don't bother with it unless you actually need it.

The best solution is to get rid of the virtual and the inheritance hierarchy and the overriding. Failing that, you should just name the functions instead of using operators.

This is not a good idea.

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