I have overloaded the + operator like this

class sample
private : 
  int x;
public :
  sample(int x1 =0)
    x = x1;

  sample operator+(sample s);

sample sample::operator+(sample s)
  x = x + s.x;
  return *this;

int  main()
  sample s1(10);
  sample s2;
  s2 = s2 + s1;
  return 0;    

Is this correct? My question is If I want to add two different sample objects how will I overloaded the opeartor; e.g for s = s1 + s2;

I feel like doing s = s + s1 + s2 with the existing implementation.


Using friend operator overload should do the trick for you and is a common way to define binary operators, just add:

friend sample operator+(const sample& a, const sample& b); //in class

sample operator+(const sample& a, const sample& b) { //outside the class
    return sample(a.x + b.x);

If you want it to remain a member, (which has downsides in some rare scenarios, and no upsides), you have to make the operator a const function:

sample operator+(sample s) const; //in class

sample sample::operator+(const sample& b) const { //outside the class
    return sample(this->x + b.x);

Either of these will allow operator chaining. The reason your previous s = s + s1 + s2 was failing, is that the s + s1 would execute and return a temporary sample object. Then, it would attempt to add s2 to that sample. However, temporaries can only be const references[1], and as such, can only use const member functions. Since your operator+ member function is not a const function, you cannot use that function on the const temporary. Note that to make it const, I had to rewrite it, since your version modifies the object on the left side of the +.

[1]with exceptions aren't particularly relevant here, namely rvalues

  • it looks Ok.Is it the only way to perfrom this using the friend.? – Raulp Jun 22 '12 at 18:00
  • Sorry, I don't understand the question, are you asking if using the friend keyword is the only way to achieve the requirement? – higuaro Jun 22 '12 at 18:18
  • i meant without using friend function can this be done.But I think this is the only way. – Raulp Jun 22 '12 at 18:20
  • @softy: no, you can do it without friend functions just as easily, but your code is wrong, and this is the "normal" way to do it – Mooing Duck Jun 22 '12 at 18:23
  • Yes you can do it without friend, but to do that you have to add a getter method for the x member variable – higuaro Jun 22 '12 at 18:23

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