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Continuing from the previous question I'd like to ask why the "friend" form of addition in a C++ operator override is preferred

To summarize:

for the addition operator override there are two ways to do it:

int operator+(Object& e);
friend int operator+(Object& left, Object& right);

why is that the second (friend) form is preferred? What are the advantages?

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1  
Probably better to quote the relevant bits from the last question, so people don't have to click through to it (and also in case the question disappears) –  nneonneo Oct 7 '12 at 0:57

2 Answers 2

up vote 5 down vote accepted

The non-member version (friend or otherwise) is preferred because it can support implicit conversions on both the left and right side of the operator.

Given a type that is implicitly convertible to Object:

struct Widget
{
  operator Object() const;
};

Only the non-member version can be called if an instance of Widget appears on the left-hand side:

Widget w;
Object o;

o + w; // can call Object::operator+( Object & ) since left-hand side is Object
w + o; // can only call operator+( Object &, Object & )

In response to your comment:

By defining the conversion operator in Widget, we are notifying the compiler that instances of Widget can be automatically converted to instances of Object.

Widget w;
Object o = w;  // conversion

In the expression o + w, the compiler calls Object::operator+( Object & ) with an argument generated by converting w to an Object. So the result is the same as writing o + w.operator Object().

But in the expression w + o, the compiler looks for Widget::operator+ (which doesn't exist) or a non-member operator+( Widget, Object ). The latter can be called by converting w to an Object as above.

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I don't quite understand the widget/object struct code, can you please provide a simple and extremely short example? –  Johnny Pauling Oct 7 '12 at 1:15

The rule is not universal: the friend version is preferred when you implement a logically symmetric operation that takes two arguments of the same type, such as the case that your post demonstrates.

This implementation underscores the fact that the operation is truly symmetric: it's not a 'Object this' that adds Object e to itself - rather, that's an addition of lhs and rhs.

In situations when the operation is non-symmetric - for example, when you add an int to an iterator, you should prefer the first way of implementing operators, namely

Object& operator+(int& offset);
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