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I have an idea of the use of the word `friend`, to access to a private members besides own class. For instance, I have a class A and need to access to a private method of an attribute which is of class B inside a method of A I could declare the method as friend.

However, see the following code:

``````#include <cstdlib>

class Coord {
private:
int x, y;
public:
Coord (int i1, int i2) : x(i1), y(i2) {
}
friend Coord operator- (Coord const& c1, Coord const& c2) {
return Coord(c1.x-c2.x, c1.y-c2.y);
}
Coord abs() {
return Coord(std::abs(x),std::abs(y));
}
};
``````

Which benefit could become overloading the operator- as a friend? I really don't see why someone could be interested in.

I have read a lot about it but I didn't get a clear idea.

Could someone write a little example where I can observe the fact?

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Take a look at Herb Sutters and Scott Meyers Example:

Here the summary:

First: Make operators like - non members: if you perform c = a - b to which object does minus belong ? a? b? or none. Most people agree with none hence a non member. Second: The operators need to modify private content, thus either you make a friend and or you use access functions like getters. So most people stick with the friend.

I your specific example the friend declaration is immediately followed by the definition which is the most compact way to define a global friend function.

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When an operator function is implemented as a member function, the leftmost (or only) operand must be an object (or a reference to an object) of the operator’s class. If the left operand must be an object of a different class or a fundamental type, this operator function must be implemented as a non-member function (e.g. when overloading `<<` and `>>` as the stream insertion and stream extraction operators, respectively).

A non-member operator function can be made a `friend` of a class if that function must access `private` or `protected` members of that class directly. Operator member functions of a specific class are called (implicitly by the compiler) only when the left operand of a binary operator is specifically an object of that class, or when the single operand of a unary operator is an object of that class.

Another reason why you might choose a non-member function to overload an operator is to enable the operator to be commutative.

For example, suppose we have a fundamental type variable, `number`, of type `long int`, and an object `bigInteger1`, of class `HugeInteger` (a class in which integers may be arbitrarily large rather than being limited by the machine word size of the underlying hardware). The subtraction operator (`-`) produces a temporary `HugeInteger` object as the difference of a `HugeInteger` and a `long int` (as in the expression `bigInteger1 - number`), or as the difference of a `long int` and a `HugeInteger` (as in the expression `number - bigInteger1`). Thus, we require the subtraction operator to be commutative (exactly as it is with two fundamental-type operands). The problem is that the class object must appear on the left of the subtraction operator if that operator is to be overloaded as a member function. So, we also overload the operator as a non-member function to allow the `HugeInteger` to appear on the right of the subtraction. The `operator-` function that deals with the `HugeInteger` on the left can still be a member function. The non-member function can simply swap its arguments and call the member function.

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