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What is the difference between operator overloading using the friend keyword and as a member function inside a class?

Also, what is the difference in the case of any unary operator overloading (i.e. as a friend vs. as a member function)?

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up vote 10 down vote accepted

Jacob is correct… a friend function declared within a class has access to that class, but it's not inside the class at all, and everyone else has access to it.

For an operator overload which is not a member of the class (also called a free function, it may be a friend, or maybe not), the arguments are the same as the operands. For one which is a member of a class, the first operand is the "implicit argument" which becomes this.

The implicit argument is different from the first argument to a free function in a few ways:

  • Its type is reference-to-class, whereas the free function can declare any type for its first argument.
  • It does not participate in implicit type conversion. (It will not be a temporary initialized by a conversion constructor.)
  • It does participate in virtual override resolution. (A virtual overload will be chosen by the dynamic type of the first operand, which is not possible with free functions without extra code.)

The situation is the same for unary, binary, or n-ary (in the case of operator()).

Members privilege of mutation: Operators which change the first operand (eg +=, =, prefix ++) should be implemented as member functions, and should exclusively implement the guts of all overloads. Postfix ++ is a second-class citizen; it is implemented as Obj ret = *this; ++ this; return ret;. Note that this sometimes extends to copy-constructors, which may contain *this = initializer.

Rule of freedom for commuters: Only commutative operators (eg /) should be free functions; all other operators (eg unary anything) should be members. Commutative operators inherently make a copy of the object; they are implemented as Obj ret = lhs; ret @= rhs; return ret; where @ is the commutative operator and lhs and rhs are left-hand side and right-hand side arguments, respectively.

Golden rule of C++ friendship: Avoid friendship. friend pollutes the semantics of a design. Overloading corollary: Overloading is simple if you follow the above rules, then friend is harmless. friending boilerplate overload definitions allows them to be placed inside the class { braces.

Note that some operators cannot be free functions: =, ->, [], and (), because the standard specifically says so in section 13.5. I think that's all… I thought unary & and * were too, but I was apparently wrong. They should always be overloaded as members, though, and only after careful thought!

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why unary operators cannot be friends? – Vijay May 5 '10 at 5:21
2  
Because there is no need for them to be. Friend operators are permitted to enable you to put a class type on the right of a binary operator. Since unary operators don't have a right side, you don't need them to be friends. – Stewart May 5 '10 at 5:36
    
@cpp: Sorry, I mis-remembered the standard. Never mind. – Potatoswatter May 5 '10 at 5:38
    
+1 for the general answer, even if I would rewrite the rule of thumb as: Commutative operators should be free functions (preferably not friends) Friendship is the most coupling relationship and should be avoided (i.e. define operatorX= as member, and define operatorX in terms of operatorX=) – David Rodríguez - dribeas May 5 '10 at 7:15
    
@David: That is true. I think friendship between classes is harmful. But making binary ops friends allows definition inside the class block, which I like, and actually loosening access to avoid friendship with a binary op would likely be destructive—although actually needing friendship would be a reason to stop and think. – Potatoswatter May 5 '10 at 7:37

The difference is that the friended function is actually in global scope, so you do not need to be an instance of the class to have access to it.

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A member function requires that the left hand operator must be of that type. A friend function can allow implicit casting on the left hand operator.

So for example, lets say we create a BigInt class. And we create a member function operator + to take a right hand operator of BigInt.

Now lets also say BigInt has a constructor that takes a regular int. This constructor is NOT explicit (explicit keyword) and it takes one parameter. That means C++ can implitily convert from int to BigInt.

When we have these things we can do this:

BigInt foo( 5 ); BigInt bar; bar = foo + 5;

But we CAN'T do this:

BigInt foo( 5 ) BigInt bar; bar = 5 + foo;

However, if we used a friend function instead of a member function then both will work.

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A member function requires that the left hand operator must be of that type. A friend function can allow implicit casting on the left hand operator.

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Member functions can be called on rvalues, whereas free functions accepting references to non-const cannot be called with rvalues. For example, ++function_returning_iterator_by_value() only compiles if you implement operator++ as a member.

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