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I thought that in

cout << "Hello world" 

cout object has an operator overloading so we can pass strings into cout objects member function.

But in some example code I saw a class which has an operator overloading defined in it.

class GenericPlayer : public Hand
    friend ostream& operator <<(ostream& os, const GenericPlayer& aGenericPlayer);

cout << aGenericPlayer << endl;

Even if it is not, what if both cout and aGenericPlayer overload operator<< ?

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Are you asking if both cout and GenericPlayer defined an insertion operator (<<) for GenericPlayer? –  GManNickG Dec 10 '12 at 21:46
If more than one definition of operator<< matches the given operands, then the "best" match is selected according to the complicated overload resolution rules spelled out in C++03 §13.3 [over.match]. If the "best" match is not unique or does not exist, then it's an error. –  Adam Rosenfield Dec 10 '12 at 21:48
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4 Answers

up vote 7 down vote accepted

Even if it is not, what if both cout and aGenericPlayer overload operator<< ?

std::cout is an std::ostream object, so any std::ostream& operator<<(std::ostream, SomeType) will work with std::cout. But the point is that the second parameter of the operator is different, so the overloads are different. The first "string" one is something like

std::ostream& operator<<(std::ostream&, const char*);

and the second

std::ostream& operator <<(std::ostream& os, const GenericPlayer& aGenericPlayer); 

So, they are different operator overloads and there is no ambiguity.

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I think you mean "so an operator<<(std::ostream&, something_else) will work with cout"? –  Reuben Morais Dec 10 '12 at 21:55
@ReubenMorais yes, that's exactly what I meant. Edited. –  juanchopanza Dec 10 '12 at 22:01
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First, neither cout nor aGenericPlayer can overload anything. They're objects, and overloading is based on types (even if you wouldn't normally says that type X overloads <<, but rather that there is an overload of << which can take a type X as its second argument).

Second, overload resolution is based on all of the arguments, not just one. There are something around twenty different overloads of << for std::istream (which is a base class of the type of std::cout), but none (at least in the standard library) take a GenericPlayer as second parameter. So they can't be used if the second operand isn't a GenericPlayer. Similarly, you could have an operator<<( int, GenericPlayer const& ), in addition to the one you have; it would be called if the left hand side had type int, and the right hand side type GenericPlayer. (I can't think of any case where this wouldn't be operator overloading abuse, but the language certainly allows it.)

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In order for cout to accept a GenericPlayer object, you have to overload operator<<. operator<< is also called the insertion operator. So if you take that in context, you are inserting the output of your custom function to cout. The overloaded operator returns a reference to the original ostream object, which also means you can combine insertions. You must overload the insertion operator to recognize an ostream object on the left and a GenericPlayer on the right. See also Overloading the << Operator for Your Own Classes . As far as cout goes, cout is an object of class ostream that represents the standard output stream. It corresponds to the cstdio stream stdout. Because cout is an object of class ostream, we can write characters to it either as formatted data using for example the insertion operator (ostream::operator<<) or as unformatted data using the write member function, among others

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I actually agree with your basic idea, that the << operator is the insertion operator. But would this term be appropriate in a case like BigInteger operator<<( BigInteger const& lhs, int rhs ). At a human reader level, too, operator << is overloaded: insertion, or shift left. –  James Kanze Dec 10 '12 at 22:00
@JamesKanze: When applied to an ostream operator, I believe the convention is insertion. –  user195488 Dec 10 '12 at 22:07
Agreed. And for most applications, that's the only use; most programmers probably think of insertion as the operator's primary meaning (although historically, it was the left shift operator first). –  James Kanze Dec 11 '12 at 10:21
@JamesKanze: You might be interested in this SO question: stackoverflow.com/questions/4854248/… –  user195488 Dec 11 '12 at 13:42
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what if both cout and aGenericPlayer overload operator<<

Neither of them overload it, it is overloaded as a regular function (not a member). Note the use of friend in your example; this allows the function to access the class's internals without being a member. Therefore, this situation is avoided.

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