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I was wondering how std::cout is able to use << as it does.

My main puzzlement is with whether std::cout as an instance of something. Basically, how is << defined? If I do this for a custom class, I need an instance of some sort...

I could see implementing it as kind of a hack with void pointers or something, but I'd like to see the actual way it's done.

Does anyone here know? Thanks

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The cout << and cin >> expressions are the reasons why C++ is so unintuitive and hard to learn. –  Mehrdad Apr 1 '11 at 3:38
@Mehrdad: If you're choosing a language because of how one writes to the console you're choosing the language for the wrong reasons. I agree the iostream library is complex, but there are plenty of awesome aspects to the language which aren't related to iostream at all (i.e. the STL). (If you don't like iostream, then don't use it. Use the bits in <cstdio> or bits specific to your platform.) –  Billy ONeal Apr 1 '11 at 3:42
@Billy: It wasn't the console writing that I was talking about, it was the fact that a beginner needs to know operator overloading before he can even start to understand what's actually happening... –  Mehrdad Apr 1 '11 at 3:51
@Billy: Furthermore, a << b; should not have been an allowed statement; it's just like saying 2 + 3;, which -- even though valid -- makes no sense. If anything, they should've made it be a <<= b; so that it would at least give the hint to the reader that some kind of assignment is actually taking place. –  Mehrdad Apr 1 '11 at 3:53
@Billy: It's not the I/O stream library that's the issue. Given what C++ has, the library is pretty well-written, actually. The problem is that the language allows for pretty much any expression to be a statement -- something that many other languages don't allow, because it honestly makes no sense to say 2 + 3;, and it just leads to the confusion of both the programmer and the reader. Had they actually forced the use of some assignment operator like cout <<= "hi"; instead of cout << "hi";, IMHO the language (and consequently the I/O library) would've been a lot better. –  Mehrdad Apr 1 '11 at 4:04
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3 Answers

std::cout is an instance of std::ostream. std::cout << "something" calls one of the operator<< overloads as would be done for any instance of std::ostream.

It's "special" in that it references the console, but otherwise it behaves exactly as an ofstream or an ostringstream would.

EDIT: Chaining works just like it works for any other operators. Consider:

class MyType
    friend std::ostream& operator<<(std::ostream& target, const MyType& source);
    int val;
        : val(0)
    { }
    MyType& Add(int toAdd)
        val += toAdd;
        return *this;

MyType& operator+(MyType& target, int toAdd)
    return target.Add(toAdd);

std::ostream& operator<<(std::ostream& target, const MyType& source)
    target << source.val;
    return target; //Make chaining work

int main()
    MyType value1;
    value1 + 2 + 3 + 4;
    std::cout << value1 << " and done!" << std::endl;

In this case, the chaining for +s on MyType work for the same reason the <<s work on top of std::ostream. Both + and << are left-associative, which means they're evaluated from left to right. In the case of overloaded operators, the operator is replaced with the equivalent function call.

EDIT2: In a bit more detail:

Let's say you're the compiler and you're parsing

std::cout << value1 << " and done!" << std::endl;

First, << is left associative, so you start on the left. You evaluate the first << and turn it into the function call:

operator<<(std::cout, value1) << " and done!" << std::endl;

You then see that you once again have a std::ostream (the result of the call to operator<<), and a char *, which you once again turn into the function call:

operator<<(operator<<(std::cout, value1)," and done!") << std::endl;

et cetera until you've processed the entire statement.

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+1 But (to play an advocate), how does chaining work? (e.g. std::cout << a << b ...) –  user166390 Apr 1 '11 at 3:37
Does it also return an std::ostream? I mean you can also do cout << "something" << "something else". How does the second operator<< operate? –  highBandWidth Apr 1 '11 at 3:38
@pst: All of the operator<< overloads are of the form std::ostream& operator<<(std::ostream& target, TYPE& source), and they return the reference passed in as the source. That is, std::cout << a << b; is the same as operator<<(operator<<(std::cout, a), b); –  Billy ONeal Apr 1 '11 at 3:40
cplusplus.com/reference/iostream/ostream/operator%3C%3C provides some details of what's going on. –  geekosaur Apr 1 '11 at 3:47
@MooingDuck: That's true. But I don't think going into that discussion makes sense for an answer like this aimed primarily at beginners. –  Billy ONeal Jul 25 '13 at 21:56
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And iostream. Let's think for a second here. A stream is an object with a buffer that can hold multiple datatypes and control the input and output of itself. And a buffer is just a number "OF KEY PRESSES THAT THE STREAM CONTAINS" , or 1 piece of buffer is any datatype "e.i. a class or an int is still 1 piece of buffer. The input and output to the MS_DOS window is a really weird scenario. It is done with a void pointer. In simple terms it points to nothing. But this is useful as it can control an object with ease. Why is this because it can point to anything. If you look further into the WIN32 API you will hear the word handle a lot. But, in fact it is nothing more than a void pointer. Which takes up no memory and can reference anything even outside of this language. GUI's are the best example. you can pull a WIN32 window out from nowhere using a cross-platform API. Its weird but it works.

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This is what helped myself learn cout and cin. Think of the following:

cout << "Hello, World!" << endl;  

With cout its prints output, so what is going in to cout:

"Hello, World!"`

and it is being inserted into the cout class. So just flip it for a second:

"Hello, Wolrd!" >> cout; 

Now it looks like I am putting it into cout.

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