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My class N takes a type T and a varying amount of types F...

What's really happening is that I am overloading operator() to take a function reference and the arguments that that function will be supplied. It's like a bind function. But when the function reference returns void, I don't want to be able to std::cout the value of that function call from operator(). So I added an overload of operator<< for std::cout to NOT do anything when the return-type of the function reference is void but I guess I'm not writing out the function signature correctly because I get errors.

#include <iostream>
#include <utility>

template <typename T>
struct N;

template <typename T, typename ... F>
struct N<T(F...)> {
    T operator()(T (&t)(F...), F &&... f) {
        return t(std::forward<F>(f)...);

template <typename ... T>
void operator<< (std::ostream &, const N<void(T...)> &) {}
                                 // don't do anything when void

void f(int, int) {}

int main() {

    N<void(int, int)> bind;

    std::cout << bind(f, 5, 4); // errors


The errors that I'm getting are very long, so I won't post them; they are typical error messages for printing on a function returning void.

The above code fails because I'm printing out a function that returns void; and that is the function f. My overload of operator<< doesn't seem to be affecting anything. What am I doing wrong here? If you need any more detail just say so. Thanks.

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1 Answer 1

up vote 3 down vote accepted

In your code, you are explicitly calling operator() on the object bind. (Btw, don't use the name bind for that object, std::bind is overly famous and it will confuse people)

The code does what you asked it to do. It called the functor. Which returned void.

Nothing in your operator<< overload has any impact at all on that functor being called.

Now that it is called, we see we have a std::cout << void -- which also has absolutely nothing to do with your operator<<.

Replace std::cout << bind(f, 5, 4); // errors with std::cout << bind; and your overloaded operator<< will be invoked.

The order of operations in C++ is not left-to-right. a << b(c) first evaluates tmp=b(c), then evaluates a << tmp.

Now, an example of how you could handle this problem would be to specialize your N type to, when it returns a void, to instead return a pseudo_void. pseudo_void blocks all use, except you have a << overload that just consists of return os; (oh, and operator<<( ostream& os, blah ) should always return os).

This can cause other problems. As an example, you'll want a "get rid of pseudo-void" traits classes and the like. But it gives you the syntax you want.

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I don't understand how I would implement this psuedo_void trait. Have any ideas? –  template boy Dec 22 '12 at 12:45
What part? If you are passed a function signature returning void, instead return pseudo_void. That is easy. Then have some method of exposing an version that really does return void, just in case other template code needs you not to lie. Specialize operator<< to take pseudo_void and not output anything. Each step is rather separate. –  Yakk Dec 22 '12 at 13:02
You say to return pseudo_void but what is it? Is it a typedef? A variable? And I don't know how to specialize operator<< that way (sorry I'm new to template-MP).. –  template boy Dec 22 '12 at 13:37
struct pseudo_void { }; would do. Just a placeholder for void return types that you can overload << on to do nothing. Make it so an instance of pseudo void outputs nothing. –  Yakk Dec 22 '12 at 15:04
Yes! I finally got it! Thanks for your help :) –  template boy Dec 23 '12 at 13:49

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