Function that accepts both lvalue and rvalue arguments

2018-06-14 03:40:21

Is there a way to write a function in C++ that accepts both lvalue and rvalue arguments, without making it a template?

For example, suppose I write a function print_stream that reads from an istream and prints the data that was read to the screen, or something.

I think it's reasonable to call print_stream like this:

fstream file{"filename"};
print_stream(file);

as well as like this:

print_stream(fstream{"filename"});

But how do I declare print_stream so that both uses work?

If I declare it as

void print_stream(istream& is);

then the second use won't compile because an rvalue will not bind to a non-const lvalue reference.

If I declare it as

void print_stream(istream&& is);

then the first use won't compile because an lvalue will not bind to an rvalue reference.

If I declare it as

void print_stream(const istream& is);

then the function's implementation won't compile because you can't read from a const istream .

I can't make the function a template and use a "universal reference", because its implementation needs to be separately compiled.

I could provide two overloads:

void print_stream(istream& is);
void print_stream(istream&& is);

and have the second call the first, but that seems like a lot of unnecessary boilerplate, and I would find it very unfortunate to have to do that every time I write a function with semantics like this.

Is there something better I can do?

There is not much of a sane choice other than offering two overloads or making your function a template, I would say.

If you really, really need an (ugly) alternative, then I guess the only (insane) thing you can do is to have your function accept a const& , with a pre-condition saying that you cannot pass an object of a const -qualified type to it (you don't want to support that anyway). The function would then be allowed to cast away the const ness of the reference.

But I'd personally write two overloads and define one in terms of the other, so you do duplicate the declaration, but not the definition:

void foo(X& x) 
{ 
    // Here goes the stuff... 
}

void foo(X&& x) { foo(x); }

Another rather ugly alternative is to make the function a template and explicitly instantiate both versions:

template<typename T>
void print(T&&) { /* ... */ }

template void print<istream&>(istream&);
template void print<istream&&>(istream&&);

This can be compiled separately. The client code only needs the declaration of the template.

I'd personaly just stick with what Andy Prowl suggests, though.

// Because of universal reference
// template function with && can catch rvalue and lvalue 
// We can use std::is_same to restrict T must be istream
// it's an alternative choice, and i think is's better than two overload functions
template <typename T>
typename std::enable_if<
  std::is_same<typename std::decay<T>::type, istream>::value
>::type
print(T&& t) {
  // you can get the real value type by forward
  // std::forward<T>(t)
}

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