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What's the best way to determine if an expression is a rvalue or lvalue in C++? Probably, this is not useful in practice but since I am learning rvalues and lvalues I thought it would be nice to have a function is_lvalue which returns true if the expression passed in input is a lvalue and false otherwise.

Example:

std::string a("Hello");
is_lvalue(std::string()); // false
is_lvalue(a); // true  
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up vote 50 down vote accepted

Most of the work is already done for you by the stdlib, you just need a function wrapper:

template <typename T>
constexpr bool is_lvalue(T&&) {
  return std::is_lvalue_reference<T>{};
}

in the case you pass a string lvalue, T will deduce to std::string& or const std::string&, for rvalues it will deduce to std::string

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I solved the above question using two overloaded template functions. The first takes as input a reference to a lvalue and return true. Whereas the second function uses a reference to rvalue. Then I let the compiler match the correct function depending on the expression passed as input.

Code:

#include <iostream>

template <typename T>
constexpr bool is_lvalue(T&) {
    return true;
}

template <typename T>
constexpr bool is_lvalue(T&&) {
    return false;
}

int main()
{
    std::string a = std::string("Hello");
    std::cout << "Is lValue ? " << '\n';
    std::cout << "std::string() : " << is_lvalue(std::string()) << '\n';
    std::cout << "a : " << is_lvalue(a) << '\n';
    std::cout << "a+b : " << is_lvalue(a+ std::string(" world!!! ")) << '\n';
} 

Output:

Is Lvalue ? 
std::string() : 0
a : 1
a+b : 0
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6  
Since the parameters are unused, you should mark both functions as constexpr as the type is always known at compile-time – Ryan Haining Mar 29 at 23:15
    
@RyanHaining Very true. Thank you for suggestion – Giuseppe Pes Mar 29 at 23:21
4  
Me, I'd return std::true_type and false_type for even more certainty. – Yakk Mar 30 at 1:00
2  
@Yakk What's the advantage of using std::true_type in this case? – Giuseppe Pes Mar 30 at 13:27
3  
@GiuseppePes It moves the compile-time-ness of the result into the type system, which lets you do things like pass it to a template function and certainly propogate its value. At the same time, true type has a constexpr operator bool, so it can also be used in that context. – Yakk Mar 30 at 14:10

I would take a page from boost::hana and make the return value of is_lvalue encode the lvalue-ness of its argument both as a constexpr value, and as a type.

This lets you do stuff like tag dispatching without extra boilerplate.

template<class T>
constexpr std::is_lvalue_reference<T&&>
is_lvalue(T&&){return {};}

the body of this function does nothing, and the parameter's value is ignored. This lets it be constexpr even on non-constexpr values.

An advantage of this technique can be seen here:

void tag_dispatch( std::true_type ) {
  std::cout << "true_type!\n";
}
void tag_dispatch( std::false_type ) {
  std::cout << "not true, not true, shame on you\n";
}

tag_dispatch( is_lvalue( 3 ) );

Not only is the return value of is_lvalue available in a constexpr context (as true_type and false_type have a constexpr operator bool), but we can easily pick an overload based on its state.

Another advantage is that it makes it hard for the compiler to not inline the result. With a constexpr value, the compiler can 'easily' forget that it is a true constant; with a type, it has to be first converted to bool for the possibility of it being forgotten to happen.

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Was wondering why you don't just post an answer :) – Barry Mar 30 at 15:58
    
Any reason for <T&&> and not <T>? – Ryan Haining Mar 30 at 16:14
2  
@RyanHaining Better error message? is_lvalue_reference<Foo&&> seems clearer than is_lvalue_reference<Foo> in an overload resolution failure would be clearer to me. – Yakk Mar 30 at 16:35
1  
@Barry The answers where good enough, so I suggested an improvement. Nobody took it and ran with it, so I posted my improved version, together with an explanation why it is marginally better. – Yakk Mar 30 at 16:36
3  
@Yakk This is C++. We're all about marginally better here. – Barry Mar 30 at 17:19

Use std::is_lvalue_reference and std::is_rvalue_reference.

You don't need a wrapper if you're happy with using decltype.

std::string a("Hello");
std::is_lvalue_reference<decltype((std::string()))>::value; // false
std::is_lvalue_reference<decltype((a))>::value; // true

In C++17 you'll be able to use the following:

std::string a("Hello");
std::is_lvalue_reference_v<decltype((std::string()))>; // false
std::is_lvalue_reference_v<decltype((a))>; // true

Or you could write a wrapper as @Ryan Haining suggests, just make sure you get the types correct.

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"In C++17 you'll be able..." It's nothing you can't already do in C++14 or even C++11. C++17 will just have them already shipped with the stdlib. – black Mar 30 at 11:49
    
@black Read "you'll be able to" as "you'll be able to (without any extra effort)". – Pharap Mar 30 at 18:16

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