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Like std::reference_wrapper uses a pointer under the covers to store a "reference", I am trying to do something similar with the following code.

#include <type_traits>

struct Foo
    void* _ptr;

    template<typename T>
    Foo(T val,
        typename std::enable_if
            >::type* = nullptr)
        : _ptr(&val)
    { }

int main()
    int i = 0;
    int& l = i;

    Foo u2(l);

    return 0;

However, this fails to compile:

CXX main.cpp
main.cpp: In function ‘int main()’:
main.cpp:23:13: error: no matching function for call to ‘Foo::Foo(int&)’
main.cpp:23:13: note: candidates are:
main.cpp:8:5: note: template<class T> Foo::Foo(T, typename std::enable_if<std::is_reference<_Tp>::value, void>::type*)
main.cpp:8:5: note:   template argument deduction/substitution failed:
main.cpp: In substitution of ‘template<class T> Foo::Foo(T, typename std::enable_if<std::is_reference<_Tp>::value, void>::type*) [with T = int]’:
main.cpp:23:13:   required from here
main.cpp:8:5: error: no type named ‘type’ in ‘struct std::enable_if<false, void>’
main.cpp:3:8: note: constexpr Foo::Foo(const Foo&)
main.cpp:3:8: note:   no known conversion for argument 1 from ‘int’ to ‘const Foo&’
main.cpp:3:8: note: constexpr Foo::Foo(Foo&&)
main.cpp:3:8: note:   no known conversion for argument 1 from ‘int’ to ‘Foo&&’

How can I make the enable_if return true for reference parameters?

share|improve this question
The obvious answer is to conditionate on is_reference && !is_integral and the opposite of that, it works but is not a good answer... – K-ballo Jun 6 '12 at 3:20
@K-ballo I have simplified my problem, and will edit the question to more accurately reflect the problem - which is how to get `enable_if<is_reference> to be valid for references – Steve Lorimer Jun 6 '12 at 3:23
up vote 5 down vote accepted

T in this case will never be deduced to be a reference type. In your construction of the object u2, the constructor template argument is deduced to be int.

While the type of the variable u2 is int&, when you use u2 in an expression, it is an lvalue expression of type int. An expression never has reference type.

Template argument deduction uses the types of the function arguments to deduce the template parameter types. Function arguments are expressions. Therefore, because no expression has reference type, a template argument will never be deduced to be a reference type.

[In C++11, if a function argument has type T&&, T may be deduced to the type T& if the argument is an lvalue. This mechanism enables perfect forwarding. That's not related to your scenario, though.]

In effect, in an expression, an object and a reference to that object are indistinguishable. A reference just allows you to give another name to the object.

share|improve this answer
James, this is part of a more complex piece of code where I'm trying to use enable_if to differentiate between integers, pointers and l-value references. As such, is what I'm trying to do even possible using enable_if? – Steve Lorimer Jun 6 '12 at 3:34
No, because expressions never have reference type. Why do you think you need to distinguish between "a reference to an object" and "an object"? – James McNellis Jun 6 '12 at 3:35
I am trying to use a union to store different data types - if it is of integral-type I store the value itself in the union::uint64_t member, if it is a pointer I store the value itself in the union::void* member, if it is a reference, I store the address of the reference in the union::void* member. I want to overload the union constructor to use template argument deduction to know how to handle the input argument – Steve Lorimer Jun 6 '12 at 3:41
I do not understand why you want to treat i and l differently. l is just another name for i. When you use the two in an expression, they are indistinguishable. – James McNellis Jun 6 '12 at 3:45
I have a union which is copied between threads. To prevent excessive copying I want to restrict the values which can be stored in the union to be either integral (up to a maximum of 64 bits), pointers or references. I have a static_assert on the size of the argument being a maximum of 64 bits. Currently I can store a pointer to a large object, but not a reference (for the very reason you state, the argument is deduced to be T, not T&). I want to be able to deduce a T& parameter, and store union.ptr = &obj – Steve Lorimer Jun 6 '12 at 3:52

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