In general, this nasty problem with templates ought to require duplication because the semantics where a variable is const or not, or a reference or not, are quite distinct.
The C++11 solution to this is "decltype" but it is a bad idea because all it does is compound and already broken type system.
No matter what the Standard or the Committee says, "const int" is not and will never be a type. Nor will "int&" ever be a type. Therefore a type parameter in a template should never be allowed to bind to such non-types, and thankfully for deduction this is the case. Unfortunately you can still explicitly force this unprincipled substitution.
There are some idiotic rules which try to "fix" this problem, such as "const const int" reducing to "const int", I'm not even sure what happens if you get "int & &": remember even the Standard doesn't count "int&" as a type, there is a "int lvalue" type but that's distinct:
int x; // type is lvalue int
int &y = x; // type is lvalue int
The right solution to this problem is actually quite simple: everything is a mutable object. Throw out "const" (it isn't that useful) and throw away references, lvalues and rvalues. It's quite clear that all class types are addressable, rvalue or not (the "this" pointer is the address). There was a vain attempt by the committee to prohibit assigning to and addressing rvalues.. the addressing case works but is easily escaped with a trivial cast. The assignment case doesn't work at all (because assignment is a member function and rvalues are non-const, you can always assign to a class typed rvalue).
Anyhow the template meta-programming crowd have "decltype" and with that you can find the encoding of a declaration including any "const" and "&" bits and then you can decompose that encoding using various library operators. This couldn't be done before because that information is not actually type information ("ref" is actually storage allocation information).