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I need a template expression that selects the first argument type if the first argument is defined, else the second argument type.

select<int, float>::type               // type evaluates to int
select<an_undefined_type, float>::type // type evaluates to float

... and the solution has to work with C++03 and Boost 1.33.1 :(

My goal is to accept both int and boost::optional<int> as a function template parameter T, so I can do something like:

template<typename T>
void fn(T& t)
    int x = std::numeric_limits<select<T::value_type, T>::type>::digits;

since boost::optional<int>::value_type is defined.

C++11 solutions are also appreciated.

I don't see a way to do this with template specialization, since I'm trying to specialize not on types but on concepts. Basically, I would need one specialization that matches the any_integer concept and one specialization that matches the boost::optional<any_integer> concept.

I guess with C++11 I could accomplish this specific goal with:

std::conditional<std::is_integral<T>::value, T, T::value_type>::value

but I don't have C++11, and I want the more general solution.

share|improve this question
Wouldn't accepting just optional<int> be sufficient? Also, C++11 is already year old; not having it is weird, unless you are developing for some very specific architecture which doesn't have updated/maintained compiler. –  Griwes Nov 10 '12 at 13:08
@Griwes Oh yes it is weird. –  James Brock Nov 10 '12 at 13:09
I'm looking at this which may have the answer:… –  James Brock Nov 10 '12 at 13:10
I think this is the answer: –  James Brock Nov 10 '12 at 13:12
@Griwes: I am afraid you live in a Unicorn World. At the company I work at we have been transitioning from gcc 3.4.2 to gcc 4.3.2 for a couple years now. And as long as that transition does not end, we are not going to be moving on to another version. C++11 is years ahead for us... and from what I gathered on the web, I might be blessed, in that gcc 4.3.2 is not so old. –  Matthieu M. Nov 10 '12 at 13:17

1 Answer 1

up vote 2 down vote accepted

I don't think you can achieve the exact notation you are looking for. However, I think you can use a slightly different notation to achieve what you are semantically after. The problem with your current notation

int x = std::numeric_limits<select<T::value_type, T>::type>::digits;

is that select<T0, T1> expects two types, i.e., the requirement for the types to be present isn't on the select<T0, T1> template but on the function calling it. The way I would change this is to use

int x = std::numeric_limits<select<typename get_value_type<T>::type, T>::type>::digits;

Now all what needs to happen is to have a get_value_type<T> which yields the nested type if present and some type select<T0, T1> is going to ignore if arrives there, e.g., void (or a custom marker type). The get_value_type<T> template should be fairly simple (I saw Dirk Holsopple's answer but I couldn't get it work):

template <typename T>
struct has_value_type
    typedef char (&true_type)[1];
    typedef char (&false_type)[2];
    template <typename D> static true_type test(typename D::value_type*);
    template <typename D> static false_type test(...);

    enum { value = sizeof(test<T>(0)) == 1 };

template <typename T, bool = has_value_type<T>::value >
struct get_value_type
    typedef T type; // EDIT

template <typename T>
struct get_value_type<T, true>
    typedef typename T::value_type type;

Obviously, you might want to define your type-traits slightly different so you can use something like

int x = std::numeric_limits<typename get_type<T>::type>::digits;

This would return the nested type if there is a value_type and a type T otherwise.

share|improve this answer
Answer accepted, thanks Dietmar! (There is one typo on line 15, typedef void type should be typedef T type) –  James Brock Nov 10 '12 at 15:31
I edited the solution. –  James Brock Nov 10 '12 at 15:33
Also edited usage example, previously was int x = std::numeric_limits<select<typename get_value_type<T>::type, T>::type>::digits; –  James Brock Nov 12 '12 at 1:32
The usage example used to say what I describe above the example. Below the example I pointed out that it isn't really necessary depending on what you want to do with it: Since your immediate application is more specific than what you originally asked for, it can be simplified using a more specific solution. –  Dietmar Kühl Nov 12 '12 at 1:35
Oh I see, I've reverted the usage example. Also, thanks for pointing out "the requirement for the types to be present isn't on the template but on the function calling it." –  James Brock Nov 12 '12 at 5:42

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