I'm trying to write code that uses a member typedef of a template argument, but want to supply a default type if the template argument does not have that typedef. A simplified example I've tried is this:
struct DefaultType { DefaultType() { printf("Default "); } };
struct NonDefaultType { NonDefaultType() { printf("NonDefault "); } };
struct A {};
struct B { typedef NonDefaultType 开发者_开发技巧Type; };
template<typename T, typename Enable = void> struct Get_Type {
typedef DefaultType Type;
};
template<typename T> struct Get_Type< T, typename T::Type > {
typedef typename T::Type Type;
};
int main()
{
Get_Type<A>::Type test1;
Get_Type<B>::Type test2;
}
I would expect this to print "Default NonDefault", but instead it prints "Default Default". My expectation is that the second line in main() should match the specialized version of Get_Type, because B::Type exists. However, this does not happen.
Can anyone explain what's going on here and how to fix it, or another way to accomplish the same goal?
Thank you.
Edit:
Georg gave an alternate method, but I'm still curious about why this doesn't work. According the the boost enable_if docs, a way to specialize a template for different types is like so:
template <class T, class Enable = void>
class A { ... };
template <class T>
class A<T, typename enable_if<is_integral<T> >::type> { ... };
template <class T>
class A<T, typename enable_if<is_float<T> >::type> { ... };
This works because enable_if< true > has type as a typedef, but enable_if< false > does not.
I don't understand how this is different than my version, where instead of using enable_if I'm just using T::Type directly. If T::Type exists wouldn't that be the same as enable_if< true >::type in the above example and cause the specialization to be chosen? And if T::Type doesn't exist, wouldn't that be the same as enable_if< false >::type not existing and causing the default version to be chosen in the above example?
To answer your addition - your specialization argument passes the member typedef and expects it to yield void
as type. There is nothing magic about this - it just uses a default argument. Let's see how it works. If you say Get_Type<Foo>::type
, the compiler uses the default argument of Enable
, which is void
, and the type name becomes Get_Type<Foo, void>::type
. Now, the compiler checks whether any partial specialization matches.
Your partial specialization's argument list <T, typename T::Type>
is deduced from the original argument list <Foo, void>
. This will deduce T
to Foo
and afterwards substitutes that Foo
into the second argument of the specialization, yielding a final result of <Foo, NonDefaultType>
for your partial specialization. That doesn't, however, match the original argument list <Foo, void>
at all!
You need a way to yield the void
type, as in the following:
template<typename T>
struct tovoid { typedef void type; };
template<typename T, typename Enable = void> struct Get_Type {
typedef DefaultType Type;
};
template<typename T>
struct Get_Type< T, typename tovoid<typename T::Type>::type > {
typedef typename T::Type Type;
};
Now this will work like you expect. Using MPL, you can use always
instead of tovoid
typename apply< always<void>, typename T::type >::type
You can do that by utilizing SFINAE:
template<class T> struct has_type {
template<class U> static char (&test(typename U::Type const*))[1];
template<class U> static char (&test(...))[2];
static const bool value = (sizeof(test<T>(0)) == 1);
};
template<class T, bool has = has_type<T>::value> struct Get_Type {
typedef DefaultType Type;
};
template<class T> struct Get_Type<T, true> {
typedef typename T::Type Type;
};
First step: stop using "Type" and use the mpl standard "type".
BOOST_MPL_HAS_XXX_DEF(Type)
template < typename T >
struct get_type { typedef typename T::Type type; };
template < typename T >
struct calculate_type : boost::mpl::if_
<
has_Type<T>
, get_type<T>
, boost::mpl::identity<default_type>
>::type {}
typedef calculate_type<A>::type whatever;
If you used "type" instead of "Type" in your metafunctions you wouldn't require the fetcher "get_type" to convert it and could just return T in that case.
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