Defined in header <type_traits> | ||
---|---|---|
template< bool B, class T = void > struct enable_if; | (since C++11) |
If B
is true
, std::enable_if
has a public member typedef type
, equal to T
; otherwise, there is no member typedef.
This metafunction is a convenient way to leverage SFINAE to conditionally remove functions from overload resolution based on type traits and to provide separate function overloads and specializations for different type traits. std::enable_if
can be used as an additional function argument (not applicable to operator overloads), as a return type (not applicable to constructors and destructors), or as a class template or function template parameter.
Type | Definition |
---|---|
type | either T or no such member, depending on the value of B |
template< bool B, class T = void > using enable_if_t = typename enable_if<B,T>::type; | (since C++14) |
template<bool B, class T = void> struct enable_if {}; template<class T> struct enable_if<true, T> { typedef T type; }; |
A common mistake is to declare two function templates that differ only in their default template arguments. This is illegal because default template arguments are not part of function template's signature, and declaring two different function templates with the same signature is illegal.
struct T { enum { int_t,float_t } m_type; template <typename Integer, typename = std::enable_if_t<std::is_integral<Integer>::value> > T(Integer) : m_type(int_t) {} template <typename Floating, typename = std::enable_if_t<std::is_floating_point<Floating>::value> > T(Floating) : m_type(float_t) {} // error: cannot overload };
#include <type_traits> #include <iostream> #include <string> namespace detail { struct inplace_t{}; } void* operator new(std::size_t, void* p, detail::inplace_t) { return p; } // #1, enabled via the return type template<class T,class... Args> typename std::enable_if<std::is_trivially_constructible<T,Args&&...>::value>::type construct(T* t,Args&&... args) { std::cout << "constructing trivially constructible T\n"; } // #2 template<class T, class... Args> std::enable_if_t<!std::is_trivially_constructible<T,Args&&...>::value> //Using helper type construct(T* t,Args&&... args) { std::cout << "constructing non-trivially constructible T\n"; new(t, detail::inplace_t{}) T(args...); } // #3, enabled via a parameter template<class T> void destroy(T* t, typename std::enable_if<std::is_trivially_destructible<T>::value>::type* = 0) { std::cout << "destroying trivially destructible T\n"; } // #4, enabled via a template parameter template<class T, typename std::enable_if< !std::is_trivially_destructible<T>{} && (std::is_class<T>{} || std::is_union<T>{}), int>::type = 0> void destroy(T* t) { std::cout << "destroying non-trivially destructible T\n"; t->~T(); } // #5, enabled via a template parameter template<class T, typename = std::enable_if_t<std::is_array<T>::value> > void destroy(T* t) // note, function signature is unmodified { for(std::size_t i = 0; i < std::extent<T>::value; ++i) { destroy((*t)[i]); } } /* template<class T, typename = std::enable_if_t<std::is_void<T>::value> > void destroy(T* t){} // error: has the same signature with #5 */ // the partial specialization of A is enabled via a template parameter template<class T, class Enable = void> class A {}; // primary template template<class T> class A<T, typename std::enable_if<std::is_floating_point<T>::value>::type> { }; // specialization for floating point types int main() { std::aligned_union_t<0,int,std::string> u; construct(reinterpret_cast<int*>(&u)); destroy(reinterpret_cast<int*>(&u)); construct(reinterpret_cast<std::string*>(&u),"Hello"); destroy(reinterpret_cast<std::string*>(&u)); A<int> a1; // OK, matches the primary template A<double> a2; // OK, matches the partial specialization }
Output:
constructing trivially constructible T destroying trivially destructible T constructing non-trivially constructible T destroying non-trivially destructible T
(C++17) | void variadic alias template (alias template) |
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