std::is_integral
From cppreference.com
Defined in header <type_traits>
|
||
template< class T > struct is_integral; |
(since C++11) | |
std::is_integral
is an UnaryTypeTrait.
Checks whether T
is an integral type. Provides the member constant value which is equal to true, if T
is the type bool, char, char8_t (since C++20), char16_t, char32_t, wchar_t, short, int, long, long long, or any implementation-defined extended integer types, including any signed, unsigned, and cv-qualified variants. Otherwise, value is equal to false.
The behavior of a program that adds specializations for std::is_integral
or std::is_integral_v
(since C++17) is undefined.
Template parameters
T | - | a type to check |
Helper variable template
template< class T > inline constexpr bool is_integral_v = is_integral<T>::value; |
(since C++17) | |
Inherited from std::integral_constant
Member constants
value [static] |
true if T is an integral type, false otherwise (public static member constant) |
Member functions
operator bool |
converts the object to bool, returns value (public member function) |
operator() (C++14) |
returns value (public member function) |
Member types
Type | Definition |
value_type
|
bool |
type
|
std::integral_constant<bool, value> |
Possible implementation
// Note: this implementation uses C++20 facilities template<class T> struct is_integral : std::bool_constant< requires (T t, T* p, void (*f)(T)) // T* parameter excludes reference types { reinterpret_cast<T>(t); // Exclude class types f(0); // Exclude enumeration types p + t; // Exclude everything not yet excluded but integral types }> {}; |
Example
Run this code
#include <iomanip> #include <iostream> #include <type_traits> class A {}; struct B { int x:4{2}; }; using BF = decltype(B::x); // bit-field's type enum E : int {}; template <class T> T f(T i) { static_assert(std::is_integral<T>::value, "Integral required."); return i; } #define SHOW(...) \ std::cout << std::setw(29) << #__VA_ARGS__ << " == " << __VA_ARGS__ << '\n' int main() { std::cout << std::boolalpha; SHOW(std::is_integral<A>::value); SHOW(std::is_integral_v<E>); SHOW(std::is_integral_v<float>); SHOW(std::is_integral_v<int*>); SHOW(std::is_integral_v<int>); SHOW(std::is_integral_v<const int>); SHOW(std::is_integral_v<bool>); SHOW(std::is_integral_v<char>); SHOW(std::is_integral_v<BF>); SHOW(f(123)); }
Output:
std::is_integral<A>::value == false std::is_integral_v<E> == false std::is_integral_v<float> == false std::is_integral_v<int*> == false std::is_integral_v<int> == true std::is_integral_v<const int> == true std::is_integral_v<bool> == true std::is_integral_v<char> == true std::is_integral_v<BF> == true f(123) == 123
See also
(C++20) |
specifies that a type is an integral type (concept) |
[static] |
identifies integer types (public static member constant of std::numeric_limits<T> ) |
(C++11) |
checks if a type is a floating-point type (class template) |
(C++11) |
checks if a type is an arithmetic type (class template) |
(C++11) |
checks if a type is an enumeration type (class template) |