The std::add_volatile template of C++ STL is present in the <type_traits> header file. The std::add_volatile template of C++ STL is used to get the type T with volatile qualification. The function std::is_volatile is used to check if type T is volatile qualified or not.
Header File:
CPP
#include<type_traits>Template Class:
template < class T > struct add_volatile;Syntax:
std::add_volatile<T>::valueParameter: The template std::add_volatile accepts a single parameter T(Trait class) which is used to get the type T with volatile qualification. Below is the program to demonstrate std::add_volatile: in C++: Program:
// C++ program to illustrate
// std::add_volatile
#include <bits/stdc++.h>
#include <type_traits>
using namespace std;
// Driver Code
int main()
{
// Declare variable of type
// volatile (int, const int, const int*,
// int * const and const int&)
typedef add_volatile<int>::type A;
typedef add_volatile<volatile int>::type B;
typedef add_volatile<int* volatile>::type C;
typedef add_volatile<volatile int*>::type D;
typedef add_volatile<volatile int&>::type E;
cout << boolalpha;
// Checking the volatileness of
// the above declared variable
cout << "checking volatileness:"
<< endl;
cout << "A: "
<< is_volatile<A>::value
<< endl;
cout << "B: "
<< is_volatile<B>::value
<< endl;
cout << "C: "
<< is_volatile<C>::value
<< endl;
cout << "D: "
<< is_volatile<D>::value
<< endl;
cout << "E: "
<< is_volatile<E>::value
<< endl;
return 0;
}
Output:
Reference: https://cplusplus.com/reference/type_traits/add_volatile/checking volatileness: A: true B: true C: true D: true E: false
