const_cast conversion

Converts between types with different cv-qualification.

Syntax

const_cast < new_type > ( expression )    

Returns a value of type new_type.

Explanation

Only the following conversions can be done with const_cast. In particular, only const_cast may be used to cast away (remove) constness or volatility.

1) Two possibly multilevel pointers to the same type may be converted between each other, regardless of cv-qualifiers at each level.2) lvalue of any type T may be converted to a lvalue or rvalue reference to the same type T, more or less cv-qualified. Likewise, an rvalue may be converted to a more or less cv-qualified rvalue reference. The result of a reference const_cast refers to the original object if expression is a glvalue and to the materialized temporaryotherwise (since C++17).3) Same rules apply to possibly multilevel pointers to data members and possibly multilevel pointers to arrays of known and unknown bound (arrays to cv-qualified elements are considered to be cv-qualified themselves) (since C++17)4) null pointer value may be converted to the null pointer value of new_type

As with all cast expressions, the result is:

• an lvalue if new_type is an lvalue reference type or an rvalue reference to function type;

• an xvalue if new_type is an rvalue reference to object type;

• a prvalue otherwise.

Notes

Pointers to functions and pointers to member functions are not subject to const_cast

const_cast makes it possible to form a reference or pointer to non-const type that is actually referring to a const object or a reference or pointer to non-volatile type that is actually referring to a volatile object. Modifying a const object through a non-const access path and referring to a volatile object through a non-volatile glvalue results in undefined behavior.

Keywords

const_cast

Example

• Run this code

Output:

• i = 4 type::i = 4