For the following code, the first assertion passes but the second fails

template<typename T>
constexpr void assert_static_cast_identity() {
    using T_cast = decltype(static_cast<T>(std::declval<T>()));
    static_assert(std::is_same_v<T_cast, T>);

int main() {
    // assert_static_cast_identity<int(int)>(); // illegal cast
    assert_static_cast_identity<int (&)(int)>();
    assert_static_cast_identity<int (&&)(int)>(); // static assert fails

Why is this last assertion failing, and static_cast<T> not always returning a T?

  • I add T_cast i{1}; I get invalid initialization of non-const reference of type 'T_cast' {aka 'int (&)(int)'} from an rvalue of type '<brace-enclosed initializer list>', so for whatever reason T_cast is a int (&)(int) rather than a int (&&)(int). – Kevin Oct 5 at 21:59

This is hard-coded in the definition of static_cast:

[expr.static.cast] (emphasis mine)

1 The result of the expression static_­cast<T>(v) is the result of converting the expression v to type T. If T is an lvalue reference type or an rvalue reference to function type, the result is an lvalue; if T is an rvalue reference to object type, the result is an xvalue; otherwise, the result is a prvalue. The static_­cast operator shall not cast away constness.

decltype respects the value category of its operand, and produces an lvalue reference for lvalue expressions.

The reasoning may be due to function names themselves always being lvalues, and so an rvalue of a function type cannot appear "in the wild". As such, casting to that type probably makes little sense.

  • this question addresses in more detail "rvalue[s] of a function type [not] appear[ing] "in the wild"" – Eric Oct 6 at 10:25

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