test/libcxx/type_traits/lazy_metafunctions.pass.cpp

//===----------------------------------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// UNSUPPORTED: c++98, c++03

// <type_traits>

// __lazy_enable_if, __lazy_not, _And and _Or

// Test the libc++ lazy meta-programming helpers in <type_traits>

#include <type_traits>

#include "test_macros.h"

template <class Type>
struct Identity : Type {

};

typedef std::true_type TrueT;
typedef std::false_type FalseT;

typedef Identity<TrueT>  LazyTrueT;
typedef Identity<FalseT> LazyFalseT;

// A type that cannot be instantiated
template <class T>
struct CannotInst {
    static_assert(std::is_same<T, T>::value == false, "");
};


template <int Value>
struct NextInt {
    typedef NextInt<Value + 1> type;
    static const int value = Value;
};

template <int Value>
const int NextInt<Value>::value;


template <class Type>
struct HasTypeImp {
    template <class Up, class = typename Up::type>
    static TrueT test(int);
    template <class>
    static FalseT test(...);

    typedef decltype(test<Type>(0)) type;
};

// A metafunction that returns True if Type has a nested 'type' typedef
// and false otherwise.
template <class Type>
struct HasType : HasTypeImp<Type>::type {};


void LazyNotTest() {
    {
        typedef std::_Not<LazyTrueT> NotT;
        static_assert(std::is_same<typename NotT::type, FalseT>::value, "");
        static_assert(NotT::value == false, "");
    }
    {
        typedef std::_Not<LazyFalseT> NotT;
        static_assert(std::is_same<typename NotT::type, TrueT>::value, "");
        static_assert(NotT::value == true, "");
    }
    {
         // Check that CannotInst<int> is not instantiated.
        typedef std::_Not<CannotInst<int> > NotT;

        static_assert(std::is_same<NotT, NotT>::value, "");

    }
}

void LazyAndTest() {
    { // Test that it acts as the identity function for a single value
        static_assert(std::_And<LazyFalseT>::value == false, "");
        static_assert(std::_And<LazyTrueT>::value == true, "");
    }
    {
        static_assert(std::_And<LazyTrueT, LazyTrueT>::value == true, "");
        static_assert(std::_And<LazyTrueT, LazyFalseT>::value == false, "");
        static_assert(std::_And<LazyFalseT, LazyTrueT>::value == false, "");
        static_assert(std::_And<LazyFalseT, LazyFalseT>::value == false, "");
    }
    { // Test short circuiting - CannotInst<T> should never be instantiated.
        static_assert(std::_And<LazyFalseT, CannotInst<int>>::value == false, "");
        static_assert(std::_And<LazyTrueT, LazyFalseT, CannotInst<int>>::value == false, "");
    }
}


void LazyOrTest() {
    { // Test that it acts as the identity function for a single value
        static_assert(std::_Or<LazyFalseT>::value == false, "");
        static_assert(std::_Or<LazyTrueT>::value == true, "");
    }
    {
        static_assert(std::_Or<LazyTrueT, LazyTrueT>::value == true, "");
        static_assert(std::_Or<LazyTrueT, LazyFalseT>::value == true, "");
        static_assert(std::_Or<LazyFalseT, LazyTrueT>::value == true, "");
        static_assert(std::_Or<LazyFalseT, LazyFalseT>::value == false, "");
    }
    { // Test short circuiting - CannotInst<T> should never be instantiated.
        static_assert(std::_Or<LazyTrueT, CannotInst<int>>::value == true, "");
        static_assert(std::_Or<LazyFalseT, LazyTrueT, CannotInst<int>>::value == true, "");
    }
}


int main(int, char**) {

    LazyNotTest();
    LazyAndTest();
    LazyOrTest();

  return 0;
}