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llvm / llvm-project / fe0e86e6026f79e0b18f877196fbddd1d9e140d8 / . / libcxx / test / libcxx / utilities / memory / pointer.conversion / to_address.pass.cpp
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//===----------------------------------------------------------------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
// <memory>
// template <class T> constexpr T* __to_address(T* p) noexcept;
// template <class Ptr> constexpr auto __to_address(const Ptr& p) noexcept;
#include <memory>
#include <cassert>
#include "test_macros.h"
struct Irrelevant;
struct P1 {
using element_type = Irrelevant;
TEST_CONSTEXPR explicit P1(int *p) : p_(p) { }
TEST_CONSTEXPR int *operator->() const { return p_; }
int *p_;
};
struct P2 {
using element_type = Irrelevant;
TEST_CONSTEXPR explicit P2(int *p) : p_(p) { }
TEST_CONSTEXPR P1 operator->() const { return p_; }
P1 p_;
};
struct P3 {
TEST_CONSTEXPR explicit P3(int *p) : p_(p) { }
int *p_;
};
template<>
struct std::pointer_traits<P3> {
static TEST_CONSTEXPR int *to_address(const P3& p) { return p.p_; }
};
struct P4 {
TEST_CONSTEXPR explicit P4(int *p) : p_(p) { }
int *operator->() const; // should never be called
int *p_;
};
template<>
struct std::pointer_traits<P4> {
static TEST_CONSTEXPR int *to_address(const P4& p) { return p.p_; }
};
struct P5 {
using element_type = Irrelevant;
int const* const& operator->() const;
};
struct P6 {};
template<>
struct std::pointer_traits<P6> {
static int const* const& to_address(const P6&);
};
// Taken from a build breakage caused in Clang
namespace P7 {
template<typename T> struct CanProxy;
template<typename T>
struct CanQual {
CanProxy<T> operator->() const { return CanProxy<T>(); }
};
template<typename T>
struct CanProxy {
const CanProxy<T> *operator->() const { return nullptr; }
};
} // namespace P7
namespace P8 {
template<class T>
struct FancyPtrA {
using element_type = Irrelevant;
T *p_;
TEST_CONSTEXPR FancyPtrA(T *p) : p_(p) {}
T& operator*() const;
TEST_CONSTEXPR T *operator->() const { return p_; }
};
template<class T>
struct FancyPtrB {
T *p_;
TEST_CONSTEXPR FancyPtrB(T *p) : p_(p) {}
T& operator*() const;
};
} // namespace P8
template<class T>
struct std::pointer_traits<P8::FancyPtrB<T> > {
static TEST_CONSTEXPR T *to_address(const P8::FancyPtrB<T>& p) { return p.p_; }
};
struct Incomplete;
template<class T> struct Holder { T t; };
TEST_CONSTEXPR_CXX14 bool test() {
int i = 0;
ASSERT_NOEXCEPT(std::__to_address(&i));
assert(std::__to_address(&i) == &i);
P1 p1(&i);
ASSERT_NOEXCEPT(std::__to_address(p1));
assert(std::__to_address(p1) == &i);
P2 p2(&i);
ASSERT_NOEXCEPT(std::__to_address(p2));
assert(std::__to_address(p2) == &i);
P3 p3(&i);
ASSERT_NOEXCEPT(std::__to_address(p3));
assert(std::__to_address(p3) == &i);
P4 p4(&i);
ASSERT_NOEXCEPT(std::__to_address(p4));
assert(std::__to_address(p4) == &i);
ASSERT_SAME_TYPE(decltype(std::__to_address(std::declval<int const*>())), int const*);
ASSERT_SAME_TYPE(decltype(std::__to_address(std::declval<P5>())), int const*);
ASSERT_SAME_TYPE(decltype(std::__to_address(std::declval<P6>())), int const*);
P7::CanQual<int>* p7 = nullptr;
assert(std::__to_address(p7) == nullptr);
ASSERT_SAME_TYPE(decltype(std::__to_address(p7)), P7::CanQual<int>*);
Holder<Incomplete> *p8_nil = nullptr; // for C++03 compatibility
P8::FancyPtrA<Holder<Incomplete> > p8a = p8_nil;
assert(std::__to_address(p8a) == p8_nil);
ASSERT_SAME_TYPE(decltype(std::__to_address(p8a)), decltype(p8_nil));
P8::FancyPtrB<Holder<Incomplete> > p8b = p8_nil;
assert(std::__to_address(p8b) == p8_nil);
ASSERT_SAME_TYPE(decltype(std::__to_address(p8b)), decltype(p8_nil));
return true;
}
int main(int, char**) {
test();
#if TEST_STD_VER >= 14
static_assert(test(), "");
#endif
return 0;
}