test/std/utilities/any/any.nonmembers/any.cast/any_cast_pointer.pass.cpp - libcxx - Git at Google

 //===----------------------------------------------------------------------===//
 //
 // 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, c++11, c++14

 // XFAIL: dylib-has-no-bad_any_cast && !libcpp-no-exceptions

 // <any>

 // template <class ValueType>
 // ValueType const* any_cast(any const *) noexcept;
 //
 // template <class ValueType>
 // ValueType * any_cast(any *) noexcept;

 #include <any>
 #include <type_traits>
 #include <cassert>

 #include "test_macros.h"
 #include "any_helpers.h"

 using std::any;
 using std::any_cast;

 // Test that the operators are properly noexcept.
 void test_cast_is_noexcept() {
     any a;
     ASSERT_NOEXCEPT(any_cast<int>(&a));

     any const& ca = a;
     ASSERT_NOEXCEPT(any_cast<int>(&ca));
 }

 // Test that the return type of any_cast is correct.
 void test_cast_return_type() {
     any a;
     ASSERT_SAME_TYPE(decltype(any_cast<int>(&a)),       int*);
     ASSERT_SAME_TYPE(decltype(any_cast<int const>(&a)), int const*);

     any const& ca = a;
     ASSERT_SAME_TYPE(decltype(any_cast<int>(&ca)),       int const*);
     ASSERT_SAME_TYPE(decltype(any_cast<int const>(&ca)), int const*);
 }

 // Test that any_cast handles null pointers.
 void test_cast_nullptr() {
     any* a = nullptr;
     assert(nullptr == any_cast<int>(a));
     assert(nullptr == any_cast<int const>(a));

     any const* ca = nullptr;
     assert(nullptr == any_cast<int>(ca));
     assert(nullptr == any_cast<int const>(ca));
 }

 // Test casting an empty object.
 void test_cast_empty() {
     {
         any a;
         assert(nullptr == any_cast<int>(&a));
         assert(nullptr == any_cast<int const>(&a));

         any const& ca = a;
         assert(nullptr == any_cast<int>(&ca));
         assert(nullptr == any_cast<int const>(&ca));
     }
     // Create as non-empty, then make empty and run test.
     {
         any a(42);
         a.reset();
         assert(nullptr == any_cast<int>(&a));
         assert(nullptr == any_cast<int const>(&a));

         any const& ca = a;
         assert(nullptr == any_cast<int>(&ca));
         assert(nullptr == any_cast<int const>(&ca));
     }
 }

 template <class Type>
 void test_cast() {
     assert(Type::count == 0);
     Type::reset();
     {
         any a((Type(42)));
         any const& ca = a;
         assert(Type::count == 1);
         assert(Type::copied == 0);
         assert(Type::moved == 1);

         // Try a cast to a bad type.
         // NOTE: Type cannot be an int.
         assert(any_cast<int>(&a) == nullptr);
         assert(any_cast<int const>(&a) == nullptr);
         assert(any_cast<int const volatile>(&a) == nullptr);

         // Try a cast to the right type, but as a pointer.
         assert(any_cast<Type*>(&a) == nullptr);
         assert(any_cast<Type const*>(&a) == nullptr);

         // Check getting a unqualified type from a non-const any.
         Type* v = any_cast<Type>(&a);
         assert(v != nullptr);
         assert(v->value == 42);

         // change the stored value and later check for the new value.
         v->value = 999;

         // Check getting a const qualified type from a non-const any.
         Type const* cv = any_cast<Type const>(&a);
         assert(cv != nullptr);
         assert(cv == v);
         assert(cv->value == 999);

         // Check getting a unqualified type from a const any.
         cv = any_cast<Type>(&ca);
         assert(cv != nullptr);
         assert(cv == v);
         assert(cv->value == 999);

         // Check getting a const-qualified type from a const any.
         cv = any_cast<Type const>(&ca);
         assert(cv != nullptr);
         assert(cv == v);
         assert(cv->value == 999);

         // Check that no more objects were created, copied or moved.
         assert(Type::count == 1);
         assert(Type::copied == 0);
         assert(Type::moved == 1);
     }
     assert(Type::count == 0);
 }

 void test_cast_non_copyable_type()
 {
     // Even though 'any' never stores non-copyable types
     // we still need to support any_cast<NoCopy>(ptr)
     struct NoCopy { NoCopy(NoCopy const&) = delete; };
     std::any a(42);
     std::any const& ca = a;
     assert(std::any_cast<NoCopy>(&a) == nullptr);
     assert(std::any_cast<NoCopy>(&ca) == nullptr);
 }

 void test_cast_array() {
     int arr[3];
     std::any a(arr);
     assert(a.type() == typeid(int*)); // contained value is decayed
 //  We can't get an array out
     int (*p)[3] = std::any_cast<int[3]>(&a);
     assert(p == nullptr);
 }

 void test_fn() {}

 void test_cast_function_pointer() {
     using T = void(*)();
     std::any a(test_fn);
     // An any can never store a function type, but we should at least be able
     // to ask.
     assert(std::any_cast<void()>(&a) == nullptr);
     T fn_ptr = std::any_cast<T>(a);
     assert(fn_ptr == test_fn);
 }

 int main(int, char**) {
     test_cast_is_noexcept();
     test_cast_return_type();
     test_cast_nullptr();
     test_cast_empty();
     test_cast<small>();
     test_cast<large>();
     test_cast_non_copyable_type();
     test_cast_array();
     test_cast_function_pointer();

   return 0;
 }
	//===----------------------------------------------------------------------===//
	//
	// 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, c++11, c++14

	// XFAIL: dylib-has-no-bad_any_cast && !libcpp-no-exceptions

	// <any>

	// template <class ValueType>
	// ValueType const* any_cast(any const *) noexcept;
	//
	// template <class ValueType>
	// ValueType * any_cast(any *) noexcept;

	#include <any>
	#include <type_traits>
	#include <cassert>

	#include "test_macros.h"
	#include "any_helpers.h"

	using std::any;
	using std::any_cast;

	// Test that the operators are properly noexcept.
	void test_cast_is_noexcept() {
	any a;
	ASSERT_NOEXCEPT(any_cast<int>(&a));

	any const& ca = a;
	ASSERT_NOEXCEPT(any_cast<int>(&ca));
	}

	// Test that the return type of any_cast is correct.
	void test_cast_return_type() {
	any a;
	ASSERT_SAME_TYPE(decltype(any_cast<int>(&a)), int*);
	ASSERT_SAME_TYPE(decltype(any_cast<int const>(&a)), int const*);

	any const& ca = a;
	ASSERT_SAME_TYPE(decltype(any_cast<int>(&ca)), int const*);
	ASSERT_SAME_TYPE(decltype(any_cast<int const>(&ca)), int const*);
	}

	// Test that any_cast handles null pointers.
	void test_cast_nullptr() {
	any* a = nullptr;
	assert(nullptr == any_cast<int>(a));
	assert(nullptr == any_cast<int const>(a));

	any const* ca = nullptr;
	assert(nullptr == any_cast<int>(ca));
	assert(nullptr == any_cast<int const>(ca));
	}

	// Test casting an empty object.
	void test_cast_empty() {
	{
	any a;
	assert(nullptr == any_cast<int>(&a));
	assert(nullptr == any_cast<int const>(&a));

	any const& ca = a;
	assert(nullptr == any_cast<int>(&ca));
	assert(nullptr == any_cast<int const>(&ca));
	}
	// Create as non-empty, then make empty and run test.
	{
	any a(42);
	a.reset();
	assert(nullptr == any_cast<int>(&a));
	assert(nullptr == any_cast<int const>(&a));

	any const& ca = a;
	assert(nullptr == any_cast<int>(&ca));
	assert(nullptr == any_cast<int const>(&ca));
	}
	}

	template <class Type>
	void test_cast() {
	assert(Type::count == 0);
	Type::reset();
	{
	any a((Type(42)));
	any const& ca = a;
	assert(Type::count == 1);
	assert(Type::copied == 0);
	assert(Type::moved == 1);

	// Try a cast to a bad type.
	// NOTE: Type cannot be an int.
	assert(any_cast<int>(&a) == nullptr);
	assert(any_cast<int const>(&a) == nullptr);
	assert(any_cast<int const volatile>(&a) == nullptr);

	// Try a cast to the right type, but as a pointer.
	assert(any_cast<Type*>(&a) == nullptr);
	assert(any_cast<Type const*>(&a) == nullptr);

	// Check getting a unqualified type from a non-const any.
	Type* v = any_cast<Type>(&a);
	assert(v != nullptr);
	assert(v->value == 42);

	// change the stored value and later check for the new value.
	v->value = 999;

	// Check getting a const qualified type from a non-const any.
	Type const* cv = any_cast<Type const>(&a);
	assert(cv != nullptr);
	assert(cv == v);
	assert(cv->value == 999);

	// Check getting a unqualified type from a const any.
	cv = any_cast<Type>(&ca);
	assert(cv != nullptr);
	assert(cv == v);
	assert(cv->value == 999);

	// Check getting a const-qualified type from a const any.
	cv = any_cast<Type const>(&ca);
	assert(cv != nullptr);
	assert(cv == v);
	assert(cv->value == 999);

	// Check that no more objects were created, copied or moved.
	assert(Type::count == 1);
	assert(Type::copied == 0);
	assert(Type::moved == 1);
	}
	assert(Type::count == 0);
	}

	void test_cast_non_copyable_type()
	{
	// Even though 'any' never stores non-copyable types
	// we still need to support any_cast<NoCopy>(ptr)
	struct NoCopy { NoCopy(NoCopy const&) = delete; };
	std::any a(42);
	std::any const& ca = a;
	assert(std::any_cast<NoCopy>(&a) == nullptr);
	assert(std::any_cast<NoCopy>(&ca) == nullptr);
	}

	void test_cast_array() {
	int arr[3];
	std::any a(arr);
	assert(a.type() == typeid(int*)); // contained value is decayed
	// We can't get an array out
	int (*p)[3] = std::any_cast<int[3]>(&a);
	assert(p == nullptr);
	}

	void test_fn() {}

	void test_cast_function_pointer() {
	using T = void(*)();
	std::any a(test_fn);
	// An any can never store a function type, but we should at least be able
	// to ask.
	assert(std::any_cast<void()>(&a) == nullptr);
	T fn_ptr = std::any_cast<T>(a);
	assert(fn_ptr == test_fn);
	}

	int main(int, char**) {
	test_cast_is_noexcept();
	test_cast_return_type();
	test_cast_nullptr();
	test_cast_empty();
	test_cast<small>();
	test_cast<large>();
	test_cast_non_copyable_type();
	test_cast_array();
	test_cast_function_pointer();

	return 0;
	}