test/std/concepts/concepts.lang/concept.default.init/default_initializable.compile.pass.cpp - llvm-project/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++03, c++11, c++14, c++17
 // UNSUPPORTED: libcpp-no-concepts

 // template<class T>
 //     concept default_initializable = constructible_from<T> &&
 //     requires { T{}; } &&
 //     is-default-initializable<T>;

 #include <array>
 #include <concepts>
 #include <deque>
 #include <forward_list>
 #include <list>
 #include <map>
 #include <memory>
 #include <queue>
 #include <set>
 #include <span>
 #include <stack>
 #include <string>
 #include <string_view>
 #include <unordered_map>
 #include <unordered_set>
 #include <vector>

 #include "test_macros.h"

 struct Empty {};

 struct CtorDefaulted {
   CtorDefaulted() = default;
 };
 struct CtorDeleted {
   CtorDeleted() = delete;
 };
 struct DtorDefaulted {
   ~DtorDefaulted() = default;
 };
 struct DtorDeleted {
   ~DtorDeleted() = delete;
 };

 struct Noexcept {
   ~Noexcept() noexcept;
 };
 struct NoexceptTrue {
   ~NoexceptTrue() noexcept(true);
 };
 struct NoexceptFalse {
   ~NoexceptFalse() noexcept(false);
 };

 struct CtorProtected {
 protected:
   CtorProtected() = default;
 };
 struct CtorPrivate {
 private:
   CtorPrivate() = default;
 };
 struct DtorProtected {
 protected:
   ~DtorProtected() = default;
 };
 struct DtorPrivate {
 private:
   ~DtorPrivate() = default;
 };

 template <class T>
 struct NoexceptDependant {
   ~NoexceptDependant() noexcept(std::is_same_v<T, int>);
 };

 struct CtorExplicit {
   explicit CtorExplicit() = default;
 };
 struct CtorArgument {
   CtorArgument(int) {}
 };
 struct CtorDefaultArgument {
   CtorDefaultArgument(int = 0) {}
 };
 struct CtorExplicitDefaultArgument {
   explicit CtorExplicitDefaultArgument(int = 0) {}
 };

 struct Derived : public Empty {};

 class Abstract {
   virtual void foo() = 0;
 };

 class AbstractDestructor {
   virtual ~AbstractDestructor() = 0;
 };

 class OperatorNewDeleted {
   void* operator new(std::size_t) = delete;
   void operator delete(void* ptr) = delete;
 };

 [[maybe_unused]] auto Lambda = [](const int&, int&&, double){};

 template<class T>
 void test_not_const()
 {
     static_assert( std::default_initializable<               T>);
     static_assert(!std::default_initializable<const          T>);
     static_assert( std::default_initializable<      volatile T>);
     static_assert(!std::default_initializable<const volatile T>);
 }

 template<class T>
 void test_true()
 {
     static_assert( std::default_initializable<               T>);
     static_assert( std::default_initializable<const          T>);
     static_assert( std::default_initializable<      volatile T>);
     static_assert( std::default_initializable<const volatile T>);
 }

 template<class T>
 void test_false()
 {
     static_assert(!std::default_initializable<               T>);
     static_assert(!std::default_initializable<const          T>);
     static_assert(!std::default_initializable<      volatile T>);
     static_assert(!std::default_initializable<const volatile T>);
 }

 void test()
 {
     test_not_const<bool>();
     test_not_const<char>();
     test_not_const<int>();
     test_not_const<double>();

     test_false    <void>();
     test_not_const<void*>();

     test_not_const<int*>();
     test_false    <int[]>();
     test_not_const<int[1]>();
     test_false    <int&>();
     test_false    <int&&>();

     test_true     <Empty>();

     test_true     <CtorDefaulted>();
     test_false    <CtorDeleted>();
     test_true     <DtorDefaulted>();
     test_false    <DtorDeleted>();

     test_true     <Noexcept>();
     test_true     <NoexceptTrue>();
     test_false    <NoexceptFalse>();

     test_false    <CtorProtected>();
     test_false    <CtorPrivate>();
     test_false    <DtorProtected>();
     test_false    <DtorPrivate>();

     test_true     <NoexceptDependant<int>>();
     test_false    <NoexceptDependant<double>>();

     test_true     <CtorExplicit>();
     test_false    <CtorArgument>();
     test_true     <CtorDefaultArgument>();
     test_true     <CtorExplicitDefaultArgument>();

     test_true     <Derived>();
     test_false    <Abstract>();
     test_false    <AbstractDestructor>();

     test_true     <OperatorNewDeleted>();

     test_true     <decltype(Lambda)>();
     test_not_const<void(*)(const int&)>();
     test_not_const<void(Empty::*)(const int&)               >();
     test_not_const<void(Empty::*)(const int&) const         >();
     test_not_const<void(Empty::*)(const int&)       volatile>();
     test_not_const<void(Empty::*)(const int&) const volatile>();
     test_not_const<void(Empty::*)(const int&) &>();
     test_not_const<void(Empty::*)(const int&) &&>();
     test_not_const<void(Empty::*)(const int&) noexcept>();
     test_not_const<void(Empty::*)(const int&) noexcept(true)>();
     test_not_const<void(Empty::*)(const int&) noexcept(false)>();

     // Sequence containers
     test_not_const<std::array<               int, 0>>();
     test_not_const<std::array<               int, 1>>();
     test_false    <std::array<const          int, 1>>();
     test_not_const<std::array<      volatile int, 1>>();
     test_false    <std::array<const volatile int, 1>>();
     test_true     <std::deque<               int>>();
 #ifdef _LIBCPP_VERSION
     test_true     <std::deque<const          int>>();
 #endif // _LIBCPP_VERSION
     test_true     <std::forward_list<int>>();
     test_true     <std::list<int>>();
     test_true     <std::vector<int>>();

     // Associative containers
     test_true     <std::set<int>>();
     test_true     <std::map<int, int>>();
     test_true     <std::multiset<int>>();
     test_true     <std::multimap<int, int>>();

     // Unordered associative containers
     test_true     <std::unordered_set<int>>();
     test_true     <std::unordered_map<int, int>>();
     test_true     <std::unordered_multiset<int>>();
     test_true     <std::unordered_multimap<int, int>>();

     // Container adaptors
     test_true     <std::stack<               int>>();
 #ifdef _LIBCPP_VERSION
     test_true     <std::stack<const          int>>();
 #endif // _LIBCPP_VERSION
     test_true     <std::queue<int>>();
     test_true     <std::priority_queue<int>>();

     test_true     <std::span<               int>>();
     test_true     <std::span<const          int>>();
     test_true     <std::span<      volatile int>>();
     test_true     <std::span<const volatile int>>();

     // Strings
     test_true     <std::string>();
 #ifndef TEST_HAS_NO_WIDE_CHARACTERS
     test_true     <std::wstring>();
 #endif
     test_true     <std::u8string>();
     test_true     <std::u16string>();
     test_true     <std::u32string>();

     // String views
     test_true     <std::string_view>();
 #ifndef TEST_HAS_NO_WIDE_CHARACTERS
     test_true     <std::wstring_view>();
 #endif
     test_true     <std::u8string_view>();
     test_true     <std::u16string_view>();
     test_true     <std::u32string_view>();

     // Smart pointers
     test_true     <std::unique_ptr<int>>();
     test_true     <std::shared_ptr<int>>();
     test_true     <std::weak_ptr<int>>();

 }

 // Required for MSVC internal test runner compatibility.
 int main(int, char**) {
     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++03, c++11, c++14, c++17
	// UNSUPPORTED: libcpp-no-concepts

	// template<class T>
	// concept default_initializable = constructible_from<T> &&
	// requires { T{}; } &&
	// is-default-initializable<T>;

	#include <array>
	#include <concepts>
	#include <deque>
	#include <forward_list>
	#include <list>
	#include <map>
	#include <memory>
	#include <queue>
	#include <set>
	#include <span>
	#include <stack>
	#include <string>
	#include <string_view>
	#include <unordered_map>
	#include <unordered_set>
	#include <vector>

	#include "test_macros.h"

	struct Empty {};

	struct CtorDefaulted {
	CtorDefaulted() = default;
	};
	struct CtorDeleted {
	CtorDeleted() = delete;
	};
	struct DtorDefaulted {
	~DtorDefaulted() = default;
	};
	struct DtorDeleted {
	~DtorDeleted() = delete;
	};

	struct Noexcept {
	~Noexcept() noexcept;
	};
	struct NoexceptTrue {
	~NoexceptTrue() noexcept(true);
	};
	struct NoexceptFalse {
	~NoexceptFalse() noexcept(false);
	};

	struct CtorProtected {
	protected:
	CtorProtected() = default;
	};
	struct CtorPrivate {
	private:
	CtorPrivate() = default;
	};
	struct DtorProtected {
	protected:
	~DtorProtected() = default;
	};
	struct DtorPrivate {
	private:
	~DtorPrivate() = default;
	};

	template <class T>
	struct NoexceptDependant {
	~NoexceptDependant() noexcept(std::is_same_v<T, int>);
	};

	struct CtorExplicit {
	explicit CtorExplicit() = default;
	};
	struct CtorArgument {
	CtorArgument(int) {}
	};
	struct CtorDefaultArgument {
	CtorDefaultArgument(int = 0) {}
	};
	struct CtorExplicitDefaultArgument {
	explicit CtorExplicitDefaultArgument(int = 0) {}
	};

	struct Derived : public Empty {};

	class Abstract {
	virtual void foo() = 0;
	};

	class AbstractDestructor {
	virtual ~AbstractDestructor() = 0;
	};

	class OperatorNewDeleted {
	void* operator new(std::size_t) = delete;
	void operator delete(void* ptr) = delete;
	};

	[[maybe_unused]] auto Lambda = [](const int&, int&&, double){};

	template<class T>
	void test_not_const()
	{
	static_assert( std::default_initializable< T>);
	static_assert(!std::default_initializable<const T>);
	static_assert( std::default_initializable< volatile T>);
	static_assert(!std::default_initializable<const volatile T>);
	}

	template<class T>
	void test_true()
	{
	static_assert( std::default_initializable< T>);
	static_assert( std::default_initializable<const T>);
	static_assert( std::default_initializable< volatile T>);
	static_assert( std::default_initializable<const volatile T>);
	}

	template<class T>
	void test_false()
	{
	static_assert(!std::default_initializable< T>);
	static_assert(!std::default_initializable<const T>);
	static_assert(!std::default_initializable< volatile T>);
	static_assert(!std::default_initializable<const volatile T>);
	}

	void test()
	{
	test_not_const<bool>();
	test_not_const<char>();
	test_not_const<int>();
	test_not_const<double>();

	test_false <void>();
	test_not_const<void*>();

	test_not_const<int*>();
	test_false <int[]>();
	test_not_const<int[1]>();
	test_false <int&>();
	test_false <int&&>();

	test_true <Empty>();

	test_true <CtorDefaulted>();
	test_false <CtorDeleted>();
	test_true <DtorDefaulted>();
	test_false <DtorDeleted>();

	test_true <Noexcept>();
	test_true <NoexceptTrue>();
	test_false <NoexceptFalse>();

	test_false <CtorProtected>();
	test_false <CtorPrivate>();
	test_false <DtorProtected>();
	test_false <DtorPrivate>();

	test_true <NoexceptDependant<int>>();
	test_false <NoexceptDependant<double>>();

	test_true <CtorExplicit>();
	test_false <CtorArgument>();
	test_true <CtorDefaultArgument>();
	test_true <CtorExplicitDefaultArgument>();

	test_true <Derived>();
	test_false <Abstract>();
	test_false <AbstractDestructor>();

	test_true <OperatorNewDeleted>();

	test_true <decltype(Lambda)>();
	test_not_const<void(*)(const int&)>();
	test_not_const<void(Empty::*)(const int&) >();
	test_not_const<void(Empty::*)(const int&) const >();
	test_not_const<void(Empty::*)(const int&) volatile>();
	test_not_const<void(Empty::*)(const int&) const volatile>();
	test_not_const<void(Empty::*)(const int&) &>();
	test_not_const<void(Empty::*)(const int&) &&>();
	test_not_const<void(Empty::*)(const int&) noexcept>();
	test_not_const<void(Empty::*)(const int&) noexcept(true)>();
	test_not_const<void(Empty::*)(const int&) noexcept(false)>();

	// Sequence containers
	test_not_const<std::array< int, 0>>();
	test_not_const<std::array< int, 1>>();
	test_false <std::array<const int, 1>>();
	test_not_const<std::array< volatile int, 1>>();
	test_false <std::array<const volatile int, 1>>();
	test_true <std::deque< int>>();
	#ifdef _LIBCPP_VERSION
	test_true <std::deque<const int>>();
	#endif // _LIBCPP_VERSION
	test_true <std::forward_list<int>>();
	test_true <std::list<int>>();
	test_true <std::vector<int>>();

	// Associative containers
	test_true <std::set<int>>();
	test_true <std::map<int, int>>();
	test_true <std::multiset<int>>();
	test_true <std::multimap<int, int>>();

	// Unordered associative containers
	test_true <std::unordered_set<int>>();
	test_true <std::unordered_map<int, int>>();
	test_true <std::unordered_multiset<int>>();
	test_true <std::unordered_multimap<int, int>>();

	// Container adaptors
	test_true <std::stack< int>>();
	#ifdef _LIBCPP_VERSION
	test_true <std::stack<const int>>();
	#endif // _LIBCPP_VERSION
	test_true <std::queue<int>>();
	test_true <std::priority_queue<int>>();

	test_true <std::span< int>>();
	test_true <std::span<const int>>();
	test_true <std::span< volatile int>>();
	test_true <std::span<const volatile int>>();

	// Strings
	test_true <std::string>();
	#ifndef TEST_HAS_NO_WIDE_CHARACTERS
	test_true <std::wstring>();
	#endif
	test_true <std::u8string>();
	test_true <std::u16string>();
	test_true <std::u32string>();

	// String views
	test_true <std::string_view>();
	#ifndef TEST_HAS_NO_WIDE_CHARACTERS
	test_true <std::wstring_view>();
	#endif
	test_true <std::u8string_view>();
	test_true <std::u16string_view>();
	test_true <std::u32string_view>();

	// Smart pointers
	test_true <std::unique_ptr<int>>();
	test_true <std::shared_ptr<int>>();
	test_true <std::weak_ptr<int>>();

	}

	// Required for MSVC internal test runner compatibility.
	int main(int, char**) {
	return 0;
	}