third_party/boost/smart_ptr/test/allocate_unique_array_test.cpp - platform/external/sdv/vsomeip - Git at Google

 /*
 Copyright 2019 Glen Joseph Fernandes
 (glenjofe@gmail.com)

 Distributed under the Boost Software License, Version 1.0.
 (http://www.boost.org/LICENSE_1_0.txt)
 */
 #include <boost/config.hpp>
 #if (!defined(BOOST_LIBSTDCXX_VERSION) || \
     BOOST_LIBSTDCXX_VERSION >= 48000) && \
     !defined(BOOST_NO_CXX11_SMART_PTR)
 #include <boost/smart_ptr/allocate_unique.hpp>
 #include <boost/core/lightweight_test.hpp>

 template<class T = void>
 struct creator {
     typedef T value_type;
     typedef T* pointer;

     template<class U>
     struct rebind {
         typedef creator<U> other;
     };

     creator() { }

     template<class U>
     creator(const creator<U>&) { }

     T* allocate(std::size_t size) {
         return static_cast<T*>(::operator new(sizeof(T) * size));
     }

     void deallocate(T* ptr, std::size_t) {
         ::operator delete(ptr);
     }
 };

 template<class T, class U>
 inline bool
 operator==(const creator<T>&, const creator<U>&)
 {
     return true;
 }

 template<class T, class U>
 inline bool
 operator!=(const creator<T>&, const creator<U>&)
 {
     return false;
 }

 class type {
 public:
     static unsigned instances;

     type()
         : value_(0.0) {
         ++instances;
     }

     ~type() {
         --instances;
     }

     void set(long double value) {
         value_ = value;
     }

     long double get() const {
         return value_;
     }

 private:
     type(const type&);
     type& operator=(const type&);

     long double value_;
 };

 unsigned type::instances = 0;

 int main()
 {
     {
         std::unique_ptr<int[],
             boost::alloc_deleter<int[], creator<int> > > result =
             boost::allocate_unique<int[]>(creator<int>(), 3);
         BOOST_TEST(result.get() != 0);
         BOOST_TEST(result[0] == 0);
         BOOST_TEST(result[1] == 0);
         BOOST_TEST(result[2] == 0);
     }
     {
         std::unique_ptr<int[],
             boost::alloc_deleter<int[3], creator<int> > > result =
             boost::allocate_unique<int[3]>(creator<int>());
         BOOST_TEST(result.get() != 0);
         BOOST_TEST(result[0] == 0);
         BOOST_TEST(result[1] == 0);
         BOOST_TEST(result[2] == 0);
     }
     {
         std::unique_ptr<int[][2],
             boost::alloc_deleter<int[][2], creator<> > > result =
             boost::allocate_unique<int[][2]>(creator<>(), 2);
         BOOST_TEST(result.get() != 0);
         BOOST_TEST(result[0][0] == 0);
         BOOST_TEST(result[0][1] == 0);
         BOOST_TEST(result[1][0] == 0);
         BOOST_TEST(result[1][1] == 0);
     }
     {
         std::unique_ptr<int[][2],
             boost::alloc_deleter<int[2][2], creator<> > > result =
             boost::allocate_unique<int[2][2]>(creator<>());
         BOOST_TEST(result.get() != 0);
         BOOST_TEST(result[0][0] == 0);
         BOOST_TEST(result[0][1] == 0);
         BOOST_TEST(result[1][0] == 0);
         BOOST_TEST(result[1][1] == 0);
     }
     {
         std::unique_ptr<const int[],
             boost::alloc_deleter<const int[], creator<> > > result =
             boost::allocate_unique<const int[]>(creator<>(), 3);
         BOOST_TEST(result.get() != 0);
         BOOST_TEST(result[0] == 0);
         BOOST_TEST(result[1] == 0);
         BOOST_TEST(result[2] == 0);
     }
     {
         std::unique_ptr<const int[],
             boost::alloc_deleter<const int[3], creator<> > > result =
             boost::allocate_unique<const int[3]>(creator<>());
         BOOST_TEST(result.get() != 0);
         BOOST_TEST(result[0] == 0);
         BOOST_TEST(result[1] == 0);
         BOOST_TEST(result[2] == 0);
     }
     {
         std::unique_ptr<const int[][2],
             boost::alloc_deleter<const int[][2], creator<> > > result =
             boost::allocate_unique<const int[][2]>(creator<>(), 2);
         BOOST_TEST(result.get() != 0);
         BOOST_TEST(result[0][0] == 0);
         BOOST_TEST(result[0][1] == 0);
         BOOST_TEST(result[1][0] == 0);
         BOOST_TEST(result[1][1] == 0);
     }
     {
         std::unique_ptr<const int[][2],
             boost::alloc_deleter<const int[2][2], creator<> > > result =
             boost::allocate_unique<const int[2][2]>(creator<>());
         BOOST_TEST(result.get() != 0);
         BOOST_TEST(result[0][0] == 0);
         BOOST_TEST(result[0][1] == 0);
         BOOST_TEST(result[1][0] == 0);
         BOOST_TEST(result[1][1] == 0);
     }
     {
         std::unique_ptr<type[],
             boost::alloc_deleter<type[], creator<type> > > result =
             boost::allocate_unique<type[]>(creator<type>(), 3);
         BOOST_TEST(result.get() != 0);
         BOOST_TEST(type::instances == 3);
         result.reset();
         BOOST_TEST(type::instances == 0);
     }
     {
         std::unique_ptr<type[],
             boost::alloc_deleter<type[3], creator<type> > > result =
             boost::allocate_unique<type[3]>(creator<type>());
         BOOST_TEST(result.get() != 0);
         BOOST_TEST(type::instances == 3);
         result.reset();
         BOOST_TEST(type::instances == 0);
     }
     {
         std::unique_ptr<type[][2],
             boost::alloc_deleter<type[][2], creator<> > > result =
             boost::allocate_unique<type[][2]>(creator<>(), 2);
         BOOST_TEST(result.get() != 0);
         BOOST_TEST(type::instances == 4);
         result.reset();
         BOOST_TEST(type::instances == 0);
     }
     {
         std::unique_ptr<type[][2],
             boost::alloc_deleter<type[2][2], creator<> > > result =
             boost::allocate_unique<type[2][2]>(creator<>());
         BOOST_TEST(result.get() != 0);
         BOOST_TEST(type::instances == 4);
         result.reset();
         BOOST_TEST(type::instances == 0);
     }
     {
         std::unique_ptr<const type[],
             boost::alloc_deleter<const type[], creator<> > > result =
             boost::allocate_unique<const type[]>(creator<>(), 3);
         BOOST_TEST(result.get() != 0);
         BOOST_TEST(type::instances == 3);
         result.reset();
         BOOST_TEST(type::instances == 0);
     }
     {
         std::unique_ptr<const type[],
             boost::alloc_deleter<const type[3], creator<> > > result =
             boost::allocate_unique<const type[3]>(creator<>());
         BOOST_TEST(result.get() != 0);
         BOOST_TEST(type::instances == 3);
         result.reset();
         BOOST_TEST(type::instances == 0);
     }
     {
         std::unique_ptr<const type[][2],
             boost::alloc_deleter<const type[][2], creator<> > > result =
             boost::allocate_unique<const type[][2]>(creator<>(), 2);
         BOOST_TEST(result.get() != 0);
         BOOST_TEST(type::instances == 4);
         result.reset();
         BOOST_TEST(type::instances == 0);
     }
     {
         std::unique_ptr<const type[][2],
             boost::alloc_deleter<const type[2][2], creator<> > > result =
             boost::allocate_unique<const type[2][2]>(creator<>());
         BOOST_TEST(result.get() != 0);
         BOOST_TEST(type::instances == 4);
         result.reset();
         BOOST_TEST(type::instances == 0);
     }
     return boost::report_errors();
 }
 #else
 int main()
 {
     return 0;
 }
 #endif
	/*
	Copyright 2019 Glen Joseph Fernandes
	(glenjofe@gmail.com)

	Distributed under the Boost Software License, Version 1.0.
	(http://www.boost.org/LICENSE_1_0.txt)
	*/
	#include <boost/config.hpp>
	#if (!defined(BOOST_LIBSTDCXX_VERSION) \|\| \
	BOOST_LIBSTDCXX_VERSION >= 48000) && \
	!defined(BOOST_NO_CXX11_SMART_PTR)
	#include <boost/smart_ptr/allocate_unique.hpp>
	#include <boost/core/lightweight_test.hpp>

	template<class T = void>
	struct creator {
	typedef T value_type;
	typedef T* pointer;

	template<class U>
	struct rebind {
	typedef creator<U> other;
	};

	creator() { }

	template<class U>
	creator(const creator<U>&) { }

	T* allocate(std::size_t size) {
	return static_cast<T>(::operator new(sizeof(T) size));
	}

	void deallocate(T* ptr, std::size_t) {
	::operator delete(ptr);
	}
	};

	template<class T, class U>
	inline bool
	operator==(const creator<T>&, const creator<U>&)
	{
	return true;
	}

	template<class T, class U>
	inline bool
	operator!=(const creator<T>&, const creator<U>&)
	{
	return false;
	}

	class type {
	public:
	static unsigned instances;

	type()
	: value_(0.0) {
	++instances;
	}

	~type() {
	--instances;
	}

	void set(long double value) {
	value_ = value;
	}

	long double get() const {
	return value_;
	}

	private:
	type(const type&);
	type& operator=(const type&);

	long double value_;
	};

	unsigned type::instances = 0;

	int main()
	{
	{
	std::unique_ptr<int[],
	boost::alloc_deleter<int[], creator<int> > > result =
	boost::allocate_unique<int[]>(creator<int>(), 3);
	BOOST_TEST(result.get() != 0);
	BOOST_TEST(result[0] == 0);
	BOOST_TEST(result[1] == 0);
	BOOST_TEST(result[2] == 0);
	}
	{
	std::unique_ptr<int[],
	boost::alloc_deleter<int[3], creator<int> > > result =
	boost::allocate_unique<int[3]>(creator<int>());
	BOOST_TEST(result.get() != 0);
	BOOST_TEST(result[0] == 0);
	BOOST_TEST(result[1] == 0);
	BOOST_TEST(result[2] == 0);
	}
	{
	std::unique_ptr<int[][2],
	boost::alloc_deleter<int[][2], creator<> > > result =
	boost::allocate_unique<int[][2]>(creator<>(), 2);
	BOOST_TEST(result.get() != 0);
	BOOST_TEST(result[0][0] == 0);
	BOOST_TEST(result[0][1] == 0);
	BOOST_TEST(result[1][0] == 0);
	BOOST_TEST(result[1][1] == 0);
	}
	{
	std::unique_ptr<int[][2],
	boost::alloc_deleter<int[2][2], creator<> > > result =
	boost::allocate_unique<int[2][2]>(creator<>());
	BOOST_TEST(result.get() != 0);
	BOOST_TEST(result[0][0] == 0);
	BOOST_TEST(result[0][1] == 0);
	BOOST_TEST(result[1][0] == 0);
	BOOST_TEST(result[1][1] == 0);
	}
	{
	std::unique_ptr<const int[],
	boost::alloc_deleter<const int[], creator<> > > result =
	boost::allocate_unique<const int[]>(creator<>(), 3);
	BOOST_TEST(result.get() != 0);
	BOOST_TEST(result[0] == 0);
	BOOST_TEST(result[1] == 0);
	BOOST_TEST(result[2] == 0);
	}
	{
	std::unique_ptr<const int[],
	boost::alloc_deleter<const int[3], creator<> > > result =
	boost::allocate_unique<const int[3]>(creator<>());
	BOOST_TEST(result.get() != 0);
	BOOST_TEST(result[0] == 0);
	BOOST_TEST(result[1] == 0);
	BOOST_TEST(result[2] == 0);
	}
	{
	std::unique_ptr<const int[][2],
	boost::alloc_deleter<const int[][2], creator<> > > result =
	boost::allocate_unique<const int[][2]>(creator<>(), 2);
	BOOST_TEST(result.get() != 0);
	BOOST_TEST(result[0][0] == 0);
	BOOST_TEST(result[0][1] == 0);
	BOOST_TEST(result[1][0] == 0);
	BOOST_TEST(result[1][1] == 0);
	}
	{
	std::unique_ptr<const int[][2],
	boost::alloc_deleter<const int[2][2], creator<> > > result =
	boost::allocate_unique<const int[2][2]>(creator<>());
	BOOST_TEST(result.get() != 0);
	BOOST_TEST(result[0][0] == 0);
	BOOST_TEST(result[0][1] == 0);
	BOOST_TEST(result[1][0] == 0);
	BOOST_TEST(result[1][1] == 0);
	}
	{
	std::unique_ptr<type[],
	boost::alloc_deleter<type[], creator<type> > > result =
	boost::allocate_unique<type[]>(creator<type>(), 3);
	BOOST_TEST(result.get() != 0);
	BOOST_TEST(type::instances == 3);
	result.reset();
	BOOST_TEST(type::instances == 0);
	}
	{
	std::unique_ptr<type[],
	boost::alloc_deleter<type[3], creator<type> > > result =
	boost::allocate_unique<type[3]>(creator<type>());
	BOOST_TEST(result.get() != 0);
	BOOST_TEST(type::instances == 3);
	result.reset();
	BOOST_TEST(type::instances == 0);
	}
	{
	std::unique_ptr<type[][2],
	boost::alloc_deleter<type[][2], creator<> > > result =
	boost::allocate_unique<type[][2]>(creator<>(), 2);
	BOOST_TEST(result.get() != 0);
	BOOST_TEST(type::instances == 4);
	result.reset();
	BOOST_TEST(type::instances == 0);
	}
	{
	std::unique_ptr<type[][2],
	boost::alloc_deleter<type[2][2], creator<> > > result =
	boost::allocate_unique<type[2][2]>(creator<>());
	BOOST_TEST(result.get() != 0);
	BOOST_TEST(type::instances == 4);
	result.reset();
	BOOST_TEST(type::instances == 0);
	}
	{
	std::unique_ptr<const type[],
	boost::alloc_deleter<const type[], creator<> > > result =
	boost::allocate_unique<const type[]>(creator<>(), 3);
	BOOST_TEST(result.get() != 0);
	BOOST_TEST(type::instances == 3);
	result.reset();
	BOOST_TEST(type::instances == 0);
	}
	{
	std::unique_ptr<const type[],
	boost::alloc_deleter<const type[3], creator<> > > result =
	boost::allocate_unique<const type[3]>(creator<>());
	BOOST_TEST(result.get() != 0);
	BOOST_TEST(type::instances == 3);
	result.reset();
	BOOST_TEST(type::instances == 0);
	}
	{
	std::unique_ptr<const type[][2],
	boost::alloc_deleter<const type[][2], creator<> > > result =
	boost::allocate_unique<const type[][2]>(creator<>(), 2);
	BOOST_TEST(result.get() != 0);
	BOOST_TEST(type::instances == 4);
	result.reset();
	BOOST_TEST(type::instances == 0);
	}
	{
	std::unique_ptr<const type[][2],
	boost::alloc_deleter<const type[2][2], creator<> > > result =
	boost::allocate_unique<const type[2][2]>(creator<>());
	BOOST_TEST(result.get() != 0);
	BOOST_TEST(type::instances == 4);
	result.reset();
	BOOST_TEST(type::instances == 0);
	}
	return boost::report_errors();
	}
	#else
	int main()
	{
	return 0;
	}
	#endif