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

 #include <boost/config.hpp>

 #if defined(BOOST_MSVC)

 #pragma warning(disable: 4786)  // identifier truncated in debug info
 #pragma warning(disable: 4710)  // function not inlined
 #pragma warning(disable: 4711)  // function selected for automatic inline expansion
 #pragma warning(disable: 4514)  // unreferenced inline removed
 #pragma warning(disable: 4355)  // 'this' : used in base member initializer list
 #pragma warning(disable: 4511)  // copy constructor could not be generated
 #pragma warning(disable: 4512)  // assignment operator could not be generated

 #if (BOOST_MSVC >= 1310)
 #pragma warning(disable: 4675)  // resolved overload found with Koenig lookup
 #endif

 #endif

 //
 //  intrusive_ptr_move_test.cpp
 //
 //  Copyright (c) 2002-2005 Peter Dimov
 //
 // Distributed under the Boost Software License, Version 1.0. (See
 // accompanying file LICENSE_1_0.txt or copy at
 // http://www.boost.org/LICENSE_1_0.txt)
 //

 #include <boost/core/lightweight_test.hpp>
 #include <boost/intrusive_ptr.hpp>
 #include <boost/detail/atomic_count.hpp>
 #include <boost/config.hpp>
 #include <utility>

 #if !defined( BOOST_NO_CXX11_RVALUE_REFERENCES )

 namespace N
 {

 class base
 {
 private:

     mutable boost::detail::atomic_count use_count_;

     base(base const &);
     base & operator=(base const &);

 protected:

     base(): use_count_(0)
     {
         ++instances;
     }

     virtual ~base()
     {
         --instances;
     }

 public:

     static long instances;

     long use_count() const
     {
         return use_count_;
     }

 #if !defined(BOOST_NO_ARGUMENT_DEPENDENT_LOOKUP)

     inline friend void intrusive_ptr_add_ref(base const * p)
     {
         ++p->use_count_;
     }

     inline friend void intrusive_ptr_release(base const * p)
     {
         if(--p->use_count_ == 0) delete p;
     }

 #else

     void add_ref() const
     {
         ++use_count_;
     }

     void release() const
     {
         if(--use_count_ == 0) delete this;
     }

 #endif
 };

 long base::instances = 0;

 } // namespace N

 #if defined(BOOST_NO_ARGUMENT_DEPENDENT_LOOKUP)

 namespace boost
 {

 inline void intrusive_ptr_add_ref(N::base const * p)
 {
     p->add_ref();
 }

 inline void intrusive_ptr_release(N::base const * p)
 {
     p->release();
 }

 } // namespace boost

 #endif

 //

 struct X: public virtual N::base
 {
 };

 struct Y: public X
 {
 };

 int main()
 {
     BOOST_TEST( N::base::instances == 0 );

     {
         boost::intrusive_ptr<X> p( new X );
         BOOST_TEST( N::base::instances == 1 );

         boost::intrusive_ptr<X> p2( std::move( p ) );
         BOOST_TEST( N::base::instances == 1 );
         BOOST_TEST( p.get() == 0 );

         p2.reset();
         BOOST_TEST( N::base::instances == 0 );
     }

     {
         boost::intrusive_ptr<Y> p( new Y );
         BOOST_TEST( N::base::instances == 1 );

         boost::intrusive_ptr<X> p2( std::move( p ) );
         BOOST_TEST( N::base::instances == 1 );
         BOOST_TEST( p.get() == 0 );

         p2.reset();
         BOOST_TEST( N::base::instances == 0 );
     }

     {
         boost::intrusive_ptr<X> p( new X );
         BOOST_TEST( N::base::instances == 1 );

         boost::intrusive_ptr<X> p2;
         p2 = std::move( p );
         BOOST_TEST( N::base::instances == 1 );
         BOOST_TEST( p.get() == 0 );

         p2.reset();
         BOOST_TEST( N::base::instances == 0 );
     }

     {
         boost::intrusive_ptr<X> p( new X );
         BOOST_TEST( N::base::instances == 1 );

         boost::intrusive_ptr<X> p2( new X );
         BOOST_TEST( N::base::instances == 2 );
         p2 = std::move( p );
         BOOST_TEST( N::base::instances == 1 );
         BOOST_TEST( p.get() == 0 );

         p2.reset();
         BOOST_TEST( N::base::instances == 0 );
     }

     {
         boost::intrusive_ptr<Y> p( new Y );
         BOOST_TEST( N::base::instances == 1 );

         boost::intrusive_ptr<X> p2;
         p2 = std::move( p );
         BOOST_TEST( N::base::instances == 1 );
         BOOST_TEST( p.get() == 0 );

         p2.reset();
         BOOST_TEST( N::base::instances == 0 );
     }

     {
         boost::intrusive_ptr<Y> p( new Y );
         BOOST_TEST( N::base::instances == 1 );

         boost::intrusive_ptr<X> p2( new X );
         BOOST_TEST( N::base::instances == 2 );
         p2 = std::move( p );
         BOOST_TEST( N::base::instances == 1 );
         BOOST_TEST( p.get() == 0 );

         p2.reset();
         BOOST_TEST( N::base::instances == 0 );
     }

     {
         boost::intrusive_ptr<X> px( new Y );

         X * px2 = px.get();

         boost::intrusive_ptr<Y> py = boost::static_pointer_cast<Y>( std::move( px ) );
         BOOST_TEST( py.get() == px2 );
         BOOST_TEST( px.get() == 0 );
         BOOST_TEST( py->use_count() == 1 );
     }

     BOOST_TEST( N::base::instances == 0 );

     {
         boost::intrusive_ptr<X const> px( new X );

         X const * px2 = px.get();

         boost::intrusive_ptr<X> px3 = boost::const_pointer_cast<X>( std::move( px ) );
         BOOST_TEST( px3.get() == px2 );
         BOOST_TEST( px.get() == 0 );
         BOOST_TEST( px3->use_count() == 1 );
     }

     BOOST_TEST( N::base::instances == 0 );

     {
         boost::intrusive_ptr<X> px( new Y );

         X * px2 = px.get();

         boost::intrusive_ptr<Y> py = boost::dynamic_pointer_cast<Y>( std::move( px ) );
         BOOST_TEST( py.get() == px2 );
         BOOST_TEST( px.get() == 0 );
         BOOST_TEST( py->use_count() == 1 );
     }

     BOOST_TEST( N::base::instances == 0 );

     {
         boost::intrusive_ptr<X> px( new X );

         X * px2 = px.get();

         boost::intrusive_ptr<Y> py = boost::dynamic_pointer_cast<Y>( std::move( px ) );
         BOOST_TEST( py.get() == 0 );
         BOOST_TEST( px.get() == px2 );
         BOOST_TEST( px->use_count() == 1 );
     }

     BOOST_TEST( N::base::instances == 0 );

     return boost::report_errors();
 }

 #else // defined( BOOST_NO_CXX11_RVALUE_REFERENCES )

 int main()
 {
     return 0;
 }

 #endif
	#include <boost/config.hpp>

	#if defined(BOOST_MSVC)

	#pragma warning(disable: 4786) // identifier truncated in debug info
	#pragma warning(disable: 4710) // function not inlined
	#pragma warning(disable: 4711) // function selected for automatic inline expansion
	#pragma warning(disable: 4514) // unreferenced inline removed
	#pragma warning(disable: 4355) // 'this' : used in base member initializer list
	#pragma warning(disable: 4511) // copy constructor could not be generated
	#pragma warning(disable: 4512) // assignment operator could not be generated

	#if (BOOST_MSVC >= 1310)
	#pragma warning(disable: 4675) // resolved overload found with Koenig lookup
	#endif

	#endif

	//
	// intrusive_ptr_move_test.cpp
	//
	// Copyright (c) 2002-2005 Peter Dimov
	//
	// Distributed under the Boost Software License, Version 1.0. (See
	// accompanying file LICENSE_1_0.txt or copy at
	// http://www.boost.org/LICENSE_1_0.txt)
	//

	#include <boost/core/lightweight_test.hpp>
	#include <boost/intrusive_ptr.hpp>
	#include <boost/detail/atomic_count.hpp>
	#include <boost/config.hpp>
	#include <utility>

	#if !defined( BOOST_NO_CXX11_RVALUE_REFERENCES )

	namespace N
	{

	class base
	{
	private:

	mutable boost::detail::atomic_count use_count_;

	base(base const &);
	base & operator=(base const &);

	protected:

	base(): use_count_(0)
	{
	++instances;
	}

	virtual ~base()
	{
	--instances;
	}

	public:

	static long instances;

	long use_count() const
	{
	return use_count_;
	}

	#if !defined(BOOST_NO_ARGUMENT_DEPENDENT_LOOKUP)

	inline friend void intrusive_ptr_add_ref(base const * p)
	{
	++p->use_count_;
	}

	inline friend void intrusive_ptr_release(base const * p)
	{
	if(--p->use_count_ == 0) delete p;
	}

	#else

	void add_ref() const
	{
	++use_count_;
	}

	void release() const
	{
	if(--use_count_ == 0) delete this;
	}

	#endif
	};

	long base::instances = 0;

	} // namespace N

	#if defined(BOOST_NO_ARGUMENT_DEPENDENT_LOOKUP)

	namespace boost
	{

	inline void intrusive_ptr_add_ref(N::base const * p)
	{
	p->add_ref();
	}

	inline void intrusive_ptr_release(N::base const * p)
	{
	p->release();
	}

	} // namespace boost

	#endif

	//

	struct X: public virtual N::base
	{
	};

	struct Y: public X
	{
	};

	int main()
	{
	BOOST_TEST( N::base::instances == 0 );

	{
	boost::intrusive_ptr<X> p( new X );
	BOOST_TEST( N::base::instances == 1 );

	boost::intrusive_ptr<X> p2( std::move( p ) );
	BOOST_TEST( N::base::instances == 1 );
	BOOST_TEST( p.get() == 0 );

	p2.reset();
	BOOST_TEST( N::base::instances == 0 );
	}

	{
	boost::intrusive_ptr<Y> p( new Y );
	BOOST_TEST( N::base::instances == 1 );

	boost::intrusive_ptr<X> p2( std::move( p ) );
	BOOST_TEST( N::base::instances == 1 );
	BOOST_TEST( p.get() == 0 );

	p2.reset();
	BOOST_TEST( N::base::instances == 0 );
	}

	{
	boost::intrusive_ptr<X> p( new X );
	BOOST_TEST( N::base::instances == 1 );

	boost::intrusive_ptr<X> p2;
	p2 = std::move( p );
	BOOST_TEST( N::base::instances == 1 );
	BOOST_TEST( p.get() == 0 );

	p2.reset();
	BOOST_TEST( N::base::instances == 0 );
	}

	{
	boost::intrusive_ptr<X> p( new X );
	BOOST_TEST( N::base::instances == 1 );

	boost::intrusive_ptr<X> p2( new X );
	BOOST_TEST( N::base::instances == 2 );
	p2 = std::move( p );
	BOOST_TEST( N::base::instances == 1 );
	BOOST_TEST( p.get() == 0 );

	p2.reset();
	BOOST_TEST( N::base::instances == 0 );
	}

	{
	boost::intrusive_ptr<Y> p( new Y );
	BOOST_TEST( N::base::instances == 1 );

	boost::intrusive_ptr<X> p2;
	p2 = std::move( p );
	BOOST_TEST( N::base::instances == 1 );
	BOOST_TEST( p.get() == 0 );

	p2.reset();
	BOOST_TEST( N::base::instances == 0 );
	}

	{
	boost::intrusive_ptr<Y> p( new Y );
	BOOST_TEST( N::base::instances == 1 );

	boost::intrusive_ptr<X> p2( new X );
	BOOST_TEST( N::base::instances == 2 );
	p2 = std::move( p );
	BOOST_TEST( N::base::instances == 1 );
	BOOST_TEST( p.get() == 0 );

	p2.reset();
	BOOST_TEST( N::base::instances == 0 );
	}

	{
	boost::intrusive_ptr<X> px( new Y );

	X * px2 = px.get();

	boost::intrusive_ptr<Y> py = boost::static_pointer_cast<Y>( std::move( px ) );
	BOOST_TEST( py.get() == px2 );
	BOOST_TEST( px.get() == 0 );
	BOOST_TEST( py->use_count() == 1 );
	}

	BOOST_TEST( N::base::instances == 0 );

	{
	boost::intrusive_ptr<X const> px( new X );

	X const * px2 = px.get();

	boost::intrusive_ptr<X> px3 = boost::const_pointer_cast<X>( std::move( px ) );
	BOOST_TEST( px3.get() == px2 );
	BOOST_TEST( px.get() == 0 );
	BOOST_TEST( px3->use_count() == 1 );
	}

	BOOST_TEST( N::base::instances == 0 );

	{
	boost::intrusive_ptr<X> px( new Y );

	X * px2 = px.get();

	boost::intrusive_ptr<Y> py = boost::dynamic_pointer_cast<Y>( std::move( px ) );
	BOOST_TEST( py.get() == px2 );
	BOOST_TEST( px.get() == 0 );
	BOOST_TEST( py->use_count() == 1 );
	}

	BOOST_TEST( N::base::instances == 0 );

	{
	boost::intrusive_ptr<X> px( new X );

	X * px2 = px.get();

	boost::intrusive_ptr<Y> py = boost::dynamic_pointer_cast<Y>( std::move( px ) );
	BOOST_TEST( py.get() == 0 );
	BOOST_TEST( px.get() == px2 );
	BOOST_TEST( px->use_count() == 1 );
	}

	BOOST_TEST( N::base::instances == 0 );

	return boost::report_errors();
	}

	#else // defined( BOOST_NO_CXX11_RVALUE_REFERENCES )

	int main()
	{
	return 0;
	}

	#endif