boost_1_45_0/libs/smart_ptr/test/shared_ptr_alloc2_test.cpp - nest-learning-thermostat/5.0/boost - Git at Google

 #include <boost/config.hpp>

 //  shared_ptr_alloc2_test.cpp
 //
 //  Copyright (c) 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/detail/lightweight_test.hpp>
 #include <boost/shared_ptr.hpp>
 #include <memory>
 #include <cstddef>

 // test_allocator

 struct test_allocator_base
 {
     int id_;

     static int last_global_id_;
     static int count_;

     explicit test_allocator_base( int id ): id_( id )
     {
     }
 };

 int test_allocator_base::last_global_id_ = 0;
 int test_allocator_base::count_ = 0;

 template<class T> class test_allocator: public test_allocator_base
 {
 public:

     typedef T * pointer;
     typedef T const * const_pointer;
     typedef T & reference;
     typedef T const & const_reference;
     typedef T value_type;
     typedef std::size_t size_type;
     typedef std::ptrdiff_t difference_type;

 private:

     static T * last_pointer_;
     static std::size_t last_n_;
     static int last_id_;

 public:

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

     pointer address( reference r ) const
     {
         return &r;
     }

     const_pointer address( const_reference s ) const
     {
         return &s;
     }

     explicit test_allocator( int id = 0 ): test_allocator_base( id )
     {
     }

     template<class U> test_allocator( test_allocator<U> const & r ): test_allocator_base( r )
     {
     }

     template<class U> test_allocator & operator=( test_allocator<U> const & r )
     {
         test_allocator_base::operator=( r );
         return *this;
     }

     void deallocate( pointer p, size_type n )
     {
         BOOST_TEST( p == last_pointer_ );
         BOOST_TEST( n == last_n_ );
         BOOST_TEST( id_ == last_id_ );

         --count_;

         ::operator delete( p );
     }

     pointer allocate( size_type n, void const * )
     {
         T * p = static_cast< T* >( ::operator new( n * sizeof( T ) ) );

         last_pointer_ = p;
         last_n_ = n;
         last_id_ = id_;

         last_global_id_ = id_;
         ++count_;

         return p;
     }

     void construct( pointer p, T const & t )
     {
         new( p ) T( t );
     }

     void destroy( pointer p )
     {
         p->~T();
     }

     size_type max_size() const
     {
         return size_type( -1 ) / sizeof( T );
     }
 };

 template<class T> T * test_allocator<T>::last_pointer_ = 0;
 template<class T> std::size_t test_allocator<T>::last_n_ = 0;
 template<class T> int test_allocator<T>::last_id_ = 0;

 template<class T, class U> inline bool operator==( test_allocator<T> const & a1, test_allocator<U> const & a2 )
 {
     return a1.id_ == a2.id_;
 }

 template<class T, class U> inline bool operator!=( test_allocator<T> const & a1, test_allocator<U> const & a2 )
 {
     return a1.id_ != a2.id_;
 }

 template<> class test_allocator<void>: public test_allocator_base
 {
 public:

     typedef void * pointer;
     typedef void const * const_pointer;
     typedef void value_type;

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

     explicit test_allocator( int id = 0 ): test_allocator_base( id )
     {
     }

     template<class U> test_allocator( test_allocator<U> const & r ): test_allocator_base( r )
     {
     }

     template<class U> test_allocator & operator=( test_allocator<U> const & r )
     {
         test_allocator_base::operator=( r );
         return *this;
     }
 };

 //

 struct X
 {
     static int instances;

     X()
     {
         ++instances;
     }

     ~X()
     {
         --instances;
     }

 private:

     X( X const & );
     X & operator=( X const & );
 };

 int X::instances = 0;

 int main()
 {
     BOOST_TEST( X::instances == 0 );

     boost::shared_ptr<void> pv( new X, boost::checked_deleter<X>(), std::allocator<X>() );

     BOOST_TEST( X::instances == 1 );

     pv.reset( new X, boost::checked_deleter<X>(), test_allocator<float>( 42 ) );

     BOOST_TEST( X::instances == 1 );

     BOOST_TEST( test_allocator_base::last_global_id_ == 42 );
     BOOST_TEST( test_allocator_base::count_ > 0 );

     pv.reset();

     BOOST_TEST( X::instances == 0 );
     BOOST_TEST( test_allocator_base::count_ == 0 );

     pv.reset( new X, boost::checked_deleter<X>(), test_allocator<void>( 43 ) );

     BOOST_TEST( X::instances == 1 );
     BOOST_TEST( test_allocator_base::last_global_id_ == 43 );

     pv.reset( new X, boost::checked_deleter<X>(), std::allocator<void>() );

     BOOST_TEST( X::instances == 1 );

     pv.reset();

     BOOST_TEST( X::instances == 0 );

     return boost::report_errors();
 }
	#include <boost/config.hpp>

	// shared_ptr_alloc2_test.cpp
	//
	// Copyright (c) 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/detail/lightweight_test.hpp>
	#include <boost/shared_ptr.hpp>
	#include <memory>
	#include <cstddef>

	// test_allocator

	struct test_allocator_base
	{
	int id_;

	static int last_global_id_;
	static int count_;

	explicit test_allocator_base( int id ): id_( id )
	{
	}
	};

	int test_allocator_base::last_global_id_ = 0;
	int test_allocator_base::count_ = 0;

	template<class T> class test_allocator: public test_allocator_base
	{
	public:

	typedef T * pointer;
	typedef T const * const_pointer;
	typedef T & reference;
	typedef T const & const_reference;
	typedef T value_type;
	typedef std::size_t size_type;
	typedef std::ptrdiff_t difference_type;

	private:

	static T * last_pointer_;
	static std::size_t last_n_;
	static int last_id_;

	public:

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

	pointer address( reference r ) const
	{
	return &r;
	}

	const_pointer address( const_reference s ) const
	{
	return &s;
	}

	explicit test_allocator( int id = 0 ): test_allocator_base( id )
	{
	}

	template<class U> test_allocator( test_allocator<U> const & r ): test_allocator_base( r )
	{
	}

	template<class U> test_allocator & operator=( test_allocator<U> const & r )
	{
	test_allocator_base::operator=( r );
	return *this;
	}

	void deallocate( pointer p, size_type n )
	{
	BOOST_TEST( p == last_pointer_ );
	BOOST_TEST( n == last_n_ );
	BOOST_TEST( id_ == last_id_ );

	--count_;

	::operator delete( p );
	}

	pointer allocate( size_type n, void const * )
	{
	T * p = static_cast< T* >( ::operator new( n * sizeof( T ) ) );

	last_pointer_ = p;
	last_n_ = n;
	last_id_ = id_;

	last_global_id_ = id_;
	++count_;

	return p;
	}

	void construct( pointer p, T const & t )
	{
	new( p ) T( t );
	}

	void destroy( pointer p )
	{
	p->~T();
	}

	size_type max_size() const
	{
	return size_type( -1 ) / sizeof( T );
	}
	};

	template<class T> T * test_allocator<T>::last_pointer_ = 0;
	template<class T> std::size_t test_allocator<T>::last_n_ = 0;
	template<class T> int test_allocator<T>::last_id_ = 0;

	template<class T, class U> inline bool operator==( test_allocator<T> const & a1, test_allocator<U> const & a2 )
	{
	return a1.id_ == a2.id_;
	}

	template<class T, class U> inline bool operator!=( test_allocator<T> const & a1, test_allocator<U> const & a2 )
	{
	return a1.id_ != a2.id_;
	}

	template<> class test_allocator<void>: public test_allocator_base
	{
	public:

	typedef void * pointer;
	typedef void const * const_pointer;
	typedef void value_type;

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

	explicit test_allocator( int id = 0 ): test_allocator_base( id )
	{
	}

	template<class U> test_allocator( test_allocator<U> const & r ): test_allocator_base( r )
	{
	}

	template<class U> test_allocator & operator=( test_allocator<U> const & r )
	{
	test_allocator_base::operator=( r );
	return *this;
	}
	};

	//

	struct X
	{
	static int instances;

	X()
	{
	++instances;
	}

	~X()
	{
	--instances;
	}

	private:

	X( X const & );
	X & operator=( X const & );
	};

	int X::instances = 0;

	int main()
	{
	BOOST_TEST( X::instances == 0 );

	boost::shared_ptr<void> pv( new X, boost::checked_deleter<X>(), std::allocator<X>() );

	BOOST_TEST( X::instances == 1 );

	pv.reset( new X, boost::checked_deleter<X>(), test_allocator<float>( 42 ) );

	BOOST_TEST( X::instances == 1 );

	BOOST_TEST( test_allocator_base::last_global_id_ == 42 );
	BOOST_TEST( test_allocator_base::count_ > 0 );

	pv.reset();

	BOOST_TEST( X::instances == 0 );
	BOOST_TEST( test_allocator_base::count_ == 0 );

	pv.reset( new X, boost::checked_deleter<X>(), test_allocator<void>( 43 ) );

	BOOST_TEST( X::instances == 1 );
	BOOST_TEST( test_allocator_base::last_global_id_ == 43 );

	pv.reset( new X, boost::checked_deleter<X>(), std::allocator<void>() );

	BOOST_TEST( X::instances == 1 );

	pv.reset();

	BOOST_TEST( X::instances == 0 );

	return boost::report_errors();
	}