boost_1_45_0/libs/ptr_container/test/test_data.hpp - nest-learning-thermostat/5.0/boost - Git at Google

 //
 // Boost.Pointer Container
 //
 //  Copyright Thorsten Ottosen 2003-2005. Use, modification and
 //  distribution is subject to 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)
 //
 // For more information, see http://www.boost.org/libs/ptr_container/
 //

 #include <boost/static_assert.hpp>
 #include <boost/type_traits.hpp>
 #include <boost/config.hpp>
 #include <boost/test/test_tools.hpp>
 #include <boost/lexical_cast.hpp>
 #include <boost/functional/hash.hpp>
 #include <algorithm>
 #include <iostream>
 #include <string>
 #include <utility>
 #include <cstdlib>

 using namespace std;
 using namespace boost;

 //////////////////////////////////////////////////////////////////////////////
 // Test class 1: a class hierarchy
 //////////////////////////////////////////////////////////////////////////////

 class Base
 {
     Base( const Base& r ) : data1(r.data1), data2(r.data2),
         data3(r.data3), data(r.data)
     {
 #ifdef PTR_CONTAINER_DEBUG
         objects++;
         std::cout <<"+ " << objects << "\n";
 #endif
     }

     Base& operator=( const Base& );

 public: // for test reasons only
     int data1, data2, data3;
     string data;

 public:

     Base() : data1(1), data2(2), data3(rand()%256),
              data(lexical_cast<string>(rand()))
     {
 #ifdef PTR_CONTAINER_DEBUG
         objects++;
         std::cout <<"+ " << objects << "\n";
 #endif
     }

     virtual ~Base()
     {
 #ifdef PTR_CONTAINER_DEBUG
         objects--;
         std::cout <<"- " << objects << "\n";
         if( objects < 0 )
             terminate();
 #endif
     }

     void     print( ostream& out ) const  { do_print( out); }
     Base*    clone() const                { return do_clone(); }
     void     foo()                        { do_foo(); }

     virtual bool less_than( const Base& b ) const
     {
         return data3 < b.data3;
     }

     virtual bool equal( const Base& b ) const
     {
         return data1 == b.data1 &&
                data2 == b.data2 &&
                data3 == b.data3 &&
                data  == b.data;
     }

 #ifdef PTR_CONTAINER_DEBUG
     static int objects;
 #endif

 private:
     virtual void  do_print( ostream& /*out*/ ) const   { };
     virtual Base* do_clone() const                     { return new Base( *this ); };
     virtual void  do_foo()                             { };
 };

 #ifdef PTR_CONTAINER_DEBUG
 int Base::objects = 0;
 #endif


 ostream& operator<<( ostream& out, const Base& b )
 {
     b.print( out );
     return out;
 }


 //
 //  We rely on argument dependent lookup
 //  for this to be found
 //
 inline Base* new_clone( const Base& b )
 {
     return b.clone();
 }


 inline bool operator<( const Base& l, const Base& r )
 {
     return l.less_than( r );
 }


 inline bool operator>( const Base& l, const Base& r )
 {
     return r < l;
 }


 inline bool operator==( const Base& l, const Base& r )
 {
     return l.equal( r );
 }


 inline bool operator!=( const Base& l, const Base& r )
 {
     return !l.equal( r );
 }


 inline std::size_t hash_value( const Base& b )
 {
     std::size_t seed = 0;
     boost::hash_combine( seed, b.data );
     boost::hash_combine( seed, b.data1 );
     boost::hash_combine( seed, b.data2 );
     boost::hash_combine( seed, b.data3 );
     return seed;
 }


 class Derived_class : public Base
 {
 public: // for test reasons only
     int i_;

 private:

     virtual void  do_print( ostream& out ) const
     {
         out << i_;
     }


     virtual Base* do_clone() const
     {
         return new Derived_class;
     }

     virtual void do_foo()
     {
         ++i_;
     }

 public:
     Derived_class() : i_( rand() )
     { }

     virtual bool less_than( const Base& b ) const
     {
         const Derived_class& d = dynamic_cast<const Derived_class&>( b );
         return i_ < d.i_;
     }
 };


 inline std::size_t hash_value( const Derived_class& b )
 {
     std::size_t seed = hash_value( static_cast<const Base&>( b ) );
     boost::hash_combine( seed, b.i_ );
     return seed;
 }

 //////////////////////////////////////////////////////////////////////////////
 // Test class 2: a value class
 //////////////////////////////////////////////////////////////////////////////

 class Value
 {
 public: // for test reasons only
     string s_;

 public:

     Value() : s_( boost::lexical_cast<string>( rand() ) )
     {}

     ~Value()      { /** debug code here */ }

     string name() const
     {
         return s_;
     }
 };


 inline bool operator<( const Value& l, const Value& r )
 {
     return l.name() < r.name();
 }


 inline bool operator>( const Value& l, const Value& r )
 {
     return l.name() > r.name();
 }


 inline bool operator==( const Value& l, const Value& r )
 {
     return l.name() == r.name();
 }


 inline bool operator!=( const Value& l, const Value& r )
 {
     return l.name() != r.name();
 }


 inline ostream& operator<<( ostream& out, const Value& v )
 {
     return out << v.name() << " ";
 }


 inline std::size_t hash_value( const Value& v )
 {
     return boost::hash_value( v.s_ );
 }

 //
 // used to hide "unused variable" warnings
 //
 template< class T >
 inline void hide_warning( T& /*r*/ )
 { }

 //
 // used to customize tests for circular_buffer
 //
 template< class Cont >
 struct set_capacity
 {
     void operator()( Cont& ) const
     { }
 };

 //
 //  transfer() test
 //

 template< class Cont1, class Cont2 >
 void transfer_test( Cont1& from, Cont2& to )
 {
     BOOST_MESSAGE( "starting container transfer test" );
     BOOST_CHECK( !from.empty() );
     to. BOOST_NESTED_TEMPLATE transfer<Cont1>( from );
     BOOST_CHECK( !to.empty() );
     BOOST_MESSAGE( "finishing container transfer test" );
 }


 //
 // test of copy operations
 //

 template< class BaseContainer, class DerivedContainer, class Derived >
 void container_assignment_test()
 {
     BOOST_MESSAGE( "starting container assignment test" );

     DerivedContainer derived;
     set_capacity<DerivedContainer>()( derived );
     derived.insert( derived.begin(), new Derived );
     derived.insert( derived.begin(), new Derived );

     BaseContainer base( derived );
     BOOST_CHECK_EQUAL( derived.size(), base.size() );
     base.clear();
     base = derived;
     BOOST_CHECK_EQUAL( derived.size(), base.size() );
     BaseContainer base2( base );
     BOOST_CHECK_EQUAL( base2.size(), base.size() );
     base2 = base;
     BOOST_CHECK_EQUAL( base2.size(), base.size() );
     base = base;

     BOOST_MESSAGE( "finished container assignment test" );
 }
	//
	// Boost.Pointer Container
	//
	// Copyright Thorsten Ottosen 2003-2005. Use, modification and
	// distribution is subject to 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)
	//
	// For more information, see http://www.boost.org/libs/ptr_container/
	//

	#include <boost/static_assert.hpp>
	#include <boost/type_traits.hpp>
	#include <boost/config.hpp>
	#include <boost/test/test_tools.hpp>
	#include <boost/lexical_cast.hpp>
	#include <boost/functional/hash.hpp>
	#include <algorithm>
	#include <iostream>
	#include <string>
	#include <utility>
	#include <cstdlib>

	using namespace std;
	using namespace boost;

	//////////////////////////////////////////////////////////////////////////////
	// Test class 1: a class hierarchy
	//////////////////////////////////////////////////////////////////////////////

	class Base
	{
	Base( const Base& r ) : data1(r.data1), data2(r.data2),
	data3(r.data3), data(r.data)
	{
	#ifdef PTR_CONTAINER_DEBUG
	objects++;
	std::cout <<"+ " << objects << "\n";
	#endif
	}

	Base& operator=( const Base& );

	public: // for test reasons only
	int data1, data2, data3;
	string data;

	public:

	Base() : data1(1), data2(2), data3(rand()%256),
	data(lexical_cast<string>(rand()))
	{
	#ifdef PTR_CONTAINER_DEBUG
	objects++;
	std::cout <<"+ " << objects << "\n";
	#endif
	}

	virtual ~Base()
	{
	#ifdef PTR_CONTAINER_DEBUG
	objects--;
	std::cout <<"- " << objects << "\n";
	if( objects < 0 )
	terminate();
	#endif
	}

	void print( ostream& out ) const { do_print( out); }
	Base* clone() const { return do_clone(); }
	void foo() { do_foo(); }

	virtual bool less_than( const Base& b ) const
	{
	return data3 < b.data3;
	}

	virtual bool equal( const Base& b ) const
	{
	return data1 == b.data1 &&
	data2 == b.data2 &&
	data3 == b.data3 &&
	data == b.data;
	}

	#ifdef PTR_CONTAINER_DEBUG
	static int objects;
	#endif

	private:
	virtual void do_print( ostream& /out/ ) const { };
	virtual Base* do_clone() const { return new Base( *this ); };
	virtual void do_foo() { };
	};

	#ifdef PTR_CONTAINER_DEBUG
	int Base::objects = 0;
	#endif



	ostream& operator<<( ostream& out, const Base& b )
	{
	b.print( out );
	return out;
	}


	//
	// We rely on argument dependent lookup
	// for this to be found
	//
	inline Base* new_clone( const Base& b )
	{
	return b.clone();
	}



	inline bool operator<( const Base& l, const Base& r )
	{
	return l.less_than( r );
	}



	inline bool operator>( const Base& l, const Base& r )
	{
	return r < l;
	}



	inline bool operator==( const Base& l, const Base& r )
	{
	return l.equal( r );
	}



	inline bool operator!=( const Base& l, const Base& r )
	{
	return !l.equal( r );
	}



	inline std::size_t hash_value( const Base& b )
	{
	std::size_t seed = 0;
	boost::hash_combine( seed, b.data );
	boost::hash_combine( seed, b.data1 );
	boost::hash_combine( seed, b.data2 );
	boost::hash_combine( seed, b.data3 );
	return seed;
	}


	class Derived_class : public Base
	{
	public: // for test reasons only
	int i_;

	private:

	virtual void do_print( ostream& out ) const
	{
	out << i_;
	}


	virtual Base* do_clone() const
	{
	return new Derived_class;
	}

	virtual void do_foo()
	{
	++i_;
	}

	public:
	Derived_class() : i_( rand() )
	{ }

	virtual bool less_than( const Base& b ) const
	{
	const Derived_class& d = dynamic_cast<const Derived_class&>( b );
	return i_ < d.i_;
	}
	};



	inline std::size_t hash_value( const Derived_class& b )
	{
	std::size_t seed = hash_value( static_cast<const Base&>( b ) );
	boost::hash_combine( seed, b.i_ );
	return seed;
	}

	//////////////////////////////////////////////////////////////////////////////
	// Test class 2: a value class
	//////////////////////////////////////////////////////////////////////////////

	class Value
	{
	public: // for test reasons only
	string s_;

	public:

	Value() : s_( boost::lexical_cast<string>( rand() ) )
	{}

	~Value() { /** debug code here */ }

	string name() const
	{
	return s_;
	}
	};



	inline bool operator<( const Value& l, const Value& r )
	{
	return l.name() < r.name();
	}



	inline bool operator>( const Value& l, const Value& r )
	{
	return l.name() > r.name();
	}



	inline bool operator==( const Value& l, const Value& r )
	{
	return l.name() == r.name();
	}



	inline bool operator!=( const Value& l, const Value& r )
	{
	return l.name() != r.name();
	}



	inline ostream& operator<<( ostream& out, const Value& v )
	{
	return out << v.name() << " ";
	}



	inline std::size_t hash_value( const Value& v )
	{
	return boost::hash_value( v.s_ );
	}

	//
	// used to hide "unused variable" warnings
	//
	template< class T >
	inline void hide_warning( T& /r/ )
	{ }

	//
	// used to customize tests for circular_buffer
	//
	template< class Cont >
	struct set_capacity
	{
	void operator()( Cont& ) const
	{ }
	};

	//
	// transfer() test
	//

	template< class Cont1, class Cont2 >
	void transfer_test( Cont1& from, Cont2& to )
	{
	BOOST_MESSAGE( "starting container transfer test" );
	BOOST_CHECK( !from.empty() );
	to. BOOST_NESTED_TEMPLATE transfer<Cont1>( from );
	BOOST_CHECK( !to.empty() );
	BOOST_MESSAGE( "finishing container transfer test" );
	}


	//
	// test of copy operations
	//

	template< class BaseContainer, class DerivedContainer, class Derived >
	void container_assignment_test()
	{
	BOOST_MESSAGE( "starting container assignment test" );

	DerivedContainer derived;
	set_capacity<DerivedContainer>()( derived );
	derived.insert( derived.begin(), new Derived );
	derived.insert( derived.begin(), new Derived );

	BaseContainer base( derived );
	BOOST_CHECK_EQUAL( derived.size(), base.size() );
	base.clear();
	base = derived;
	BOOST_CHECK_EQUAL( derived.size(), base.size() );
	BaseContainer base2( base );
	BOOST_CHECK_EQUAL( base2.size(), base.size() );
	base2 = base;
	BOOST_CHECK_EQUAL( base2.size(), base.size() );
	base = base;

	BOOST_MESSAGE( "finished container assignment test" );
	}