libs/icl/test/test_icl_discrete_interval.hpp - platform/external/boost - Git at Google

 /*-----------------------------------------------------------------------------+
 Copyright (c) 2008-2010: Joachim Faulhaber
 +------------------------------------------------------------------------------+
    Distributed under the Boost Software License, Version 1.0.
       (See accompanying file LICENCE.txt or copy at
            http://www.boost.org/LICENSE_1_0.txt)
 +-----------------------------------------------------------------------------*/
 #ifndef BOOST_ICL_TEST_ICL_DISCRETE_INTERVAL_HPP_JOFA_100930
 #define BOOST_ICL_TEST_ICL_DISCRETE_INTERVAL_HPP_JOFA_100930


 template <class T, class IntervalT>
 void discrete_interval_traits()
 {
     BOOST_CHECK( is_interval<IntervalT>::value                        );
     BOOST_CHECK( is_discrete_interval<IntervalT>::value               );
     BOOST_CHECK( is_discrete<typename IntervalT::domain_type>::value  );
     BOOST_CHECK(!is_continuous<typename IntervalT::domain_type>::value);
     BOOST_CHECK( has_dynamic_bounds<IntervalT>::value                 );
     BOOST_CHECK(!has_static_bounds<IntervalT>::value                  );
 }

 template <class T, class IntervalT>
 void discrete_interval_ctor__dis_4_dyn_v_sta() // discrete && (dynamic or static)
 {
     BOOST_CHECK_EQUAL( IntervalT(MK_v(3)), IntervalT(MK_v(3)) );
     BOOST_CHECK_EQUAL( icl::contains(IntervalT(MK_v(1)), MK_v(1)), true );
 }

 template <class T, ICL_COMPARE Compare>
 void distant_intervals_4_discrete_types()
 {
     typedef right_open_interval<T,Compare> L__D; // L__D for [..)
     typedef  left_open_interval<T,Compare> C__I; // C__I for (..]
     typedef    closed_interval<T,Compare> L__I; // L__I for [..]
     typedef      open_interval<T,Compare> C__D; // C__D for (..)
     typedef typename icl::interval<T,Compare>::type IntervalT;

     BOOST_CHECK( is_interval<L__D>::value );
     BOOST_CHECK( has_difference<typename interval_traits<L__D>::domain_type>::value );
     BOOST_CHECK( is_discrete<typename interval_traits<L__D>::domain_type>::value    );
     BOOST_CHECK( (boost::is_same<typename interval_traits<L__D>::domain_type, T>::value)   );

     typedef typename difference_type_of<T>::type DiffT;

     test_inner_complement<T,Compare,L__D>(MK_I(L__D,0,4), MK_I(L__D,8,9));
     test_inner_complement<T,Compare,L__D>(MK_I(L__D,7,8), MK_I(L__D,2,3));
     test_inner_complement<T,Compare,L__D>(MK_I(L__D,2,4), MK_I(L__D,4,6));
     test_inner_complement<T,Compare,L__D>(MK_I(L__D,3,7), MK_I(L__D,5,8));
     test_inner_complement<T,Compare,L__D>(MK_I(L__D,7,9), MK_I(L__D,0,4));
     test_inner_complement<T,Compare,L__D>(MK_I(L__D,0,0), MK_I(L__D,0,0));
     test_inner_complement<T,Compare,L__D>(MK_I(L__D,1,0), MK_I(L__D,2,0));

     test_inner_complement<T,Compare,C__I>(MK_I(C__I,1,5), MK_I(C__I,4,9));
     test_inner_complement<T,Compare,C__I>(MK_I(C__I,4,6), MK_I(C__I,1,3));
     test_inner_complement<T,Compare,C__I>(MK_I(C__I,0,2), MK_I(C__I,4,6));
     test_inner_complement<T,Compare,C__I>(MK_I(C__I,0,2), MK_I(C__I,0,6));

     test_inner_complement<T,Compare,L__I>(MK_I(L__I,7,9), MK_I(L__I,0,5));
     test_inner_complement<T,Compare,L__I>(MK_I(L__I,0,9), MK_I(L__I,2,5));

     test_inner_complement<T,Compare,C__D>(MK_I(C__D,6,9), MK_I(C__D,1,4));
     test_inner_complement<T,Compare,C__D>(MK_I(C__D,1,3), MK_I(C__D,1,4));
     test_inner_complement<T,Compare,C__D>(MK_I(C__D,1,3), MK_I(C__D,6,8));
     test_inner_complement<T,Compare,C__D>(MK_I(C__D,1,7), MK_I(C__D,1,6));
     test_inner_complement<T,Compare,C__D>(MK_I(C__D,1,1), MK_I(C__D,1,1));
     test_inner_complement<T,Compare,C__D>(MK_I(C__D,3,0), MK_I(C__D,4,0));
     test_inner_complement<T,Compare,C__D>(MK_I(C__D,0,2), MK_I(C__D,4,6));
     test_inner_complement<T,Compare,C__D>(MK_I(C__D,0,2), MK_I(C__D,0,6));

     //--------------------------------------------------------------------------
     test_inner_complement<T,Compare,IntervalT>(I_D(0,4), I_D(8,9));
     test_inner_complement<T,Compare,IntervalT>(I_D(7,8), I_D(2,3));
     test_inner_complement<T,Compare,IntervalT>(I_D(2,4), I_D(4,6));
     test_inner_complement<T,Compare,IntervalT>(I_D(3,7), I_D(5,8));
     test_inner_complement<T,Compare,IntervalT>(I_D(7,9), I_D(0,4));
     test_inner_complement<T,Compare,IntervalT>(I_D(0,0), I_D(0,0));
     test_inner_complement<T,Compare,IntervalT>(I_D(1,0), I_D(2,0));

     test_inner_complement<T,Compare,IntervalT>(C_I(1,5), C_I(4,9));
     test_inner_complement<T,Compare,IntervalT>(C_I(4,6), C_I(1,3));
     test_inner_complement<T,Compare,IntervalT>(C_I(0,2), C_I(4,6));
     test_inner_complement<T,Compare,IntervalT>(C_I(0,2), C_I(0,6));

     test_inner_complement<T,Compare,IntervalT>(I_I(7,9), I_I(0,5));
     test_inner_complement<T,Compare,IntervalT>(I_I(0,9), I_I(2,5));

     test_inner_complement<T,Compare,IntervalT>(C_D(6,9), C_D(1,4));
     test_inner_complement<T,Compare,IntervalT>(C_D(1,3), C_D(1,4));
     test_inner_complement<T,Compare,IntervalT>(C_D(1,3), C_D(6,8));
     test_inner_complement<T,Compare,IntervalT>(C_D(1,7), C_D(1,6));
     test_inner_complement<T,Compare,IntervalT>(C_D(1,1), C_D(1,1));
     test_inner_complement<T,Compare,IntervalT>(C_D(3,0), C_D(4,0));
     test_inner_complement<T,Compare,IntervalT>(C_D(0,2), C_D(4,6));
     test_inner_complement<T,Compare,IntervalT>(C_D(0,2), C_D(0,6));

 }


 #endif // BOOST_ICL_TEST_ICL_DISCRETE_INTERVAL_HPP_JOFA_100930
	/*-----------------------------------------------------------------------------+
	Copyright (c) 2008-2010: Joachim Faulhaber
	+------------------------------------------------------------------------------+
	Distributed under the Boost Software License, Version 1.0.
	(See accompanying file LICENCE.txt or copy at
	http://www.boost.org/LICENSE_1_0.txt)
	+-----------------------------------------------------------------------------*/
	#ifndef BOOST_ICL_TEST_ICL_DISCRETE_INTERVAL_HPP_JOFA_100930
	#define BOOST_ICL_TEST_ICL_DISCRETE_INTERVAL_HPP_JOFA_100930


	template <class T, class IntervalT>
	void discrete_interval_traits()
	{
	BOOST_CHECK( is_interval<IntervalT>::value );
	BOOST_CHECK( is_discrete_interval<IntervalT>::value );
	BOOST_CHECK( is_discrete<typename IntervalT::domain_type>::value );
	BOOST_CHECK(!is_continuous<typename IntervalT::domain_type>::value);
	BOOST_CHECK( has_dynamic_bounds<IntervalT>::value );
	BOOST_CHECK(!has_static_bounds<IntervalT>::value );
	}

	template <class T, class IntervalT>
	void discrete_interval_ctor__dis_4_dyn_v_sta() // discrete && (dynamic or static)
	{
	BOOST_CHECK_EQUAL( IntervalT(MK_v(3)), IntervalT(MK_v(3)) );
	BOOST_CHECK_EQUAL( icl::contains(IntervalT(MK_v(1)), MK_v(1)), true );
	}

	template <class T, ICL_COMPARE Compare>
	void distant_intervals_4_discrete_types()
	{
	typedef right_open_interval<T,Compare> L__D; // L__D for [..)
	typedef left_open_interval<T,Compare> C__I; // C__I for (..]
	typedef closed_interval<T,Compare> L__I; // L__I for [..]
	typedef open_interval<T,Compare> C__D; // C__D for (..)
	typedef typename icl::interval<T,Compare>::type IntervalT;

	BOOST_CHECK( is_interval<L__D>::value );
	BOOST_CHECK( has_difference<typename interval_traits<L__D>::domain_type>::value );
	BOOST_CHECK( is_discrete<typename interval_traits<L__D>::domain_type>::value );
	BOOST_CHECK( (boost::is_same<typename interval_traits<L__D>::domain_type, T>::value) );

	typedef typename difference_type_of<T>::type DiffT;

	test_inner_complement<T,Compare,L__D>(MK_I(L__D,0,4), MK_I(L__D,8,9));
	test_inner_complement<T,Compare,L__D>(MK_I(L__D,7,8), MK_I(L__D,2,3));
	test_inner_complement<T,Compare,L__D>(MK_I(L__D,2,4), MK_I(L__D,4,6));
	test_inner_complement<T,Compare,L__D>(MK_I(L__D,3,7), MK_I(L__D,5,8));
	test_inner_complement<T,Compare,L__D>(MK_I(L__D,7,9), MK_I(L__D,0,4));
	test_inner_complement<T,Compare,L__D>(MK_I(L__D,0,0), MK_I(L__D,0,0));
	test_inner_complement<T,Compare,L__D>(MK_I(L__D,1,0), MK_I(L__D,2,0));

	test_inner_complement<T,Compare,C__I>(MK_I(C__I,1,5), MK_I(C__I,4,9));
	test_inner_complement<T,Compare,C__I>(MK_I(C__I,4,6), MK_I(C__I,1,3));
	test_inner_complement<T,Compare,C__I>(MK_I(C__I,0,2), MK_I(C__I,4,6));
	test_inner_complement<T,Compare,C__I>(MK_I(C__I,0,2), MK_I(C__I,0,6));

	test_inner_complement<T,Compare,L__I>(MK_I(L__I,7,9), MK_I(L__I,0,5));
	test_inner_complement<T,Compare,L__I>(MK_I(L__I,0,9), MK_I(L__I,2,5));

	test_inner_complement<T,Compare,C__D>(MK_I(C__D,6,9), MK_I(C__D,1,4));
	test_inner_complement<T,Compare,C__D>(MK_I(C__D,1,3), MK_I(C__D,1,4));
	test_inner_complement<T,Compare,C__D>(MK_I(C__D,1,3), MK_I(C__D,6,8));
	test_inner_complement<T,Compare,C__D>(MK_I(C__D,1,7), MK_I(C__D,1,6));
	test_inner_complement<T,Compare,C__D>(MK_I(C__D,1,1), MK_I(C__D,1,1));
	test_inner_complement<T,Compare,C__D>(MK_I(C__D,3,0), MK_I(C__D,4,0));
	test_inner_complement<T,Compare,C__D>(MK_I(C__D,0,2), MK_I(C__D,4,6));
	test_inner_complement<T,Compare,C__D>(MK_I(C__D,0,2), MK_I(C__D,0,6));

	//--------------------------------------------------------------------------
	test_inner_complement<T,Compare,IntervalT>(I_D(0,4), I_D(8,9));
	test_inner_complement<T,Compare,IntervalT>(I_D(7,8), I_D(2,3));
	test_inner_complement<T,Compare,IntervalT>(I_D(2,4), I_D(4,6));
	test_inner_complement<T,Compare,IntervalT>(I_D(3,7), I_D(5,8));
	test_inner_complement<T,Compare,IntervalT>(I_D(7,9), I_D(0,4));
	test_inner_complement<T,Compare,IntervalT>(I_D(0,0), I_D(0,0));
	test_inner_complement<T,Compare,IntervalT>(I_D(1,0), I_D(2,0));

	test_inner_complement<T,Compare,IntervalT>(C_I(1,5), C_I(4,9));
	test_inner_complement<T,Compare,IntervalT>(C_I(4,6), C_I(1,3));
	test_inner_complement<T,Compare,IntervalT>(C_I(0,2), C_I(4,6));
	test_inner_complement<T,Compare,IntervalT>(C_I(0,2), C_I(0,6));

	test_inner_complement<T,Compare,IntervalT>(I_I(7,9), I_I(0,5));
	test_inner_complement<T,Compare,IntervalT>(I_I(0,9), I_I(2,5));

	test_inner_complement<T,Compare,IntervalT>(C_D(6,9), C_D(1,4));
	test_inner_complement<T,Compare,IntervalT>(C_D(1,3), C_D(1,4));
	test_inner_complement<T,Compare,IntervalT>(C_D(1,3), C_D(6,8));
	test_inner_complement<T,Compare,IntervalT>(C_D(1,7), C_D(1,6));
	test_inner_complement<T,Compare,IntervalT>(C_D(1,1), C_D(1,1));
	test_inner_complement<T,Compare,IntervalT>(C_D(3,0), C_D(4,0));
	test_inner_complement<T,Compare,IntervalT>(C_D(0,2), C_D(4,6));
	test_inner_complement<T,Compare,IntervalT>(C_D(0,2), C_D(0,6));

	}


	#endif // BOOST_ICL_TEST_ICL_DISCRETE_INTERVAL_HPP_JOFA_100930