/* [auto_generated] libs/numeric/odeint/test/times_time_iterator.cpp [begin_description] This file tests the times iterator. [end_description] Copyright 2009-2013 Karsten Ahnert Copyright 2009-2013 Mario Mulansky 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) */ #define BOOST_TEST_MODULE odeint_times_time_iterator #include #include #include #include #include #include #include #include #include #include #include #include #include "dummy_steppers.hpp" #include "dummy_odes.hpp" #include "dummy_observers.hpp" namespace mpl = boost::mpl; using namespace boost::numeric::odeint; typedef dummy_stepper::state_type state_type; typedef dummy_stepper::value_type value_type; typedef dummy_stepper::time_type time_type; BOOST_AUTO_TEST_SUITE( times_time_iterator_test ) typedef mpl::vector< dummy_stepper , dummy_dense_output_stepper > dummy_steppers; boost::array times = {{ 0.0 , 0.1, 0.2, 0.3 }}; typedef boost::array::iterator time_iterator_type; typedef std::vector< std::pair< state_type , time_type > > result_vector; BOOST_AUTO_TEST_CASE_TEMPLATE( copy_stepper_iterator , Stepper , dummy_steppers ) { typedef times_time_iterator< Stepper , empty_system , state_type , time_iterator_type > iterator_type; state_type x = {{ 1.0 }}; iterator_type iter1 = iterator_type( Stepper() , empty_system() , x , times.begin() , times.end() , 0.1 ); iterator_type iter2 = iter1; BOOST_CHECK_EQUAL( &(iter1->first) , &(iter2->first) ); BOOST_CHECK_EQUAL( &(iter1->first) , &x ); BOOST_CHECK( iter1.same( iter2 ) ); } BOOST_AUTO_TEST_CASE_TEMPLATE( assignment_stepper_iterator , Stepper , dummy_steppers ) { std::cout << "assignment" << std::endl; typedef times_time_iterator< Stepper , empty_system , state_type , time_iterator_type> iterator_type; state_type x1 = {{ 1.0 }} , x2 = {{ 2.0 }}; iterator_type iter1 = iterator_type( Stepper() , empty_system() , x1 , times.begin() , times.end() , 0.1 ); iterator_type iter2 = iterator_type( Stepper() , empty_system() , x2 , times.begin() , times.end() , 0.2 ); BOOST_CHECK_EQUAL( &(iter1->first) , &x1 ); BOOST_CHECK_EQUAL( &(iter2->first) , &x2 ); BOOST_CHECK( !iter1.same( iter2 ) ); iter2 = iter1; BOOST_CHECK_EQUAL( &(iter1->first) , &x1 ); BOOST_CHECK_EQUAL( &(iter2->first) , &x1 ); BOOST_CHECK( iter1.same( iter2 ) ); } BOOST_AUTO_TEST_CASE_TEMPLATE( stepper_iterator_factory , Stepper , dummy_steppers ) { std::cout << "factory" << std::endl; Stepper stepper; empty_system system; state_type x = {{ 1.0 }}; std::for_each( make_times_time_iterator_begin( stepper , boost::ref( system ) , x , times.begin(), times.end() , 0.1 ) , make_times_time_iterator_end( stepper , boost::ref( system ) , x ) , dummy_observer() ); // dummy_steppers just add 0.25 at each step, the above for_each leads to 3 do_step calls so x should be 1.75 BOOST_CHECK_CLOSE( x[0] , 1.75 , 1.0e-13 ); } BOOST_AUTO_TEST_CASE_TEMPLATE( stepper_range , Stepper , dummy_steppers ) { std::cout << "range" << std::endl; Stepper stepper; empty_system system; state_type x = {{ 1.0 }}; boost::for_each( make_times_time_range( stepper , boost::ref( system ) , x , times.begin() , times.end() , 0.1 ) , dummy_observer() ); BOOST_CHECK_CLOSE( x[0] , 1.75 , 1.0e-13 ); } BOOST_AUTO_TEST_CASE_TEMPLATE( stepper_iterator_with_reference_wrapper_factory , Stepper , dummy_steppers ) { Stepper stepper; empty_system system; state_type x = {{ 1.0 }}; std::for_each( make_times_time_iterator_begin( boost::ref( stepper ) , boost::ref( system ) , x , times.begin() , times.end() , 0.1 ) , make_times_time_iterator_end( boost::ref( stepper ) , boost::ref( system ) , x ) , dummy_observer() ); BOOST_CHECK_CLOSE( x[0] , 1.75 , 1.0e-13 ); } BOOST_AUTO_TEST_CASE_TEMPLATE( stepper_range_with_reference_wrapper , Stepper , dummy_steppers ) { Stepper stepper; empty_system system; state_type x = {{ 1.0 }}; boost::for_each( make_times_time_range( boost::ref( stepper ) , boost::ref( system ) , x , times.begin() , times.end(), 0.1 ) , dummy_observer() ); BOOST_CHECK_CLOSE( x[0] , 1.75 , 1.0e-13 ); } BOOST_AUTO_TEST_CASE_TEMPLATE( transitivity1 , Stepper , dummy_steppers ) { typedef times_time_iterator< Stepper , empty_system , state_type , time_iterator_type > stepper_iterator; std::cout << "transitivity1" << std::endl; state_type x = {{ 1.0 }}; stepper_iterator first1( Stepper() , empty_system() , x , times.end() , times.end() , 0.1 ); stepper_iterator last1( Stepper() , empty_system() , x ); stepper_iterator last2( Stepper() , empty_system() , x ); BOOST_CHECK( first1 == last1 ); BOOST_CHECK( first1 == last2 ); BOOST_CHECK( last1 == last2 ); first1 = stepper_iterator( Stepper() , empty_system() , x , times.end()-1 , times.end() , 0.1 ); last1 = stepper_iterator( Stepper() , empty_system() , x ); BOOST_CHECK( first1 != last1 ); BOOST_CHECK( ++first1 == last1 ); } BOOST_AUTO_TEST_CASE_TEMPLATE( copy_algorithm , Stepper , dummy_steppers ) { typedef times_time_iterator< Stepper , empty_system , state_type , time_iterator_type> stepper_iterator; state_type x = {{ 1.0 }}; result_vector res; stepper_iterator first( Stepper() , empty_system() , x , times.begin() , times.end() , 0.1 ); stepper_iterator last( Stepper() , empty_system() , x ); std::copy( first , last , std::back_insert_iterator< result_vector >( res ) ); BOOST_CHECK_EQUAL( res.size() , size_t( 4 ) ); BOOST_CHECK_CLOSE( res[0].first[0] , 1.0 , 1.0e-13 ); BOOST_CHECK_CLOSE( res[1].first[0] , 1.25 , 1.0e-13 ); BOOST_CHECK_CLOSE( res[2].first[0] , 1.5 , 1.0e-13 ); BOOST_CHECK_CLOSE( res[3].first[0] , 1.75 , 1.0e-13 ); for( size_t n=0 ; n<4 ; ++n ) BOOST_CHECK_CLOSE( res[n].second , times[n] , 1.0e-13 ); BOOST_CHECK_CLOSE( x[0] , 1.75 , 1.0e-13 ); // the iterator should not iterate over the end } BOOST_AUTO_TEST_CASE_TEMPLATE( copy_algorithm_negative_time_step , Stepper , dummy_steppers ) { typedef times_time_iterator< Stepper , empty_system , state_type , time_iterator_type > stepper_iterator; state_type x = {{ 1.0 }}; result_vector res; boost::array neg_times = {{ 0.0 , -0.1, -0.2, -0.3 }}; stepper_iterator first( Stepper() , empty_system() , x , neg_times.begin() , neg_times.end() , -0.1 ); stepper_iterator last( Stepper() , empty_system() , x ); std::copy( first , last , std::back_insert_iterator< result_vector >( res ) ); BOOST_CHECK_EQUAL( res.size() , size_t( 4 ) ); BOOST_CHECK_CLOSE( res[0].first[0] , 1.0 , 1.0e-13 ); BOOST_CHECK_CLOSE( res[1].first[0] , 1.25 , 1.0e-13 ); BOOST_CHECK_CLOSE( res[2].first[0] , 1.5 , 1.0e-13 ); BOOST_CHECK_CLOSE( res[3].first[0] , 1.75 , 1.0e-13 ); for( size_t n=0 ; n<4 ; ++n ) BOOST_CHECK_CLOSE( res[n].second , neg_times[n] , 1.0e-13 ); BOOST_CHECK_CLOSE( x[0] , 1.75 , 1.0e-13 ); } BOOST_AUTO_TEST_CASE_TEMPLATE( copy_algorithm_with_factory , Stepper , dummy_steppers ) { state_type x = {{ 1.0 }}; result_vector res; std::copy( make_times_time_iterator_begin( Stepper() , empty_system() , x , times.begin() , times.end() , 0.1 ) , make_times_time_iterator_end( Stepper() , empty_system() , x ) , std::back_insert_iterator< result_vector >( res ) ); BOOST_CHECK_EQUAL( res.size() , size_t( 4 ) ); BOOST_CHECK_CLOSE( res[0].first[0] , 1.0 , 1.0e-13 ); BOOST_CHECK_CLOSE( res[1].first[0] , 1.25 , 1.0e-13 ); BOOST_CHECK_CLOSE( res[2].first[0] , 1.5 , 1.0e-13 ); BOOST_CHECK_CLOSE( res[3].first[0] , 1.75 , 1.0e-13 ); for( size_t n=0 ; n<4 ; ++n ) BOOST_CHECK_CLOSE( res[n].second , times[n] , 1.0e-13 ); BOOST_CHECK_CLOSE( x[0] , 1.75 , 1.0e-13 ); } BOOST_AUTO_TEST_CASE_TEMPLATE( copy_algorithm_with_range_factory , Stepper , dummy_steppers ) { state_type x = {{ 1.0 }}; result_vector res; boost::range::copy( make_times_time_range( Stepper() , empty_system() , x , times.begin() , times.end() , 0.1 ) , std::back_insert_iterator< result_vector >( res ) ); BOOST_CHECK_EQUAL( res.size() , size_t( 4 ) ); BOOST_CHECK_CLOSE( res[0].first[0] , 1.0 , 1.0e-13 ); BOOST_CHECK_CLOSE( res[1].first[0] , 1.25 , 1.0e-13 ); BOOST_CHECK_CLOSE( res[2].first[0] , 1.5 , 1.0e-13 ); BOOST_CHECK_CLOSE( res[3].first[0] , 1.75 , 1.0e-13 ); for( size_t n=0 ; n<4 ; ++n ) BOOST_CHECK_CLOSE( res[n].second , times[n] , 1.0e-13 ); BOOST_CHECK_CLOSE( x[0] , 1.75 , 1.0e-13 ); } BOOST_AUTO_TEST_SUITE_END()