/* [auto_generated] libs/numeric/odeint/test/diagnostic_state_type.hpp [begin_description] tba. [end_description] Copyright 2012 Karsten Ahnert Copyright 2012 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) */ #ifndef LIBS_NUMERIC_ODEINT_TEST_DIAGNOSTIC_STATE_TYPE_HPP_DEFINED #define LIBS_NUMERIC_ODEINT_TEST_DIAGNOSTIC_STATE_TYPE_HPP_DEFINED #include #include #include #include #include template< size_t N > struct counter { static size_t& adjust_size_count( void ) { static size_t m_adjust_size_count; return m_adjust_size_count; } static size_t& construct_count( void ) { static size_t m_construct_count; return m_construct_count; } static size_t& copy_count( void ) { static size_t m_copy_count; return m_copy_count; } static size_t& destroy_count( void ) { static size_t m_destroy_count; return m_destroy_count; } static void init_counter( void ) { counter< N >::adjust_size_count() = 0; counter< N >::construct_count() = 0; counter< N >::copy_count() = 0; counter< N >::destroy_count() = 0; } }; template< size_t N > class diagnostic_type : public boost::array< double , 1 > { }; typedef diagnostic_type< 0 > diagnostic_state_type; typedef diagnostic_type< 1 > diagnostic_deriv_type; typedef diagnostic_type< 2 > diagnostic_state_type2; typedef diagnostic_type< 3 > diagnostic_deriv_type2; typedef counter< 0 > counter_state; typedef counter< 1 > counter_deriv; typedef counter< 2 > counter_state2; typedef counter< 3 > counter_deriv2; namespace boost { namespace numeric { namespace odeint { template< size_t N > struct is_resizeable< diagnostic_type< N > > { typedef boost::true_type type; const static bool value = type::value; }; template< size_t N , size_t M > struct same_size_impl< diagnostic_type< N > , diagnostic_type< M > > { static bool same_size( const diagnostic_type< N > &x1 , const diagnostic_type< M > &x2 ) { return false; } }; template< size_t N , class State1 > struct same_size_impl< diagnostic_type< N > , State1 > { static bool same_size( const diagnostic_type< N > &x1 , const State1 &x2 ) { return false; } }; template< class State1 , size_t N > struct same_size_impl< State1 , diagnostic_type< N > > { static bool same_size( const State1 &x1 , const diagnostic_type< N > &x2 ) { return false; } }; template< size_t N , class StateIn > struct resize_impl< diagnostic_type< N > , StateIn > { static void resize( diagnostic_type< N > &x1 , const StateIn &x2 ) { counter< N >::adjust_size_count()++; } }; template< size_t N > struct state_wrapper< diagnostic_type< N > > { typedef state_wrapper< diagnostic_type< N > > state_wrapper_type; typedef diagnostic_type< N > state_type; typedef double value_type; state_type m_v; state_wrapper() : m_v() { counter< N >::construct_count()++; } state_wrapper( const state_type &v ) : m_v( v ) { counter< N >::construct_count()++; counter< N >::copy_count()++; } state_wrapper( const state_wrapper_type &x ) : m_v( x.m_v ) { counter< N >::construct_count()++; counter< N >::copy_count()++; } state_wrapper_type& operator=( const state_wrapper_type &x ) { counter< N >::copy_count()++; return *this; } ~state_wrapper() { counter< N >::destroy_count()++; } }; } // namespace odeint } // namespace numeric } // namespace boost #define TEST_COUNTERS( c , s1 , s2 , s3 ,s4 ) \ BOOST_CHECK_EQUAL( c::adjust_size_count() , size_t( s1 ) ); \ BOOST_CHECK_EQUAL( c::construct_count() , size_t( s2 ) ); \ BOOST_CHECK_EQUAL( c::copy_count() , size_t( s3 ) ); \ BOOST_CHECK_EQUAL( c::destroy_count() , size_t( s4 ) ); #define TEST_COUNTERS_MSG( c , s1 , s2 , s3 ,s4 , msg ) \ BOOST_CHECK_EQUAL( c::adjust_size_count() , size_t( s1 ) ); \ BOOST_CHECK_EQUAL( c::construct_count() , size_t( s2 ) ); \ BOOST_CHECK_EQUAL( c::copy_count() , size_t( s3 ) ); \ BOOST_CHECK_EQUAL( c::destroy_count() , size_t( s4 ) ); #endif // LIBS_NUMERIC_ODEINT_TEST_DIAGNOSTIC_STATE_TYPE_HPP_DEFINED