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Diffstat (limited to 'inference-engine/thirdparty/clDNN/common/boost/1.64.0/include/boost-1_64/boost/numeric/odeint/iterator/impl/times_iterator_impl.hpp')
-rw-r--r-- | inference-engine/thirdparty/clDNN/common/boost/1.64.0/include/boost-1_64/boost/numeric/odeint/iterator/impl/times_iterator_impl.hpp | 371 |
1 files changed, 0 insertions, 371 deletions
diff --git a/inference-engine/thirdparty/clDNN/common/boost/1.64.0/include/boost-1_64/boost/numeric/odeint/iterator/impl/times_iterator_impl.hpp b/inference-engine/thirdparty/clDNN/common/boost/1.64.0/include/boost-1_64/boost/numeric/odeint/iterator/impl/times_iterator_impl.hpp deleted file mode 100644 index 7a2b48d82..000000000 --- a/inference-engine/thirdparty/clDNN/common/boost/1.64.0/include/boost-1_64/boost/numeric/odeint/iterator/impl/times_iterator_impl.hpp +++ /dev/null @@ -1,371 +0,0 @@ -/* - [auto_generated] - boost/numeric/odeint/iterator/detail/times_iterator_impl.hpp - - [begin_description] - tba. - [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) -*/ - - -#ifndef BOOST_NUMERIC_ODEINT_ITERATOR_DETAIL_TIMES_ITERATOR_IMPL_HPP_DEFINED -#define BOOST_NUMERIC_ODEINT_ITERATOR_DETAIL_TIMES_ITERATOR_IMPL_HPP_DEFINED - -#include <boost/utility/enable_if.hpp> -#include <boost/type_traits/is_same.hpp> -#include <boost/throw_exception.hpp> - -#include <boost/numeric/odeint/util/unit_helper.hpp> -#include <boost/numeric/odeint/util/copy.hpp> -#include <boost/numeric/odeint/stepper/controlled_step_result.hpp> -#include <boost/numeric/odeint/iterator/detail/ode_iterator_base.hpp> - - -namespace boost { -namespace numeric { -namespace odeint { - - - template< class Iterator , class Stepper , class System , class State , class TimeIterator , - typename Tag , typename StepperTag > - class times_iterator_impl; - - /* - * Specilization for basic steppers - */ - /** - * \brief ODE Iterator with constant step size. - * - * Implements an ODE iterator with observer calls at predefined times. - * Uses controlled steppers. times_iterator is a model of single-pass iterator. - * - * The value type of this iterator is the state type of the stepper. Hence one can only access the state and not the current time. - * - * \tparam Stepper The stepper type which should be used during the iteration. - * \tparam System The type of the system function (ODE) which should be solved. - */ - template< class Iterator , class Stepper , class System , class State , class TimeIterator , typename Tag > - class times_iterator_impl< Iterator , Stepper , System , State , TimeIterator , Tag , stepper_tag > - : public detail::ode_iterator_base< Iterator , Stepper , System , State , Tag > - { - private: - - - typedef Stepper stepper_type; - typedef System system_type; - typedef typename boost::numeric::odeint::unwrap_reference< stepper_type >::type unwrapped_stepper_type; - typedef State state_type; - typedef TimeIterator time_iterator_type; - typedef typename traits::time_type< stepper_type >::type time_type; - typedef typename traits::value_type< stepper_type >::type ode_value_type; - #ifndef DOXYGEN_SKIP - typedef detail::ode_iterator_base< Iterator , Stepper , System , State , Tag > base_type; - #endif - - public: - - /** - * \brief Constructs a times_iterator. This constructor should be used to construct the begin iterator. - * - * \param stepper The stepper to use during the iteration. - * \param sys The system function (ODE) to solve. - * \param s The initial state. adaptive_iterator stores a reference of s and changes its value during the iteration. - * \param t_start Iterator to the begin of a sequence of time values. - * \param t_end Iterator to the begin of a sequence of time values. - * \param dt The (initial) time step. - */ - times_iterator_impl( stepper_type stepper , system_type sys , state_type &s , - time_iterator_type t_start , time_iterator_type t_end , time_type dt ) - : base_type( stepper , sys , *t_start , dt ) , - m_t_start( t_start ) , m_t_end( t_end ) , m_state( &s ) - { - if( t_start == t_end ) - this->m_at_end = true; - } - - /** - * \brief Constructs an adaptive_iterator. This constructor should be used to construct the end iterator. - * - * \param stepper The stepper to use during the iteration. - * \param sys The system function (ODE) to solve. - * \param s The initial state. adaptive_iterator store a reference of s and changes its value during the iteration. - */ - times_iterator_impl( stepper_type stepper , system_type sys , state_type &s ) - : base_type( stepper , sys ) , m_state( &s ) { } - - protected: - - friend class boost::iterator_core_access; - - void increment() - { - unwrapped_stepper_type &stepper = this->m_stepper; - if( ++m_t_start != m_t_end ) - { - while( detail::less_with_sign( this->m_t , static_cast<time_type>(*m_t_start) , this->m_dt ) ) - { - const time_type current_dt = detail::min_abs( this->m_dt , static_cast<time_type>(*m_t_start) - this->m_t ); - stepper.do_step( this->m_system , *( this->m_state ) , this->m_t , current_dt ); - this->m_t += current_dt; - } - - } else { - this->m_at_end = true; - } - } - - public: - const state_type& get_state() const - { - return *m_state; - } - - private: - time_iterator_type m_t_start; - time_iterator_type m_t_end; - state_type* m_state; - }; - - - - /* - * Specilization for controlled steppers - */ - /** - * \brief ODE Iterator with adaptive step size control. The value type of this iterator is the state type of the stepper. - * - * Implements an ODE iterator with observer calls at predefined times. - * Uses controlled steppers. times_iterator is a model of single-pass iterator. - * - * The value type of this iterator is the state type of the stepper. Hence one can only access the state and not the current time. - * - * \tparam Stepper The stepper type which should be used during the iteration. - * \tparam System The type of the system function (ODE) which should be solved. - */ - template< class Iterator , class Stepper , class System , class State , class TimeIterator , typename Tag > - class times_iterator_impl< Iterator , Stepper , System , State , TimeIterator , Tag , controlled_stepper_tag > - : public detail::ode_iterator_base< Iterator , Stepper , System , State , Tag > - { - private: - - - typedef Stepper stepper_type; - typedef System system_type; - typedef typename boost::numeric::odeint::unwrap_reference< stepper_type >::type unwrapped_stepper_type; - typedef State state_type; - typedef TimeIterator time_iterator_type; - typedef typename traits::time_type< stepper_type >::type time_type; - typedef typename traits::value_type< stepper_type >::type ode_value_type; - #ifndef DOXYGEN_SKIP - typedef detail::ode_iterator_base< Iterator , Stepper , System , State , Tag > base_type; - #endif - - public: - - /** - * \brief Constructs a times_iterator. This constructor should be used to construct the begin iterator. - * - * \param stepper The stepper to use during the iteration. - * \param sys The system function (ODE) to solve. - * \param s The initial state. adaptive_iterator stores a reference of s and changes its value during the iteration. - * \param t_start Iterator to the begin of a sequence of time values. - * \param t_end Iterator to the begin of a sequence of time values. - * \param dt The (initial) time step. - */ - times_iterator_impl( stepper_type stepper , system_type sys , state_type &s , - time_iterator_type t_start , time_iterator_type t_end , time_type dt ) - : base_type( stepper , sys , *t_start , dt ) , - m_t_start( t_start ) , m_t_end( t_end ) , m_state( &s ) - { - if( t_start == t_end ) - this->m_at_end = true; - } - - /** - * \brief Constructs an adaptive_iterator. This constructor should be used to construct the end iterator. - * - * \param stepper The stepper to use during the iteration. - * \param sys The system function (ODE) to solve. - * \param s The initial state. adaptive_iterator store a reference of s and changes its value during the iteration. - */ - times_iterator_impl( stepper_type stepper , system_type sys , state_type &s ) - : base_type( stepper , sys ) , m_state( &s ) { } - - protected: - - friend class boost::iterator_core_access; - - void increment() - { - if( ++m_t_start != m_t_end ) - { - while( detail::less_with_sign( this->m_t , static_cast<time_type>(*m_t_start) , this->m_dt ) ) - { - if( detail::less_with_sign( static_cast<time_type>(*m_t_start) - this->m_t , this->m_dt , this->m_dt ) ) - { - // we want to end exactly at the time point - time_type current_dt = static_cast<time_type>(*m_t_start) - this->m_t; - step_loop( current_dt ); - } else { - step_loop( this->m_dt ); - } - } - - } else { - this->m_at_end = true; - } - } - - private: - void step_loop( time_type &dt ) - { - unwrapped_stepper_type &stepper = this->m_stepper; - const size_t max_attempts = 1000; - size_t trials = 0; - controlled_step_result res = success; - do - { - res = stepper.try_step( this->m_system , *( this->m_state ) , this->m_t , dt ); - ++trials; - } - while( ( res == fail ) && ( trials < max_attempts ) ); - if( trials == max_attempts ) - { - BOOST_THROW_EXCEPTION( std::overflow_error( "Adaptive iterator : Maximal number of iterations reached. A step size could not be found." ) ); - } - } - - public: - const state_type& get_state() const - { - return *m_state; - } - - - private: - time_iterator_type m_t_start; - time_iterator_type m_t_end; - state_type* m_state; - }; - - - /* - * Specilization for dense outputer steppers - */ - /** - * \brief ODE Iterator with step size control and dense output. - * Implements an ODE iterator with adaptive step size control. Uses dense-output steppers. - * times_iterator is a model of single-pass iterator. - * - * \tparam Stepper The stepper type which should be used during the iteration. - * \tparam System The type of the system function (ODE) which should be solved. - */ - template< class Iterator , class Stepper , class System , class State , class TimeIterator , typename Tag > - class times_iterator_impl< Iterator , Stepper , System , State , TimeIterator , Tag , dense_output_stepper_tag > - : public detail::ode_iterator_base< Iterator , Stepper , System , State , Tag > - { - private: - - - typedef Stepper stepper_type; - typedef System system_type; - typedef typename boost::numeric::odeint::unwrap_reference< stepper_type >::type unwrapped_stepper_type; - typedef State state_type; - typedef TimeIterator time_iterator_type; - typedef typename traits::time_type< stepper_type >::type time_type; - typedef typename traits::value_type< stepper_type >::type ode_value_type; - #ifndef DOXYGEN_SKIP - typedef detail::ode_iterator_base< Iterator , Stepper , System , State , Tag > base_type; - #endif - - - public: - - - /** - * \brief Constructs a times_iterator. This constructor should be used to construct the begin iterator. - * - * \param stepper The stepper to use during the iteration. - * \param sys The system function (ODE) to solve. - * \param s The initial state. - * \param t_start Iterator to the begin of a sequence of time values. - * \param t_end Iterator to the begin of a sequence of time values. - * \param dt The (initial) time step. - */ - times_iterator_impl( stepper_type stepper , system_type sys , state_type &s , - time_iterator_type t_start , time_iterator_type t_end , time_type dt ) - : base_type( stepper , sys , *t_start , dt ) , - m_t_start( t_start ) , m_t_end( t_end ) , m_final_time( *(t_end-1) ) , - m_state( &s ) - { - if( t_start != t_end ) - { - unwrapped_stepper_type &st = this->m_stepper; - st.initialize( *( this->m_state ) , this->m_t , this->m_dt ); - } else { - this->m_at_end = true; - } - } - - /** - * \brief Constructs a times_iterator. This constructor should be used to construct the end iterator. - * - * \param stepper The stepper to use during the iteration. - * \param sys The system function (ODE) to solve. - * \param s The initial state. - */ - times_iterator_impl( stepper_type stepper , system_type sys , state_type &s ) - : base_type( stepper , sys ) , m_state( &s ) { } - - protected: - - friend class boost::iterator_core_access; - - void increment() - { - unwrapped_stepper_type &st = this->m_stepper; - if( ++m_t_start != m_t_end ) - { - this->m_t = static_cast<time_type>(*m_t_start); - while( detail::less_with_sign( st.current_time() , this->m_t , this->m_dt ) ) - { - // make sure we don't go beyond the last point - if( detail::less_with_sign( m_final_time-st.current_time() , st.current_time_step() , st.current_time_step() ) ) - { - st.initialize( st.current_state() , st.current_time() , m_final_time-st.current_time() ); - } - st.do_step( this->m_system ); - } - st.calc_state( this->m_t , *( this->m_state ) ); - } else { - this->m_at_end = true; - } - } - - public: - const state_type& get_state() const - { - return *m_state; - } - - - private: - time_iterator_type m_t_start; - time_iterator_type m_t_end; - time_type m_final_time; - state_type* m_state; - }; - -} // namespace odeint -} // namespace numeric -} // namespace boost - - -#endif // BOOST_NUMERIC_ODEINT_ITERATOR_DETAIL_TIMES_ITERATOR_IMPL_HPP_DEFINED |