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298 lines
12 KiB
C++
298 lines
12 KiB
C++
/*-----------------------------------------------------------------------------+
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Copyright (c) 2008-2012: Joachim Faulhaber
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+------------------------------------------------------------------------------+
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Distributed under the Boost Software License, Version 1.0.
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(See accompanying file LICENCE.txt or copy at
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http://www.boost.org/LICENSE_1_0.txt)
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+-----------------------------------------------------------------------------*/
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#ifndef BOOST_ICL_INTERVAL_MAP_HPP_JOFA_080705
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#define BOOST_ICL_INTERVAL_MAP_HPP_JOFA_080705
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#include <boost/assert.hpp>
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#include <boost/icl/type_traits/is_map.hpp>
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#include <boost/icl/interval_set.hpp>
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#include <boost/icl/interval_base_map.hpp>
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namespace boost{namespace icl
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{
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template<class DomainT, class CodomainT, class Traits,
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ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section,
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ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
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class split_interval_map;
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/** \brief implements a map as a map of intervals - on insertion
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overlapping intervals are split and associated values are combined.*/
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template
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<
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typename DomainT,
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typename CodomainT,
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class Traits = icl::partial_absorber,
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ICL_COMPARE Compare = ICL_COMPARE_INSTANCE(ICL_COMPARE_DEFAULT, DomainT),
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ICL_COMBINE Combine = ICL_COMBINE_INSTANCE(icl::inplace_plus, CodomainT),
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ICL_SECTION Section = ICL_SECTION_INSTANCE(icl::inter_section, CodomainT),
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ICL_INTERVAL(ICL_COMPARE) Interval = ICL_INTERVAL_INSTANCE(ICL_INTERVAL_DEFAULT, DomainT, Compare),
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ICL_ALLOC Alloc = std::allocator
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>
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class interval_map:
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public interval_base_map<interval_map<DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>,
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DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>
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{
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public:
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typedef Traits traits;
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typedef interval_map<DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> type;
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typedef split_interval_map<DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> split_type;
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typedef type overloadable_type;
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typedef type joint_type;
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typedef interval_base_map<type,
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DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> base_type;
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typedef ICL_INTERVAL_TYPE(Interval,DomainT,Compare) interval_type;
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typedef typename base_type::iterator iterator;
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typedef typename base_type::value_type value_type;
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typedef typename base_type::element_type element_type;
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typedef typename base_type::segment_type segment_type;
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typedef typename base_type::domain_type domain_type;
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typedef typename base_type::codomain_type codomain_type;
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typedef typename base_type::domain_mapping_type domain_mapping_type;
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typedef typename base_type::interval_mapping_type interval_mapping_type;
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typedef typename base_type::ImplMapT ImplMapT;
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typedef typename base_type::size_type size_type;
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typedef typename base_type::codomain_combine codomain_combine;
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typedef interval_set<DomainT,Compare,Interval,Alloc> interval_set_type;
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typedef interval_set_type set_type;
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typedef set_type key_object_type;
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enum { fineness = 1 };
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public:
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//==========================================================================
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//= Construct, copy, destruct
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//==========================================================================
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/// Default constructor for the empty object
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interval_map(): base_type() {}
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/// Copy constructor
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interval_map(const interval_map& src): base_type(src) {}
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/// Copy constructor for base_type
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template<class SubType>
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explicit interval_map
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(const interval_base_map<SubType,DomainT,CodomainT,
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Traits,Compare,Combine,Section,Interval,Alloc>& src)
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{ this->assign(src); }
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explicit interval_map(const domain_mapping_type& base_pair): base_type()
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{ this->add(base_pair); }
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explicit interval_map(const value_type& value_pair): base_type()
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{ this->add(value_pair); }
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/// Assignment from a base interval_map.
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template<class SubType>
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void assign(const interval_base_map<SubType,DomainT,CodomainT,
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Traits,Compare,Combine,Section,Interval,Alloc>& src)
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{
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typedef interval_base_map<SubType,DomainT,CodomainT,
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Traits,Compare,Combine,Section,Interval,Alloc> base_map_type;
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this->clear();
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iterator prior_ = this->_map.end();
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ICL_const_FORALL(typename base_map_type, it_, src)
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prior_ = this->add(prior_, *it_);
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}
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/// Assignment operator for base type
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template<class SubType>
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interval_map& operator =
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(const interval_base_map<SubType,DomainT,CodomainT,
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Traits,Compare,Combine,Section,Interval,Alloc>& src)
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{
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this->assign(src);
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return *this;
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}
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# ifndef BOOST_ICL_NO_CXX11_RVALUE_REFERENCES
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//==========================================================================
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//= Move semantics
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//==========================================================================
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/// Move constructor
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interval_map(interval_map&& src)
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: base_type(boost::move(src))
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{}
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/// Move assignment operator
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interval_map& operator = (interval_map src)
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{
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base_type::operator=(boost::move(src));
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return *this;
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}
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//==========================================================================
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# else
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/// Assignment operator
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interval_map& operator = (const interval_map& src)
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{
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base_type::operator=(src);
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return *this;
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}
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# endif // BOOST_ICL_NO_CXX11_RVALUE_REFERENCES
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private:
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// Private functions that shall be accessible by the baseclass:
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friend class
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interval_base_map <interval_map<DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>,
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DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>;
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iterator handle_inserted(iterator it_)
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{
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return segmental::join_neighbours(*this, it_);
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}
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void handle_inserted(iterator prior_, iterator it_)
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{
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if(prior_ != this->_map.end() && segmental::joinable(*this, prior_, it_))
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segmental::join_on_right(*this, prior_, it_);
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}
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template<class Combiner>
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void handle_left_combined(iterator it_)
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{
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if(on_absorbtion<type,Combiner,Traits::absorbs_identities>::is_absorbable((*it_).second))
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this->_map.erase(it_);
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else
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segmental::join_left(*this, it_);
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}
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template<class Combiner>
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void handle_combined(iterator it_)
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{
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if(on_absorbtion<type,Combiner,Traits::absorbs_identities>::is_absorbable((*it_).second))
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this->_map.erase(it_);
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else
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segmental::join_neighbours(*this, it_);
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}
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template<class Combiner>
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void handle_preceeded_combined(iterator prior_, iterator& it_)
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{
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if(on_absorbtion<type,Combiner,Traits::absorbs_identities>::is_absorbable((*it_).second))
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{
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this->_map.erase(it_);
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it_ = prior_;
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}
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else // After a new combination (e.g. combiner=max) joining neighbours may be possible
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segmental::join_neighbours(*this, it_);
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}
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template<class Combiner>
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void handle_succeeded_combined(iterator it_, iterator next_)
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{
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if(on_absorbtion<type,Combiner,Traits::absorbs_identities>::is_absorbable((*it_).second))
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{
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this->_map.erase(it_);
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segmental::join_right(*this, next_);
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}
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else
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{
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segmental::join_left(*this, it_);
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segmental::join_neighbours(*this, next_);
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}
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}
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void handle_reinserted(iterator insertion_)
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{
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segmental::join_right(*this, insertion_);
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}
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template<class Combiner>
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void gap_insert_at(iterator& it_, iterator prior_,
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const interval_type& end_gap, const codomain_type& co_val)
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{
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if(on_absorbtion<type,Combiner,Traits::absorbs_identities>::is_absorbable((*it_).second))
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{
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this->_map.erase(it_);
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it_ = this->template gap_insert<Combiner>(prior_, end_gap, co_val);
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segmental::join_right(*this, it_);
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}
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else
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{
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segmental::join_left(*this, it_);
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iterator inserted_ = this->template gap_insert<Combiner>(it_, end_gap, co_val);
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it_ = segmental::join_neighbours(*this, inserted_);
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}
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}
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} ;
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//-----------------------------------------------------------------------------
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// type traits
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//-----------------------------------------------------------------------------
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template <class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
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struct is_map<icl::interval_map<DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> >
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{
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typedef is_map<icl::interval_map<DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> > type;
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BOOST_STATIC_CONSTANT(bool, value = true);
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};
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template <class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
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struct has_inverse<icl::interval_map<DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> >
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{
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typedef has_inverse<icl::interval_map<DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> > type;
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BOOST_STATIC_CONSTANT(bool, value = (has_inverse<CodomainT>::value));
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};
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template <class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
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struct is_interval_container<icl::interval_map<DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> >
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{
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typedef is_interval_container<icl::interval_map<DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> > type;
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BOOST_STATIC_CONSTANT(bool, value = true);
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};
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template <class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
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struct absorbs_identities<icl::interval_map<DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> >
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{
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typedef absorbs_identities<icl::interval_map<DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> > type;
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BOOST_STATIC_CONSTANT(bool, value = (Traits::absorbs_identities));
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};
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template <class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
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struct is_total<icl::interval_map<DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> >
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{
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typedef is_total<icl::interval_map<DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> > type;
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BOOST_STATIC_CONSTANT(bool, value = (Traits::is_total));
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};
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//-----------------------------------------------------------------------------
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// type representation
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//-----------------------------------------------------------------------------
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template <class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
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struct type_to_string<icl::interval_map<DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> >
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{
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static std::string apply()
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{
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return "itv_map<"+ type_to_string<DomainT>::apply() + ","
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+ type_to_string<CodomainT>::apply() + ","
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+ type_to_string<Traits>::apply() + ">";
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}
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};
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}} // namespace icl boost
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#endif
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