vamp-build-and-test: DEPENDENCIES/generic/include/boost/icl/interval_base

annotate DEPENDENCIES/generic/include/boost/icl/interval_base_map.hpp @ 16:2665513ce2d3

Add boost headers

author	Chris Cannam
date	Tue, 05 Aug 2014 11:11:38 +0100
parents
children	c530137014c0

rev	line source
Chris@16	1 /*-----------------------------------------------------------------------------+
Chris@16	2 Copyright (c) 2007-2012: Joachim Faulhaber
Chris@16	3 Copyright (c) 1999-2006: Cortex Software GmbH, Kantstrasse 57, Berlin
Chris@16	4 +------------------------------------------------------------------------------+
Chris@16	5 Distributed under the Boost Software License, Version 1.0.
Chris@16	6 (See accompanying file LICENCE.txt or copy at
Chris@16	7 http://www.boost.org/LICENSE_1_0.txt)
Chris@16	8 +-----------------------------------------------------------------------------*/
Chris@16	9 #ifndef BOOST_ICL_INTERVAL_BASE_MAP_HPP_JOFA_990223
Chris@16	10 #define BOOST_ICL_INTERVAL_BASE_MAP_HPP_JOFA_990223
Chris@16	11
Chris@16	12 #include <limits>
Chris@16	13 #include <boost/type_traits/ice.hpp>
Chris@16	14 #include <boost/mpl/and.hpp>
Chris@16	15 #include <boost/mpl/or.hpp>
Chris@16	16 #include <boost/mpl/not.hpp>
Chris@16	17
Chris@16	18 #include <boost/icl/detail/notate.hpp>
Chris@16	19 #include <boost/icl/detail/design_config.hpp>
Chris@16	20 #include <boost/icl/detail/on_absorbtion.hpp>
Chris@16	21 #include <boost/icl/detail/interval_map_algo.hpp>
Chris@16	22
Chris@16	23 #include <boost/icl/associative_interval_container.hpp>
Chris@16	24
Chris@16	25 #include <boost/icl/type_traits/is_interval_splitter.hpp>
Chris@16	26 #include <boost/icl/map.hpp>
Chris@16	27
Chris@16	28 namespace boost{namespace icl
Chris@16	29 {
Chris@16	30
Chris@16	31 template<class DomainT, class CodomainT>
Chris@16	32 struct mapping_pair
Chris@16	33 {
Chris@16	34 DomainT key;
Chris@16	35 CodomainT data;
Chris@16	36
Chris@16	37 mapping_pair():key(), data(){}
Chris@16	38
Chris@16	39 mapping_pair(const DomainT& key_value, const CodomainT& data_value)
Chris@16	40 :key(key_value), data(data_value){}
Chris@16	41
Chris@16	42 mapping_pair(const std::pair<DomainT,CodomainT>& std_pair)
Chris@16	43 :key(std_pair.first), data(std_pair.second){}
Chris@16	44 };
Chris@16	45
Chris@16	46 /** \brief Implements a map as a map of intervals (base class) */
Chris@16	47 template
Chris@16	48 <
Chris@16	49 class SubType,
Chris@16	50 typename DomainT,
Chris@16	51 typename CodomainT,
Chris@16	52 class Traits = icl::partial_absorber,
Chris@16	53 ICL_COMPARE Compare = ICL_COMPARE_INSTANCE(ICL_COMPARE_DEFAULT, DomainT),
Chris@16	54 ICL_COMBINE Combine = ICL_COMBINE_INSTANCE(icl::inplace_plus, CodomainT),
Chris@16	55 ICL_SECTION Section = ICL_SECTION_INSTANCE(icl::inter_section, CodomainT),
Chris@16	56 ICL_INTERVAL(ICL_COMPARE) Interval = ICL_INTERVAL_INSTANCE(ICL_INTERVAL_DEFAULT, DomainT, Compare),
Chris@16	57 ICL_ALLOC Alloc = std::allocator
Chris@16	58 >
Chris@16	59 class interval_base_map
Chris@16	60 {
Chris@16	61 public:
Chris@16	62 //==========================================================================
Chris@16	63 //= Associated types
Chris@16	64 //==========================================================================
Chris@16	65 typedef interval_base_map<SubType,DomainT,CodomainT,
Chris@16	66 Traits,Compare,Combine,Section,Interval,Alloc>
Chris@16	67 type;
Chris@16	68
Chris@16	69 /// The designated \e derived or \e sub_type of this base class
Chris@16	70 typedef SubType sub_type;
Chris@16	71
Chris@16	72 /// Auxilliary type for overloadresolution
Chris@16	73 typedef type overloadable_type;
Chris@16	74
Chris@16	75 /// Traits of an itl map
Chris@16	76 typedef Traits traits;
Chris@16	77
Chris@16	78 //--------------------------------------------------------------------------
Chris@16	79 //- Associated types: Related types
Chris@16	80 //--------------------------------------------------------------------------
Chris@16	81 /// The atomized type representing the corresponding container of elements
Chris@16	82 typedef typename icl::map<DomainT,CodomainT,
Chris@16	83 Traits,Compare,Combine,Section,Alloc> atomized_type;
Chris@16	84
Chris@16	85 //--------------------------------------------------------------------------
Chris@16	86 //- Associated types: Data
Chris@16	87 //--------------------------------------------------------------------------
Chris@16	88 /// Domain type (type of the keys) of the map
Chris@16	89 typedef DomainT domain_type;
Chris@16	90 typedef typename boost::call_traits<DomainT>::param_type domain_param;
Chris@16	91 /// Domain type (type of the keys) of the map
Chris@16	92 typedef CodomainT codomain_type;
Chris@16	93 /// Auxiliary type to help the compiler resolve ambiguities when using std::make_pair
Chris@16	94 typedef mapping_pair<domain_type,codomain_type> domain_mapping_type;
Chris@16	95 /// Conceptual is a map a set of elements of type \c element_type
Chris@16	96 typedef domain_mapping_type element_type;
Chris@16	97 /// The interval type of the map
Chris@16	98 typedef ICL_INTERVAL_TYPE(Interval,DomainT,Compare) interval_type;
Chris@16	99 /// Auxiliary type for overload resolution
Chris@16	100 typedef std::pair<interval_type,CodomainT> interval_mapping_type;
Chris@16	101 /// Type of an interval containers segment, that is spanned by an interval
Chris@16	102 typedef std::pair<interval_type,CodomainT> segment_type;
Chris@16	103
Chris@16	104 //--------------------------------------------------------------------------
Chris@16	105 //- Associated types: Size
Chris@16	106 //--------------------------------------------------------------------------
Chris@16	107 /// The difference type of an interval which is sometimes different form the domain_type
Chris@16	108 typedef typename difference_type_of<domain_type>::type difference_type;
Chris@16	109 /// The size type of an interval which is mostly std::size_t
Chris@16	110 typedef typename size_type_of<domain_type>::type size_type;
Chris@16	111
Chris@16	112 //--------------------------------------------------------------------------
Chris@16	113 //- Associated types: Functors
Chris@16	114 //--------------------------------------------------------------------------
Chris@16	115 /// Comparison functor for domain values
Chris@16	116 typedef ICL_COMPARE_DOMAIN(Compare,DomainT) domain_compare;
Chris@16	117 typedef ICL_COMPARE_DOMAIN(Compare,segment_type) segment_compare;
Chris@16	118 /// Combine functor for codomain value aggregation
Chris@16	119 typedef ICL_COMBINE_CODOMAIN(Combine,CodomainT) codomain_combine;
Chris@16	120 /// Inverse Combine functor for codomain value aggregation
Chris@16	121 typedef typename inverse<codomain_combine>::type inverse_codomain_combine;
Chris@16	122 /// Intersection functor for codomain values
Chris@16	123
Chris@16	124 typedef typename mpl::if_
Chris@16	125 <has_set_semantics<codomain_type>
Chris@16	126 , ICL_SECTION_CODOMAIN(Section,CodomainT)
Chris@16	127 , codomain_combine
Chris@16	128 >::type codomain_intersect;
Chris@16	129
Chris@16	130
Chris@16	131 /// Inverse Combine functor for codomain value intersection
Chris@16	132 typedef typename inverse<codomain_intersect>::type inverse_codomain_intersect;
Chris@16	133
Chris@16	134 /// Comparison functor for intervals which are keys as well
Chris@16	135 typedef exclusive_less_than<interval_type> interval_compare;
Chris@16	136
Chris@16	137 /// Comparison functor for keys
Chris@16	138 typedef exclusive_less_than<interval_type> key_compare;
Chris@16	139
Chris@16	140 //--------------------------------------------------------------------------
Chris@16	141 //- Associated types: Implementation and stl related
Chris@16	142 //--------------------------------------------------------------------------
Chris@16	143 /// The allocator type of the set
Chris@16	144 typedef Alloc<std::pair<const interval_type, codomain_type> >
Chris@16	145 allocator_type;
Chris@16	146
Chris@16	147 /// Container type for the implementation
Chris@16	148 typedef ICL_IMPL_SPACE::map<interval_type,codomain_type,
Chris@16	149 key_compare,allocator_type> ImplMapT;
Chris@16	150
Chris@16	151 /// key type of the implementing container
Chris@16	152 typedef typename ImplMapT::key_type key_type;
Chris@16	153 /// value type of the implementing container
Chris@16	154 typedef typename ImplMapT::value_type value_type;
Chris@16	155 /// data type of the implementing container
Chris@16	156 typedef typename ImplMapT::value_type::second_type data_type;
Chris@16	157
Chris@16	158 /// pointer type
Chris@16	159 typedef typename ImplMapT::pointer pointer;
Chris@16	160 /// const pointer type
Chris@16	161 typedef typename ImplMapT::const_pointer const_pointer;
Chris@16	162 /// reference type
Chris@16	163 typedef typename ImplMapT::reference reference;
Chris@16	164 /// const reference type
Chris@16	165 typedef typename ImplMapT::const_reference const_reference;
Chris@16	166
Chris@16	167 /// iterator for iteration over intervals
Chris@16	168 typedef typename ImplMapT::iterator iterator;
Chris@16	169 /// const_iterator for iteration over intervals
Chris@16	170 typedef typename ImplMapT::const_iterator const_iterator;
Chris@16	171 /// iterator for reverse iteration over intervals
Chris@16	172 typedef typename ImplMapT::reverse_iterator reverse_iterator;
Chris@16	173 /// const_iterator for iteration over intervals
Chris@16	174 typedef typename ImplMapT::const_reverse_iterator const_reverse_iterator;
Chris@16	175
Chris@16	176 /// element iterator: Depreciated, see documentation.
Chris@16	177 typedef boost::icl::element_iterator<iterator> element_iterator;
Chris@16	178 /// const element iterator: Depreciated, see documentation.
Chris@16	179 typedef boost::icl::element_iterator<const_iterator> element_const_iterator;
Chris@16	180 /// element reverse iterator: Depreciated, see documentation.
Chris@16	181 typedef boost::icl::element_iterator<reverse_iterator> element_reverse_iterator;
Chris@16	182 /// element const reverse iterator: Depreciated, see documentation.
Chris@16	183 typedef boost::icl::element_iterator<const_reverse_iterator> element_const_reverse_iterator;
Chris@16	184
Chris@16	185 typedef typename on_absorbtion<type, codomain_combine,
Chris@16	186 Traits::absorbs_identities>::type on_codomain_absorbtion;
Chris@16	187
Chris@16	188 public:
Chris@16	189 BOOST_STATIC_CONSTANT(bool,
Chris@16	190 is_total_invertible = ( Traits::is_total
Chris@16	191 && has_inverse<codomain_type>::value));
Chris@16	192
Chris@16	193 BOOST_STATIC_CONSTANT(int, fineness = 0);
Chris@16	194
Chris@16	195 public:
Chris@16	196
Chris@16	197 //==========================================================================
Chris@16	198 //= Construct, copy, destruct
Chris@16	199 //==========================================================================
Chris@16	200 /** Default constructor for the empty object */
Chris@16	201 interval_base_map()
Chris@16	202 {
Chris@16	203 BOOST_CONCEPT_ASSERT((DefaultConstructibleConcept<DomainT>));
Chris@16	204 BOOST_CONCEPT_ASSERT((LessThanComparableConcept<DomainT>));
Chris@16	205 BOOST_CONCEPT_ASSERT((DefaultConstructibleConcept<CodomainT>));
Chris@16	206 BOOST_CONCEPT_ASSERT((EqualComparableConcept<CodomainT>));
Chris@16	207 }
Chris@16	208
Chris@16	209 /** Copy constructor */
Chris@16	210 interval_base_map(const interval_base_map& src): _map(src._map)
Chris@16	211 {
Chris@16	212 BOOST_CONCEPT_ASSERT((DefaultConstructibleConcept<DomainT>));
Chris@16	213 BOOST_CONCEPT_ASSERT((LessThanComparableConcept<DomainT>));
Chris@16	214 BOOST_CONCEPT_ASSERT((DefaultConstructibleConcept<CodomainT>));
Chris@16	215 BOOST_CONCEPT_ASSERT((EqualComparableConcept<CodomainT>));
Chris@16	216 }
Chris@16	217
Chris@16	218 /** Copy assignment operator */
Chris@16	219 interval_base_map& operator = (const interval_base_map& src)
Chris@16	220 {
Chris@16	221 this->_map = src._map;
Chris@16	222 return *this;
Chris@16	223 }
Chris@16	224
Chris@16	225 # ifndef BOOST_ICL_NO_CXX11_RVALUE_REFERENCES
Chris@16	226 //==========================================================================
Chris@16	227 //= Move semantics
Chris@16	228 //==========================================================================
Chris@16	229
Chris@16	230 /** Move constructor */
Chris@16	231 interval_base_map(interval_base_map&& src): _map(boost::move(src._map))
Chris@16	232 {
Chris@16	233 BOOST_CONCEPT_ASSERT((DefaultConstructibleConcept<DomainT>));
Chris@16	234 BOOST_CONCEPT_ASSERT((LessThanComparableConcept<DomainT>));
Chris@16	235 BOOST_CONCEPT_ASSERT((DefaultConstructibleConcept<CodomainT>));
Chris@16	236 BOOST_CONCEPT_ASSERT((EqualComparableConcept<CodomainT>));
Chris@16	237 }
Chris@16	238
Chris@16	239 /** Move assignment operator */
Chris@16	240 interval_base_map& operator = (interval_base_map&& src)
Chris@16	241 {
Chris@16	242 this->_map = boost::move(src._map);
Chris@16	243 return *this;
Chris@16	244 }
Chris@16	245
Chris@16	246 //==========================================================================
Chris@16	247 # endif // BOOST_ICL_NO_CXX11_RVALUE_REFERENCES
Chris@16	248
Chris@16	249 /** swap the content of containers */
Chris@16	250 void swap(interval_base_map& object) { _map.swap(object._map); }
Chris@16	251
Chris@16	252 //==========================================================================
Chris@16	253 //= Containedness
Chris@16	254 //==========================================================================
Chris@16	255 /** clear the map */
Chris@16	256 void clear() { icl::clear(*that()); }
Chris@16	257
Chris@16	258 /** is the map empty? */
Chris@16	259 bool empty()const { return icl::is_empty(*that()); }
Chris@16	260
Chris@16	261 //==========================================================================
Chris@16	262 //= Size
Chris@16	263 //==========================================================================
Chris@16	264 /** An interval map's size is it's cardinality */
Chris@16	265 size_type size()const
Chris@16	266 {
Chris@16	267 return icl::cardinality(*that());
Chris@16	268 }
Chris@16	269
Chris@16	270 /** Size of the iteration over this container */
Chris@16	271 std::size_t iterative_size()const
Chris@16	272 {
Chris@16	273 return _map.size();
Chris@16	274 }
Chris@16	275
Chris@16	276 //==========================================================================
Chris@16	277 //= Selection
Chris@16	278 //==========================================================================
Chris@16	279
Chris@16	280 /** Find the interval value pair, that contains \c key */
Chris@16	281 const_iterator find(const domain_type& key_value)const
Chris@16	282 {
Chris@16	283 return icl::find(*this, key_value);
Chris@16	284 }
Chris@16	285
Chris@16	286 /** Find the first interval value pair, that collides with interval
Chris@16	287 \c key_interval */
Chris@16	288 const_iterator find(const interval_type& key_interval)const
Chris@16	289 {
Chris@16	290 return _map.find(key_interval);
Chris@16	291 }
Chris@16	292
Chris@16	293 /** Total select function. */
Chris@16	294 codomain_type operator()(const domain_type& key_value)const
Chris@16	295 {
Chris@16	296 const_iterator it_ = icl::find(*this, key_value);
Chris@16	297 return it_==end() ? identity_element<codomain_type>::value()
Chris@16	298 : (*it_).second;
Chris@16	299 }
Chris@16	300
Chris@16	301 //==========================================================================
Chris@16	302 //= Addition
Chris@16	303 //==========================================================================
Chris@16	304
Chris@16	305 /** Addition of a key value pair to the map */
Chris@16	306 SubType& add(const element_type& key_value_pair)
Chris@16	307 {
Chris@16	308 return icl::add(*that(), key_value_pair);
Chris@16	309 }
Chris@16	310
Chris@16	311 /** Addition of an interval value pair to the map. */
Chris@16	312 SubType& add(const segment_type& interval_value_pair)
Chris@16	313 {
Chris@16	314 this->template _add<codomain_combine>(interval_value_pair);
Chris@16	315 return *that();
Chris@16	316 }
Chris@16	317
Chris@16	318 /** Addition of an interval value pair \c interval_value_pair to the map.
Chris@16	319 Iterator \c prior_ is a hint to the position \c interval_value_pair can be
Chris@16	320 inserted after. */
Chris@16	321 iterator add(iterator prior_, const segment_type& interval_value_pair)
Chris@16	322 {
Chris@16	323 return this->template _add<codomain_combine>(prior_, interval_value_pair);
Chris@16	324 }
Chris@16	325
Chris@16	326 //==========================================================================
Chris@16	327 //= Subtraction
Chris@16	328 //==========================================================================
Chris@16	329 /** Subtraction of a key value pair from the map */
Chris@16	330 SubType& subtract(const element_type& key_value_pair)
Chris@16	331 {
Chris@16	332 return icl::subtract(*that(), key_value_pair);
Chris@16	333 }
Chris@16	334
Chris@16	335 /** Subtraction of an interval value pair from the map. */
Chris@16	336 SubType& subtract(const segment_type& interval_value_pair)
Chris@16	337 {
Chris@16	338 on_invertible<type, is_total_invertible>
Chris@16	339 ::subtract(*that(), interval_value_pair);
Chris@16	340 return *that();
Chris@16	341 }
Chris@16	342
Chris@16	343 //==========================================================================
Chris@16	344 //= Insertion
Chris@16	345 //==========================================================================
Chris@16	346 /** Insertion of a \c key_value_pair into the map. */
Chris@16	347 SubType& insert(const element_type& key_value_pair)
Chris@16	348 {
Chris@16	349 return icl::insert(*that(), key_value_pair);
Chris@16	350 }
Chris@16	351
Chris@16	352 /** Insertion of an \c interval_value_pair into the map. */
Chris@16	353 SubType& insert(const segment_type& interval_value_pair)
Chris@16	354 {
Chris@16	355 _insert(interval_value_pair);
Chris@16	356 return *that();
Chris@16	357 }
Chris@16	358
Chris@16	359 /** Insertion of an \c interval_value_pair into the map. Iterator \c prior_.
Chris@16	360 serves as a hint to insert after the element \c prior point to. */
Chris@16	361 iterator insert(iterator prior, const segment_type& interval_value_pair)
Chris@16	362 {
Chris@16	363 return _insert(prior, interval_value_pair);
Chris@16	364 }
Chris@16	365
Chris@16	366 /** With <tt>key_value_pair = (k,v)</tt> set value \c v for key \c k */
Chris@16	367 SubType& set(const element_type& key_value_pair)
Chris@16	368 {
Chris@16	369 return icl::set_at(*that(), key_value_pair);
Chris@16	370 }
Chris@16	371
Chris@16	372 /** With <tt>interval_value_pair = (I,v)</tt> set value \c v
Chris@16	373 for all keys in interval \c I in the map. */
Chris@16	374 SubType& set(const segment_type& interval_value_pair)
Chris@16	375 {
Chris@16	376 return icl::set_at(*that(), interval_value_pair);
Chris@16	377 }
Chris@16	378
Chris@16	379 //==========================================================================
Chris@16	380 //= Erasure
Chris@16	381 //==========================================================================
Chris@16	382 /** Erase a \c key_value_pair from the map. */
Chris@16	383 SubType& erase(const element_type& key_value_pair)
Chris@16	384 {
Chris@16	385 icl::erase(*that(), key_value_pair);
Chris@16	386 return *that();
Chris@16	387 }
Chris@16	388
Chris@16	389 /** Erase an \c interval_value_pair from the map. */
Chris@16	390 SubType& erase(const segment_type& interval_value_pair);
Chris@16	391
Chris@16	392 /** Erase a key value pair for \c key. */
Chris@16	393 SubType& erase(const domain_type& key)
Chris@16	394 {
Chris@16	395 return icl::erase(*that(), key);
Chris@16	396 }
Chris@16	397
Chris@16	398 /** Erase all value pairs within the range of the
Chris@16	399 interval <tt>inter_val</tt> from the map. */
Chris@16	400 SubType& erase(const interval_type& inter_val);
Chris@16	401
Chris@16	402
Chris@16	403 /** Erase all value pairs within the range of the interval that iterator
Chris@16	404 \c position points to. */
Chris@16	405 void erase(iterator position){ this->_map.erase(position); }
Chris@16	406
Chris@16	407 /** Erase all value pairs for a range of iterators <tt>[first,past)</tt>. */
Chris@16	408 void erase(iterator first, iterator past){ this->_map.erase(first, past); }
Chris@16	409
Chris@16	410 //==========================================================================
Chris@16	411 //= Intersection
Chris@16	412 //==========================================================================
Chris@16	413 /** The intersection of \c interval_value_pair and \c this map is added to \c section. /
Chris@16	414 void add_intersection(SubType& section, const segment_type& interval_value_pair)const
Chris@16	415 {
Chris@16	416 on_definedness<SubType, Traits::is_total>
Chris@16	417 ::add_intersection(section, *that(), interval_value_pair);
Chris@16	418 }
Chris@16	419
Chris@16	420 //==========================================================================
Chris@16	421 //= Symmetric difference
Chris@16	422 //==========================================================================
Chris@16	423 /** If \c this map contains \c key_value_pair it is erased, otherwise it is added. /
Chris@16	424 SubType& flip(const element_type& key_value_pair)
Chris@16	425 {
Chris@16	426 return icl::flip(*that(), key_value_pair);
Chris@16	427 }
Chris@16	428
Chris@16	429 /** If \c this map contains \c interval_value_pair it is erased, otherwise it is added. /
Chris@16	430 SubType& flip(const segment_type& interval_value_pair)
Chris@16	431 {
Chris@16	432 on_total_absorbable<SubType, Traits::is_total, Traits::absorbs_identities>
Chris@16	433 ::flip(*that(), interval_value_pair);
Chris@16	434 return *that();
Chris@16	435 }
Chris@16	436
Chris@16	437 //==========================================================================
Chris@16	438 //= Iterator related
Chris@16	439 //==========================================================================
Chris@16	440
Chris@16	441 iterator lower_bound(const key_type& interval)
Chris@16	442 { return _map.lower_bound(interval); }
Chris@16	443
Chris@16	444 iterator upper_bound(const key_type& interval)
Chris@16	445 { return _map.upper_bound(interval); }
Chris@16	446
Chris@16	447 const_iterator lower_bound(const key_type& interval)const
Chris@16	448 { return _map.lower_bound(interval); }
Chris@16	449
Chris@16	450 const_iterator upper_bound(const key_type& interval)const
Chris@16	451 { return _map.upper_bound(interval); }
Chris@16	452
Chris@16	453 std::pair<iterator,iterator> equal_range(const key_type& interval)
Chris@16	454 {
Chris@16	455 return std::pair<iterator,iterator>
Chris@16	456 (lower_bound(interval), upper_bound(interval));
Chris@16	457 }
Chris@16	458
Chris@16	459 std::pair<const_iterator,const_iterator>
Chris@16	460 equal_range(const key_type& interval)const
Chris@16	461 {
Chris@16	462 return std::pair<const_iterator,const_iterator>
Chris@16	463 (lower_bound(interval), upper_bound(interval));
Chris@16	464 }
Chris@16	465
Chris@16	466 iterator begin() { return _map.begin(); }
Chris@16	467 iterator end() { return _map.end(); }
Chris@16	468 const_iterator begin()const { return _map.begin(); }
Chris@16	469 const_iterator end()const { return _map.end(); }
Chris@16	470 reverse_iterator rbegin() { return _map.rbegin(); }
Chris@16	471 reverse_iterator rend() { return _map.rend(); }
Chris@16	472 const_reverse_iterator rbegin()const { return _map.rbegin(); }
Chris@16	473 const_reverse_iterator rend()const { return _map.rend(); }
Chris@16	474
Chris@16	475 private:
Chris@16	476 template<class Combiner>
Chris@16	477 iterator _add(const segment_type& interval_value_pair);
Chris@16	478
Chris@16	479 template<class Combiner>
Chris@16	480 iterator _add(iterator prior_, const segment_type& interval_value_pair);
Chris@16	481
Chris@16	482 template<class Combiner>
Chris@16	483 void _subtract(const segment_type& interval_value_pair);
Chris@16	484
Chris@16	485 iterator _insert(const segment_type& interval_value_pair);
Chris@16	486 iterator _insert(iterator prior_, const segment_type& interval_value_pair);
Chris@16	487
Chris@16	488 private:
Chris@16	489 template<class Combiner>
Chris@16	490 void add_segment(const interval_type& inter_val, const CodomainT& co_val, iterator& it_);
Chris@16	491
Chris@16	492 template<class Combiner>
Chris@16	493 void add_main(interval_type& inter_val, const CodomainT& co_val,
Chris@16	494 iterator& it_, const iterator& last_);
Chris@16	495
Chris@16	496 template<class Combiner>
Chris@16	497 void add_rear(const interval_type& inter_val, const CodomainT& co_val, iterator& it_);
Chris@16	498
Chris@16	499 void add_front(const interval_type& inter_val, iterator& first_);
Chris@16	500
Chris@16	501 private:
Chris@16	502 void subtract_front(const interval_type& inter_val, iterator& first_);
Chris@16	503
Chris@16	504 template<class Combiner>
Chris@16	505 void subtract_main(const CodomainT& co_val, iterator& it_, const iterator& last_);
Chris@16	506
Chris@16	507 template<class Combiner>
Chris@16	508 void subtract_rear(interval_type& inter_val, const CodomainT& co_val, iterator& it_);
Chris@16	509
Chris@16	510 private:
Chris@16	511 void insert_main(const interval_type&, const CodomainT&, iterator&, const iterator&);
Chris@16	512 void erase_rest ( interval_type&, const CodomainT&, iterator&, const iterator&);
Chris@16	513
Chris@16	514 template<class FragmentT>
Chris@16	515 void total_add_intersection(SubType& section, const FragmentT& fragment)const
Chris@16	516 {
Chris@16	517 section += *that();
Chris@16	518 section.add(fragment);
Chris@16	519 }
Chris@16	520
Chris@16	521 void partial_add_intersection(SubType& section, const segment_type& operand)const
Chris@16	522 {
Chris@16	523 interval_type inter_val = operand.first;
Chris@16	524 if(icl::is_empty(inter_val))
Chris@16	525 return;
Chris@16	526
Chris@16	527 std::pair<const_iterator, const_iterator> exterior = equal_range(inter_val);
Chris@16	528 if(exterior.first == exterior.second)
Chris@16	529 return;
Chris@16	530
Chris@16	531 for(const_iterator it_=exterior.first; it_ != exterior.second; it_++)
Chris@16	532 {
Chris@16	533 interval_type common_interval = (*it_).first & inter_val;
Chris@16	534 if(!icl::is_empty(common_interval))
Chris@16	535 {
Chris@16	536 section.template _add<codomain_combine> (value_type(common_interval, (*it_).second) );
Chris@16	537 section.template _add<codomain_intersect>(value_type(common_interval, operand.second));
Chris@16	538 }
Chris@16	539 }
Chris@16	540 }
Chris@16	541
Chris@16	542 void partial_add_intersection(SubType& section, const element_type& operand)const
Chris@16	543 {
Chris@16	544 partial_add_intersection(section, make_segment<type>(operand));
Chris@16	545 }
Chris@16	546
Chris@16	547
Chris@16	548 protected:
Chris@16	549
Chris@16	550 template <class Combiner>
Chris@16	551 iterator gap_insert(iterator prior_, const interval_type& inter_val,
Chris@16	552 const codomain_type& co_val )
Chris@16	553 {
Chris@16	554 // inter_val is not conained in this map. Insertion will be successful
Chris@16	555 BOOST_ASSERT(this->_map.find(inter_val) == this->_map.end());
Chris@16	556 BOOST_ASSERT((!on_absorbtion<type,Combiner,Traits::absorbs_identities>::is_absorbable(co_val)));
Chris@16	557 return this->_map.insert(prior_, value_type(inter_val, version<Combiner>()(co_val)));
Chris@16	558 }
Chris@16	559
Chris@16	560 template <class Combiner>
Chris@16	561 std::pair<iterator, bool>
Chris@16	562 add_at(const iterator& prior_, const interval_type& inter_val,
Chris@16	563 const codomain_type& co_val )
Chris@16	564 {
Chris@16	565 // Never try to insert an identity element into an identity element absorber here:
Chris@16	566 BOOST_ASSERT((!(on_absorbtion<type,Combiner,Traits::absorbs_identities>::is_absorbable(co_val))));
Chris@16	567
Chris@16	568 iterator inserted_
Chris@16	569 = this->_map.insert(prior_, value_type(inter_val, Combiner::identity_element()));
Chris@16	570
Chris@16	571 if((inserted_).first == inter_val && (inserted_).second == Combiner::identity_element())
Chris@16	572 {
Chris@16	573 Combiner()((*inserted_).second, co_val);
Chris@16	574 return std::pair<iterator,bool>(inserted_, true);
Chris@16	575 }
Chris@16	576 else
Chris@16	577 return std::pair<iterator,bool>(inserted_, false);
Chris@16	578 }
Chris@16	579
Chris@16	580 std::pair<iterator, bool>
Chris@16	581 insert_at(const iterator& prior_, const interval_type& inter_val,
Chris@16	582 const codomain_type& co_val )
Chris@16	583 {
Chris@16	584 iterator inserted_
Chris@16	585 = this->_map.insert(prior_, value_type(inter_val, co_val));
Chris@16	586
Chris@16	587 if(inserted_ == prior_)
Chris@16	588 return std::pair<iterator,bool>(inserted_, false);
Chris@16	589 else if((*inserted_).first == inter_val)
Chris@16	590 return std::pair<iterator,bool>(inserted_, true);
Chris@16	591 else
Chris@16	592 return std::pair<iterator,bool>(inserted_, false);
Chris@16	593 }
Chris@16	594
Chris@16	595
Chris@16	596 protected:
Chris@16	597 sub_type* that() { return static_cast<sub_type*>(this); }
Chris@16	598 const sub_type* that()const { return static_cast<const sub_type*>(this); }
Chris@16	599
Chris@16	600 protected:
Chris@16	601 ImplMapT _map;
Chris@16	602
Chris@16	603
Chris@16	604 private:
Chris@16	605 //--------------------------------------------------------------------------
Chris@16	606 template<class Type, bool is_total_invertible>
Chris@16	607 struct on_invertible;
Chris@16	608
Chris@16	609 template<class Type>
Chris@16	610 struct on_invertible<Type, true>
Chris@16	611 {
Chris@16	612 typedef typename Type::segment_type segment_type;
Chris@16	613 typedef typename Type::inverse_codomain_combine inverse_codomain_combine;
Chris@16	614
Chris@16	615 static void subtract(Type& object, const segment_type& operand)
Chris@16	616 { object.template _add<inverse_codomain_combine>(operand); }
Chris@16	617 };
Chris@16	618
Chris@16	619 template<class Type>
Chris@16	620 struct on_invertible<Type, false>
Chris@16	621 {
Chris@16	622 typedef typename Type::segment_type segment_type;
Chris@16	623 typedef typename Type::inverse_codomain_combine inverse_codomain_combine;
Chris@16	624
Chris@16	625 static void subtract(Type& object, const segment_type& operand)
Chris@16	626 { object.template _subtract<inverse_codomain_combine>(operand); }
Chris@16	627 };
Chris@16	628
Chris@16	629 friend struct on_invertible<type, true>;
Chris@16	630 friend struct on_invertible<type, false>;
Chris@16	631 //--------------------------------------------------------------------------
Chris@16	632
Chris@16	633 //--------------------------------------------------------------------------
Chris@16	634 template<class Type, bool is_total>
Chris@16	635 struct on_definedness;
Chris@16	636
Chris@16	637 template<class Type>
Chris@16	638 struct on_definedness<Type, true>
Chris@16	639 {
Chris@16	640 static void add_intersection(Type& section, const Type& object,
Chris@16	641 const segment_type& operand)
Chris@16	642 { object.total_add_intersection(section, operand); }
Chris@16	643 };
Chris@16	644
Chris@16	645 template<class Type>
Chris@16	646 struct on_definedness<Type, false>
Chris@16	647 {
Chris@16	648 static void add_intersection(Type& section, const Type& object,
Chris@16	649 const segment_type& operand)
Chris@16	650 { object.partial_add_intersection(section, operand); }
Chris@16	651 };
Chris@16	652
Chris@16	653 friend struct on_definedness<type, true>;
Chris@16	654 friend struct on_definedness<type, false>;
Chris@16	655 //--------------------------------------------------------------------------
Chris@16	656
Chris@16	657 //--------------------------------------------------------------------------
Chris@16	658 template<class Type, bool has_set_semantics>
Chris@16	659 struct on_codomain_model;
Chris@16	660
Chris@16	661 template<class Type>
Chris@16	662 struct on_codomain_model<Type, true>
Chris@16	663 {
Chris@16	664 typedef typename Type::interval_type interval_type;
Chris@16	665 typedef typename Type::codomain_type codomain_type;
Chris@16	666 typedef typename Type::segment_type segment_type;
Chris@16	667 typedef typename Type::codomain_combine codomain_combine;
Chris@16	668 typedef typename Type::inverse_codomain_intersect inverse_codomain_intersect;
Chris@16	669
Chris@16	670 static void add(Type& intersection, interval_type& common_interval,
Chris@16	671 const codomain_type& flip_value, const codomain_type& co_value)
Chris@16	672 {
Chris@16	673 codomain_type common_value = flip_value;
Chris@16	674 inverse_codomain_intersect()(common_value, co_value);
Chris@16	675 intersection.template
Chris@16	676 _add<codomain_combine>(segment_type(common_interval, common_value));
Chris@16	677 }
Chris@16	678 };
Chris@16	679
Chris@16	680 template<class Type>
Chris@16	681 struct on_codomain_model<Type, false>
Chris@16	682 {
Chris@16	683 typedef typename Type::interval_type interval_type;
Chris@16	684 typedef typename Type::codomain_type codomain_type;
Chris@16	685 typedef typename Type::segment_type segment_type;
Chris@16	686 typedef typename Type::codomain_combine codomain_combine;
Chris@16	687
Chris@16	688 static void add(Type& intersection, interval_type& common_interval,
Chris@16	689 const codomain_type&, const codomain_type&)
Chris@16	690 {
Chris@16	691 intersection.template
Chris@16	692 _add<codomain_combine>(segment_type(common_interval,
Chris@16	693 identity_element<codomain_type>::value()));
Chris@16	694 }
Chris@16	695 };
Chris@16	696
Chris@16	697 friend struct on_codomain_model<type, true>;
Chris@16	698 friend struct on_codomain_model<type, false>;
Chris@16	699 //--------------------------------------------------------------------------
Chris@16	700
Chris@16	701
Chris@16	702 //--------------------------------------------------------------------------
Chris@16	703 template<class Type, bool is_total, bool absorbs_identities>
Chris@16	704 struct on_total_absorbable;
Chris@16	705
Chris@16	706 template<class Type>
Chris@16	707 struct on_total_absorbable<Type, true, true>
Chris@16	708 {
Chris@16	709 static void flip(Type& object, const typename Type::segment_type&)
Chris@16	710 { icl::clear(object); }
Chris@16	711 };
Chris@16	712
Chris@16	713 #ifdef BOOST_MSVC
Chris@16	714 #pragma warning(push)
Chris@16	715 #pragma warning(disable:4127) // conditional expression is constant
Chris@16	716 #endif
Chris@16	717
Chris@16	718 template<class Type>
Chris@16	719 struct on_total_absorbable<Type, true, false>
Chris@16	720 {
Chris@16	721 typedef typename Type::segment_type segment_type;
Chris@16	722 typedef typename Type::codomain_type codomain_type;
Chris@16	723
Chris@16	724 static void flip(Type& object, const segment_type& operand)
Chris@16	725 {
Chris@16	726 object += operand;
Chris@16	727 ICL_FORALL(typename Type, it_, object)
Chris@16	728 (*it_).second = identity_element<codomain_type>::value();
Chris@16	729
Chris@16	730 if(mpl::not_<is_interval_splitter<Type> >::value)
Chris@16	731 icl::join(object);
Chris@16	732 }
Chris@16	733 };
Chris@16	734
Chris@16	735 #ifdef BOOST_MSVC
Chris@16	736 #pragma warning(pop)
Chris@16	737 #endif
Chris@16	738
Chris@16	739 template<class Type, bool absorbs_identities>
Chris@16	740 struct on_total_absorbable<Type, false, absorbs_identities>
Chris@16	741 {
Chris@16	742 typedef typename Type::segment_type segment_type;
Chris@16	743 typedef typename Type::codomain_type codomain_type;
Chris@16	744 typedef typename Type::interval_type interval_type;
Chris@16	745 typedef typename Type::value_type value_type;
Chris@16	746 typedef typename Type::const_iterator const_iterator;
Chris@16	747 typedef typename Type::set_type set_type;
Chris@16	748 typedef typename Type::inverse_codomain_intersect inverse_codomain_intersect;
Chris@16	749
Chris@16	750 static void flip(Type& object, const segment_type& interval_value_pair)
Chris@16	751 {
Chris@16	752 // That which is common shall be subtracted
Chris@16	753 // That which is not shall be added
Chris@16	754 // So interval_value_pair has to be 'complementary added' or flipped
Chris@16	755 interval_type span = interval_value_pair.first;
Chris@16	756 std::pair<const_iterator, const_iterator> exterior
Chris@16	757 = object.equal_range(span);
Chris@16	758
Chris@16	759 const_iterator first_ = exterior.first;
Chris@16	760 const_iterator end_ = exterior.second;
Chris@16	761
Chris@16	762 interval_type covered, left_over, common_interval;
Chris@16	763 const codomain_type& x_value = interval_value_pair.second;
Chris@16	764 const_iterator it_ = first_;
Chris@16	765
Chris@16	766 set_type eraser;
Chris@16	767 Type intersection;
Chris@16	768
Chris@16	769 while(it_ != end_ )
Chris@16	770 {
Chris@16	771 const codomain_type& co_value = (*it_).second;
Chris@16	772 covered = (*it_++).first;
Chris@16	773 //[a ... : span
Chris@16	774 // [b ... : covered
Chris@16	775 //[a b) : left_over
Chris@16	776 left_over = right_subtract(span, covered);
Chris@16	777
Chris@16	778 //That which is common ...
Chris@16	779 common_interval = span & covered;
Chris@16	780 if(!icl::is_empty(common_interval))
Chris@16	781 {
Chris@16	782 // ... shall be subtracted
Chris@16	783 icl::add(eraser, common_interval);
Chris@16	784
Chris@16	785 on_codomain_model<Type, has_set_semantics<codomain_type>::value>
Chris@16	786 ::add(intersection, common_interval, x_value, co_value);
Chris@16	787 }
Chris@16	788
Chris@16	789 icl::add(object, value_type(left_over, x_value)); //That which is not shall be added
Chris@16	790 // Because this is a collision free addition I don't have to distinguish codomain_types.
Chris@16	791
Chris@16	792 //... d) : span
Chris@16	793 //... c) : covered
Chris@16	794 // [c d) : span'
Chris@16	795 span = left_subtract(span, covered);
Chris@16	796 }
Chris@16	797
Chris@16	798 //If span is not empty here, it is not in the set so it shall be added
Chris@16	799 icl::add(object, value_type(span, x_value));
Chris@16	800
Chris@16	801 //finally rewrite the common segments
Chris@16	802 icl::erase(object, eraser);
Chris@16	803 object += intersection;
Chris@16	804 }
Chris@16	805 };
Chris@16	806 //--------------------------------------------------------------------------
Chris@16	807 } ;
Chris@16	808
Chris@16	809
Chris@16	810 //==============================================================================
Chris@16	811 //= Addition detail
Chris@16	812 //==============================================================================
Chris@16	813 template <class SubType, class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	814 inline void interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>
Chris@16	815 ::add_front(const interval_type& inter_val, iterator& first_)
Chris@16	816 {
Chris@16	817 // If the collision sequence has a left residual 'left_resid' it will
Chris@16	818 // be split, to provide a standardized start of algorithms:
Chris@16	819 // The addend interval 'inter_val' covers the beginning of the collision sequence.
Chris@16	820
Chris@16	821 // only for the first there can be a left_resid: a part of *first_ left of inter_val
Chris@16	822 interval_type left_resid = right_subtract((*first_).first, inter_val);
Chris@16	823
Chris@16	824 if(!icl::is_empty(left_resid))
Chris@16	825 { // [------------ . . .
Chris@16	826 // [left_resid---first_ --- . . .
Chris@16	827 iterator prior_ = cyclic_prior(*this, first_);
Chris@16	828 const_cast<interval_type&>((*first_).first)
Chris@16	829 = left_subtract((*first_).first, left_resid);
Chris@16	830 //NOTE: Only splitting
Chris@16	831 this->_map.insert(prior_, segment_type(left_resid, (*first_).second));
Chris@16	832 }
Chris@16	833 //POST:
Chris@16	834 // [----- inter_val ---- . . .
Chris@16	835 // ...[-- first_ --...
Chris@16	836 }
Chris@16	837
Chris@16	838 template <class SubType, class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	839 template<class Combiner>
Chris@16	840 inline void interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>
Chris@16	841 ::add_segment(const interval_type& inter_val, const CodomainT& co_val, iterator& it_)
Chris@16	842 {
Chris@16	843 interval_type lead_gap = right_subtract(inter_val, (*it_).first);
Chris@16	844 if(!icl::is_empty(lead_gap))
Chris@16	845 {
Chris@16	846 // [lead_gap--- . . .
Chris@16	847 // [-- it_ ...
Chris@16	848 iterator prior_ = prior(it_);
Chris@16	849 iterator inserted_ = this->template gap_insert<Combiner>(prior_, lead_gap, co_val);
Chris@16	850 that()->handle_inserted(prior_, inserted_);
Chris@16	851 }
Chris@16	852
Chris@16	853 // . . . --------- . . . addend interval
Chris@16	854 // [-- it_ --) has a common part with the first overval
Chris@16	855 Combiner()((*it_).second, co_val);
Chris@16	856 that()->template handle_left_combined<Combiner>(it_++);
Chris@16	857 }
Chris@16	858
Chris@16	859
Chris@16	860 template <class SubType, class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	861 template<class Combiner>
Chris@16	862 inline void interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>
Chris@16	863 ::add_main(interval_type& inter_val, const CodomainT& co_val,
Chris@16	864 iterator& it_, const iterator& last_)
Chris@16	865 {
Chris@16	866 interval_type cur_interval;
Chris@16	867 while(it_!=last_)
Chris@16	868 {
Chris@16	869 cur_interval = (*it_).first ;
Chris@16	870 add_segment<Combiner>(inter_val, co_val, it_);
Chris@16	871 // shrink interval
Chris@16	872 inter_val = left_subtract(inter_val, cur_interval);
Chris@16	873 }
Chris@16	874 }
Chris@16	875
Chris@16	876 template <class SubType, class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	877 template<class Combiner>
Chris@16	878 inline void interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>
Chris@16	879 ::add_rear(const interval_type& inter_val, const CodomainT& co_val, iterator& it_)
Chris@16	880 {
Chris@16	881 iterator prior_ = cyclic_prior(*that(), it_);
Chris@16	882 interval_type cur_itv = (*it_).first ;
Chris@16	883
Chris@16	884 interval_type lead_gap = right_subtract(inter_val, cur_itv);
Chris@16	885 if(!icl::is_empty(lead_gap))
Chris@16	886 { // [lead_gap--- . . .
Chris@16	887 // [prior) [-- it_ ...
Chris@16	888 iterator inserted_ = this->template gap_insert<Combiner>(prior_, lead_gap, co_val);
Chris@16	889 that()->handle_inserted(prior_, inserted_);
Chris@16	890 }
Chris@16	891
Chris@16	892 interval_type end_gap = left_subtract(inter_val, cur_itv);
Chris@16	893 if(!icl::is_empty(end_gap))
Chris@16	894 {
Chris@16	895 // [----------------end_gap)
Chris@16	896 // . . . -- it_ --)
Chris@16	897 Combiner()((*it_).second, co_val);
Chris@16	898 that()->template gap_insert_at<Combiner>(it_, prior_, end_gap, co_val);
Chris@16	899 }
Chris@16	900 else
Chris@16	901 {
Chris@16	902 // only for the last there can be a right_resid: a part of *it_ right of x
Chris@16	903 interval_type right_resid = left_subtract(cur_itv, inter_val);
Chris@16	904
Chris@16	905 if(icl::is_empty(right_resid))
Chris@16	906 {
Chris@16	907 // [---------------)
Chris@16	908 // [-- it_ ---)
Chris@16	909 Combiner()((*it_).second, co_val);
Chris@16	910 that()->template handle_preceeded_combined<Combiner>(prior_, it_);
Chris@16	911 }
Chris@16	912 else
Chris@16	913 {
Chris@16	914 // [--------------)
Chris@16	915 // [-- it_ --right_resid)
Chris@16	916 const_cast<interval_type&>((it_).first) = right_subtract((it_).first, right_resid);
Chris@16	917
Chris@16	918 //NOTE: This is NOT an insertion that has to take care for correct application of
Chris@16	919 // the Combiner functor. It only reestablished that state after splitting the
Chris@16	920 // 'it_' interval value pair. Using _map_insert<Combiner> does not work here.
Chris@16	921 iterator insertion_ = this->_map.insert(it_, value_type(right_resid, (*it_).second));
Chris@16	922 that()->handle_reinserted(insertion_);
Chris@16	923
Chris@16	924 Combiner()((*it_).second, co_val);
Chris@16	925 that()->template handle_preceeded_combined<Combiner>(insertion_, it_);
Chris@16	926 }
Chris@16	927 }
Chris@16	928 }
Chris@16	929
Chris@16	930
Chris@16	931 //==============================================================================
Chris@16	932 //= Addition
Chris@16	933 //==============================================================================
Chris@16	934 template <class SubType, class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	935 template<class Combiner>
Chris@16	936 inline typename interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>::iterator
Chris@16	937 interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>
Chris@16	938 ::_add(const segment_type& addend)
Chris@16	939 {
Chris@16	940 typedef typename on_absorbtion<type,Combiner,
Chris@16	941 absorbs_identities<type>::value>::type on_absorbtion_;
Chris@16	942
Chris@16	943 const interval_type& inter_val = addend.first;
Chris@16	944 if(icl::is_empty(inter_val))
Chris@16	945 return this->_map.end();
Chris@16	946
Chris@16	947 const codomain_type& co_val = addend.second;
Chris@16	948 if(on_absorbtion_::is_absorbable(co_val))
Chris@16	949 return this->_map.end();
Chris@16	950
Chris@16	951 std::pair<iterator,bool> insertion
Chris@16	952 = this->_map.insert(value_type(inter_val, version<Combiner>()(co_val)));
Chris@16	953
Chris@16	954 if(insertion.second)
Chris@16	955 return that()->handle_inserted(insertion.first);
Chris@16	956 else
Chris@16	957 {
Chris@16	958 // Detect the first and the end iterator of the collision sequence
Chris@16	959 iterator first_ = this->_map.lower_bound(inter_val),
Chris@16	960 last_ = insertion.first;
Chris@16	961 //assert(end_ == this->_map.upper_bound(inter_val));
Chris@16	962 iterator it_ = first_;
Chris@16	963 interval_type rest_interval = inter_val;
Chris@16	964
Chris@16	965 add_front (rest_interval, it_ );
Chris@16	966 add_main<Combiner>(rest_interval, co_val, it_, last_);
Chris@16	967 add_rear<Combiner>(rest_interval, co_val, it_ );
Chris@16	968 return it_;
Chris@16	969 }
Chris@16	970 }
Chris@16	971
Chris@16	972 template <class SubType, class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	973 template<class Combiner>
Chris@16	974 inline typename interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>::iterator
Chris@16	975 interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>
Chris@16	976 ::_add(iterator prior_, const segment_type& addend)
Chris@16	977 {
Chris@16	978 typedef typename on_absorbtion<type,Combiner,
Chris@16	979 absorbs_identities<type>::value>::type on_absorbtion_;
Chris@16	980
Chris@16	981 const interval_type& inter_val = addend.first;
Chris@16	982 if(icl::is_empty(inter_val))
Chris@16	983 return prior_;
Chris@16	984
Chris@16	985 const codomain_type& co_val = addend.second;
Chris@16	986 if(on_absorbtion_::is_absorbable(co_val))
Chris@16	987 return prior_;
Chris@16	988
Chris@16	989 std::pair<iterator,bool> insertion
Chris@16	990 = add_at<Combiner>(prior_, inter_val, co_val);
Chris@16	991
Chris@16	992 if(insertion.second)
Chris@16	993 return that()->handle_inserted(insertion.first);
Chris@16	994 else
Chris@16	995 {
Chris@16	996 // Detect the first and the end iterator of the collision sequence
Chris@16	997 std::pair<iterator,iterator> overlap = equal_range(inter_val);
Chris@16	998 iterator it_ = overlap.first,
Chris@16	999 last_ = prior(overlap.second);
Chris@16	1000 interval_type rest_interval = inter_val;
Chris@16	1001
Chris@16	1002 add_front (rest_interval, it_ );
Chris@16	1003 add_main<Combiner>(rest_interval, co_val, it_, last_);
Chris@16	1004 add_rear<Combiner>(rest_interval, co_val, it_ );
Chris@16	1005 return it_;
Chris@16	1006 }
Chris@16	1007 }
Chris@16	1008
Chris@16	1009 //==============================================================================
Chris@16	1010 //= Subtraction detail
Chris@16	1011 //==============================================================================
Chris@16	1012
Chris@16	1013 template <class SubType, class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	1014 inline void interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>
Chris@16	1015 ::subtract_front(const interval_type& inter_val, iterator& it_)
Chris@16	1016 {
Chris@16	1017 interval_type left_resid = right_subtract((*it_).first, inter_val);
Chris@16	1018
Chris@16	1019 if(!icl::is_empty(left_resid)) // [--- inter_val ---)
Chris@16	1020 { //[prior_) [left_resid)[--- it_ . . .
Chris@16	1021 iterator prior_ = cyclic_prior(*this, it_);
Chris@16	1022 const_cast<interval_type&>((it_).first) = left_subtract((it_).first, left_resid);
Chris@16	1023 this->_map.insert(prior_, value_type(left_resid, (*it_).second));
Chris@16	1024 // The segemnt *it_ is split at inter_val.first(), so as an invariant
Chris@16	1025 // segment *it_ is always "under" inter_val and a left_resid is empty.
Chris@16	1026 }
Chris@16	1027 }
Chris@16	1028
Chris@16	1029
Chris@16	1030 template <class SubType, class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	1031 template<class Combiner>
Chris@16	1032 inline void interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>
Chris@16	1033 ::subtract_main(const CodomainT& co_val, iterator& it_, const iterator& last_)
Chris@16	1034 {
Chris@16	1035 while(it_ != last_)
Chris@16	1036 {
Chris@16	1037 Combiner()((*it_).second, co_val);
Chris@16	1038 that()->template handle_left_combined<Combiner>(it_++);
Chris@16	1039 }
Chris@16	1040 }
Chris@16	1041
Chris@16	1042 template <class SubType, class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	1043 template<class Combiner>
Chris@16	1044 inline void interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>
Chris@16	1045 ::subtract_rear(interval_type& inter_val, const CodomainT& co_val, iterator& it_)
Chris@16	1046 {
Chris@16	1047 interval_type right_resid = left_subtract((*it_).first, inter_val);
Chris@16	1048
Chris@16	1049 if(icl::is_empty(right_resid))
Chris@16	1050 {
Chris@16	1051 Combiner()((*it_).second, co_val);
Chris@16	1052 that()->template handle_combined<Combiner>(it_);
Chris@16	1053 }
Chris@16	1054 else
Chris@16	1055 {
Chris@16	1056 const_cast<interval_type&>((it_).first) = right_subtract((it_).first, right_resid);
Chris@16	1057 iterator next_ = this->_map.insert(it_, value_type(right_resid, (*it_).second));
Chris@16	1058 Combiner()((*it_).second, co_val);
Chris@16	1059 that()->template handle_succeeded_combined<Combiner>(it_, next_);
Chris@16	1060 }
Chris@16	1061 }
Chris@16	1062
Chris@16	1063 //==============================================================================
Chris@16	1064 //= Subtraction
Chris@16	1065 //==============================================================================
Chris@16	1066 template <class SubType, class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	1067 template<class Combiner>
Chris@16	1068 inline void interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>
Chris@16	1069 ::_subtract(const segment_type& minuend)
Chris@16	1070 {
Chris@16	1071 interval_type inter_val = minuend.first;
Chris@16	1072 if(icl::is_empty(inter_val))
Chris@16	1073 return;
Chris@16	1074
Chris@16	1075 const codomain_type& co_val = minuend.second;
Chris@16	1076 if(on_absorbtion<type,Combiner,Traits::absorbs_identities>::is_absorbable(co_val))
Chris@16	1077 return;
Chris@16	1078
Chris@16	1079 std::pair<iterator, iterator> exterior = equal_range(inter_val);
Chris@16	1080 if(exterior.first == exterior.second)
Chris@16	1081 return;
Chris@16	1082
Chris@16	1083 iterator last_ = prior(exterior.second);
Chris@16	1084 iterator it_ = exterior.first;
Chris@16	1085 subtract_front (inter_val, it_ );
Chris@16	1086 subtract_main <Combiner>( co_val, it_, last_);
Chris@16	1087 subtract_rear <Combiner>(inter_val, co_val, it_ );
Chris@16	1088 }
Chris@16	1089
Chris@16	1090 //==============================================================================
Chris@16	1091 //= Insertion
Chris@16	1092 //==============================================================================
Chris@16	1093 template <class SubType, class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	1094 inline void interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>
Chris@16	1095 ::insert_main(const interval_type& inter_val, const CodomainT& co_val,
Chris@16	1096 iterator& it_, const iterator& last_)
Chris@16	1097 {
Chris@16	1098 iterator end_ = boost::next(last_);
Chris@16	1099 iterator prior_ = it_, inserted_;
Chris@16	1100 if(prior_ != this->_map.end())
Chris@16	1101 --prior_;
Chris@16	1102 interval_type rest_interval = inter_val, left_gap, cur_itv;
Chris@16	1103 interval_type last_interval = last_ ->first;
Chris@16	1104
Chris@16	1105 while(it_ != end_ )
Chris@16	1106 {
Chris@16	1107 cur_itv = (*it_).first ;
Chris@16	1108 left_gap = right_subtract(rest_interval, cur_itv);
Chris@16	1109
Chris@16	1110 if(!icl::is_empty(left_gap))
Chris@16	1111 {
Chris@16	1112 inserted_ = this->_map.insert(prior_, value_type(left_gap, co_val));
Chris@16	1113 it_ = that()->handle_inserted(inserted_);
Chris@16	1114 }
Chris@16	1115
Chris@16	1116 // shrink interval
Chris@16	1117 rest_interval = left_subtract(rest_interval, cur_itv);
Chris@16	1118 prior_ = it_;
Chris@16	1119 ++it_;
Chris@16	1120 }
Chris@16	1121
Chris@16	1122 //insert_rear(rest_interval, co_val, last_):
Chris@16	1123 interval_type end_gap = left_subtract(rest_interval, last_interval);
Chris@16	1124 if(!icl::is_empty(end_gap))
Chris@16	1125 {
Chris@16	1126 inserted_ = this->_map.insert(prior_, value_type(end_gap, co_val));
Chris@16	1127 it_ = that()->handle_inserted(inserted_);
Chris@16	1128 }
Chris@16	1129 else
Chris@16	1130 it_ = prior_;
Chris@16	1131 }
Chris@16	1132
Chris@16	1133
Chris@16	1134 template <class SubType, class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	1135 inline typename interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>::iterator
Chris@16	1136 interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>
Chris@16	1137 ::_insert(const segment_type& addend)
Chris@16	1138 {
Chris@16	1139 interval_type inter_val = addend.first;
Chris@16	1140 if(icl::is_empty(inter_val))
Chris@16	1141 return this->_map.end();
Chris@16	1142
Chris@16	1143 const codomain_type& co_val = addend.second;
Chris@16	1144 if(on_codomain_absorbtion::is_absorbable(co_val))
Chris@16	1145 return this->_map.end();
Chris@16	1146
Chris@16	1147 std::pair<iterator,bool> insertion = this->_map.insert(addend);
Chris@16	1148
Chris@16	1149 if(insertion.second)
Chris@16	1150 return that()->handle_inserted(insertion.first);
Chris@16	1151 else
Chris@16	1152 {
Chris@16	1153 // Detect the first and the end iterator of the collision sequence
Chris@16	1154 iterator first_ = this->_map.lower_bound(inter_val),
Chris@16	1155 last_ = insertion.first;
Chris@16	1156 //assert((++last_) == this->_map.upper_bound(inter_val));
Chris@16	1157 iterator it_ = first_;
Chris@16	1158 insert_main(inter_val, co_val, it_, last_);
Chris@16	1159 return it_;
Chris@16	1160 }
Chris@16	1161 }
Chris@16	1162
Chris@16	1163
Chris@16	1164 template <class SubType, class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	1165 inline typename interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>::iterator
Chris@16	1166 interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>
Chris@16	1167 ::_insert(iterator prior_, const segment_type& addend)
Chris@16	1168 {
Chris@16	1169 interval_type inter_val = addend.first;
Chris@16	1170 if(icl::is_empty(inter_val))
Chris@16	1171 return prior_;
Chris@16	1172
Chris@16	1173 const codomain_type& co_val = addend.second;
Chris@16	1174 if(on_codomain_absorbtion::is_absorbable(co_val))
Chris@16	1175 return prior_;
Chris@16	1176
Chris@16	1177 std::pair<iterator,bool> insertion = insert_at(prior_, inter_val, co_val);
Chris@16	1178
Chris@16	1179 if(insertion.second)
Chris@16	1180 return that()->handle_inserted(insertion.first);
Chris@16	1181 {
Chris@16	1182 // Detect the first and the end iterator of the collision sequence
Chris@16	1183 std::pair<iterator,iterator> overlap = equal_range(inter_val);
Chris@16	1184 iterator it_ = overlap.first,
Chris@16	1185 last_ = prior(overlap.second);
Chris@16	1186 insert_main(inter_val, co_val, it_, last_);
Chris@16	1187 return it_;
Chris@16	1188 }
Chris@16	1189 }
Chris@16	1190
Chris@16	1191 //==============================================================================
Chris@16	1192 //= Erasure segment_type
Chris@16	1193 //==============================================================================
Chris@16	1194 template <class SubType, class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	1195 inline void interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>
Chris@16	1196 ::erase_rest(interval_type& inter_val, const CodomainT& co_val,
Chris@16	1197 iterator& it_, const iterator& last_)
Chris@16	1198 {
Chris@16	1199 // For all intervals within loop: (*it_).first are contained_in inter_val
Chris@16	1200 while(it_ != last_)
Chris@16	1201 if((*it_).second == co_val)
Chris@16	1202 this->_map.erase(it_++);
Chris@16	1203 else it_++;
Chris@16	1204
Chris@16	1205 //erase_rear:
Chris@16	1206 if((*it_).second == co_val)
Chris@16	1207 {
Chris@16	1208 interval_type right_resid = left_subtract((*it_).first, inter_val);
Chris@16	1209 if(icl::is_empty(right_resid))
Chris@16	1210 this->_map.erase(it_);
Chris@16	1211 else
Chris@16	1212 const_cast<interval_type&>((*it_).first) = right_resid;
Chris@16	1213 }
Chris@16	1214 }
Chris@16	1215
Chris@16	1216 template <class SubType, class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	1217 inline SubType& interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>
Chris@16	1218 ::erase(const segment_type& minuend)
Chris@16	1219 {
Chris@16	1220 interval_type inter_val = minuend.first;
Chris@16	1221 if(icl::is_empty(inter_val))
Chris@16	1222 return *that();
Chris@16	1223
Chris@16	1224 const codomain_type& co_val = minuend.second;
Chris@16	1225 if(on_codomain_absorbtion::is_absorbable(co_val))
Chris@16	1226 return *that();
Chris@16	1227
Chris@16	1228 std::pair<iterator,iterator> exterior = equal_range(inter_val);
Chris@16	1229 if(exterior.first == exterior.second)
Chris@16	1230 return *that();
Chris@16	1231
Chris@16	1232 iterator first_ = exterior.first, end_ = exterior.second,
Chris@16	1233 last_ = cyclic_prior(*this, end_);
Chris@16	1234 iterator second_= first_; ++second_;
Chris@16	1235
Chris@16	1236 if(first_ == last_)
Chris@16	1237 { // [----inter_val----)
Chris@16	1238 // .....first_==last_.....
Chris@16	1239 // only for the last there can be a right_resid: a part of *it_ right of minuend
Chris@16	1240 interval_type right_resid = left_subtract((*first_).first, inter_val);
Chris@16	1241
Chris@16	1242 if((*first_).second == co_val)
Chris@16	1243 {
Chris@16	1244 interval_type left_resid = right_subtract((*first_).first, inter_val);
Chris@16	1245 if(!icl::is_empty(left_resid)) // [----inter_val----)
Chris@16	1246 { // [left_resid)..first_==last_......
Chris@16	1247 const_cast<interval_type&>((*first_).first) = left_resid;
Chris@16	1248 if(!icl::is_empty(right_resid))
Chris@16	1249 this->_map.insert(first_, value_type(right_resid, co_val));
Chris@16	1250 }
Chris@16	1251 else if(!icl::is_empty(right_resid))
Chris@16	1252 const_cast<interval_type&>((*first_).first) = right_resid;
Chris@16	1253 else
Chris@16	1254 this->_map.erase(first_);
Chris@16	1255 }
Chris@16	1256 }
Chris@16	1257 else
Chris@16	1258 {
Chris@16	1259 // first AND NOT last
Chris@16	1260 if((*first_).second == co_val)
Chris@16	1261 {
Chris@16	1262 interval_type left_resid = right_subtract((*first_).first, inter_val);
Chris@16	1263 if(icl::is_empty(left_resid))
Chris@16	1264 this->_map.erase(first_);
Chris@16	1265 else
Chris@16	1266 const_cast<interval_type&>((*first_).first) = left_resid;
Chris@16	1267 }
Chris@16	1268
Chris@16	1269 erase_rest(inter_val, co_val, second_, last_);
Chris@16	1270 }
Chris@16	1271
Chris@16	1272 return *that();
Chris@16	1273 }
Chris@16	1274
Chris@16	1275 //==============================================================================
Chris@16	1276 //= Erasure key_type
Chris@16	1277 //==============================================================================
Chris@16	1278 template <class SubType, class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	1279 inline SubType& interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc>
Chris@16	1280 ::erase(const interval_type& minuend)
Chris@16	1281 {
Chris@16	1282 if(icl::is_empty(minuend))
Chris@16	1283 return *that();
Chris@16	1284
Chris@16	1285 std::pair<iterator, iterator> exterior = equal_range(minuend);
Chris@16	1286 if(exterior.first == exterior.second)
Chris@16	1287 return *that();
Chris@16	1288
Chris@16	1289 iterator first_ = exterior.first,
Chris@16	1290 end_ = exterior.second,
Chris@16	1291 last_ = prior(end_);
Chris@16	1292
Chris@16	1293 interval_type left_resid = right_subtract((*first_).first, minuend);
Chris@16	1294 interval_type right_resid = left_subtract(last_ ->first, minuend);
Chris@16	1295
Chris@16	1296 if(first_ == last_ )
Chris@16	1297 if(!icl::is_empty(left_resid))
Chris@16	1298 {
Chris@16	1299 const_cast<interval_type&>((*first_).first) = left_resid;
Chris@16	1300 if(!icl::is_empty(right_resid))
Chris@16	1301 this->_map.insert(first_, value_type(right_resid, (*first_).second));
Chris@16	1302 }
Chris@16	1303 else if(!icl::is_empty(right_resid))
Chris@16	1304 const_cast<interval_type&>((first_).first) = left_subtract((first_).first, minuend);
Chris@16	1305 else
Chris@16	1306 this->_map.erase(first_);
Chris@16	1307 else
Chris@16	1308 { // [-------- minuend ---------)
Chris@16	1309 // [left_resid fst) . . . . [lst right_resid)
Chris@16	1310 iterator second_= first_; ++second_;
Chris@16	1311
Chris@16	1312 iterator start_ = icl::is_empty(left_resid)? first_: second_;
Chris@16	1313 iterator stop_ = icl::is_empty(right_resid)? end_ : last_ ;
Chris@16	1314 this->_map.erase(start_, stop_); //erase [start_, stop_)
Chris@16	1315
Chris@16	1316 if(!icl::is_empty(left_resid))
Chris@16	1317 const_cast<interval_type&>((*first_).first) = left_resid;
Chris@16	1318
Chris@16	1319 if(!icl::is_empty(right_resid))
Chris@16	1320 const_cast<interval_type&>(last_ ->first) = right_resid;
Chris@16	1321 }
Chris@16	1322
Chris@16	1323 return *that();
Chris@16	1324 }
Chris@16	1325
Chris@16	1326 //-----------------------------------------------------------------------------
Chris@16	1327 // type traits
Chris@16	1328 //-----------------------------------------------------------------------------
Chris@16	1329 template
Chris@16	1330 <
Chris@16	1331 class SubType,
Chris@16	1332 class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc
Chris@16	1333 >
Chris@16	1334 struct is_map<icl::interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> >
Chris@16	1335 {
Chris@16	1336 typedef is_map<icl::interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> > type;
Chris@16	1337 BOOST_STATIC_CONSTANT(bool, value = true);
Chris@16	1338 };
Chris@16	1339
Chris@16	1340 template
Chris@16	1341 <
Chris@16	1342 class SubType,
Chris@16	1343 class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc
Chris@16	1344 >
Chris@16	1345 struct has_inverse<icl::interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> >
Chris@16	1346 {
Chris@16	1347 typedef has_inverse<icl::interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> > type;
Chris@16	1348 BOOST_STATIC_CONSTANT(bool, value = (has_inverse<CodomainT>::value));
Chris@16	1349 };
Chris@16	1350
Chris@16	1351 template
Chris@16	1352 <
Chris@16	1353 class SubType,
Chris@16	1354 class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc
Chris@16	1355 >
Chris@16	1356 struct is_interval_container<icl::interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> >
Chris@16	1357 {
Chris@16	1358 typedef is_interval_container<icl::interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> > type;
Chris@16	1359 BOOST_STATIC_CONSTANT(bool, value = true);
Chris@16	1360 };
Chris@16	1361
Chris@16	1362 template
Chris@16	1363 <
Chris@16	1364 class SubType,
Chris@16	1365 class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc
Chris@16	1366 >
Chris@16	1367 struct absorbs_identities<icl::interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> >
Chris@16	1368 {
Chris@16	1369 typedef absorbs_identities<icl::interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> > type;
Chris@16	1370 BOOST_STATIC_CONSTANT(bool, value = (Traits::absorbs_identities));
Chris@16	1371 };
Chris@16	1372
Chris@16	1373 template
Chris@16	1374 <
Chris@16	1375 class SubType,
Chris@16	1376 class DomainT, class CodomainT, class Traits, ICL_COMPARE Compare, ICL_COMBINE Combine, ICL_SECTION Section, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc
Chris@16	1377 >
Chris@16	1378 struct is_total<icl::interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> >
Chris@16	1379 {
Chris@16	1380 typedef is_total<icl::interval_base_map<SubType,DomainT,CodomainT,Traits,Compare,Combine,Section,Interval,Alloc> > type;
Chris@16	1381 BOOST_STATIC_CONSTANT(bool, value = (Traits::is_total));
Chris@16	1382 };
Chris@16	1383
Chris@16	1384
Chris@16	1385
Chris@16	1386 }} // namespace icl boost
Chris@16	1387
Chris@16	1388 #endif
Chris@16	1389
Chris@16	1390

Mercurial > hg > vamp-build-and-test

annotate DEPENDENCIES/generic/include/boost/icl/interval_base_map.hpp @ 16:2665513ce2d3