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

annotate DEPENDENCIES/generic/include/boost/icl/interval_base_set.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) 2007-2011: 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_SET_H_JOFA_990223
Chris@16	10 #define BOOST_ICL_INTERVAL_BASE_SET_H_JOFA_990223
Chris@16	11
Chris@16	12 #include <boost/icl/impl_config.hpp>
Chris@16	13
Chris@16	14 #if defined(ICL_USE_BOOST_MOVE_IMPLEMENTATION)
Chris@16	15 # include <boost/container/set.hpp>
Chris@16	16 #elif defined(ICL_USE_STD_IMPLEMENTATION)
Chris@16	17 # include <set>
Chris@16	18 #else // Default for implementing containers
Chris@16	19 # include <set>
Chris@16	20 #endif
Chris@16	21
Chris@16	22 #include <limits>
Chris@16	23 #include <boost/next_prior.hpp>
Chris@16	24 #include <boost/icl/associative_interval_container.hpp>
Chris@16	25 #include <boost/icl/type_traits/interval_type_default.hpp>
Chris@16	26 #include <boost/icl/interval.hpp>
Chris@16	27 #include <boost/icl/type_traits/infinity.hpp>
Chris@16	28 #include <boost/icl/type_traits/is_interval_joiner.hpp>
Chris@16	29 #include <boost/icl/type_traits/is_interval_separator.hpp>
Chris@16	30 #include <boost/icl/type_traits/is_interval_splitter.hpp>
Chris@16	31 #include <boost/icl/detail/interval_set_algo.hpp>
Chris@16	32 #include <boost/icl/detail/exclusive_less_than.hpp>
Chris@16	33
Chris@16	34 #include <boost/icl/right_open_interval.hpp>
Chris@16	35 #include <boost/icl/continuous_interval.hpp>
Chris@16	36 #include <boost/icl/detail/notate.hpp>
Chris@16	37 #include <boost/icl/detail/element_iterator.hpp>
Chris@16	38
Chris@16	39 namespace boost{namespace icl
Chris@16	40 {
Chris@16	41
Chris@16	42 /** \brief Implements a set as a set of intervals (base class) */
Chris@16	43 template
Chris@16	44 <
Chris@16	45 typename SubType,
Chris@16	46 typename DomainT,
Chris@16	47 ICL_COMPARE Compare = ICL_COMPARE_INSTANCE(ICL_COMPARE_DEFAULT, DomainT),
Chris@16	48 ICL_INTERVAL(ICL_COMPARE) Interval = ICL_INTERVAL_INSTANCE(ICL_INTERVAL_DEFAULT, DomainT, Compare),
Chris@16	49 ICL_ALLOC Alloc = std::allocator
Chris@16	50 >
Chris@16	51 class interval_base_set
Chris@16	52 {
Chris@16	53 public:
Chris@16	54 //==========================================================================
Chris@16	55 //= Associated types
Chris@16	56 //==========================================================================
Chris@16	57 typedef interval_base_set<SubType,DomainT,Compare,Interval,Alloc> type;
Chris@16	58
Chris@16	59 /// The designated \e derived or \e sub_type of this base class
Chris@16	60 typedef SubType sub_type;
Chris@16	61
Chris@16	62 /// Auxilliary type for overloadresolution
Chris@16	63 typedef type overloadable_type;
Chris@16	64
Chris@16	65 //--------------------------------------------------------------------------
Chris@16	66 //- Associated types: Data
Chris@16	67 //--------------------------------------------------------------------------
Chris@16	68 /// The domain type of the set
Chris@16	69 typedef DomainT domain_type;
Chris@16	70 /// The codomaintype is the same as domain_type
Chris@16	71 typedef DomainT codomain_type;
Chris@16	72
Chris@16	73 /// The element type of the set
Chris@16	74 typedef DomainT element_type;
Chris@16	75
Chris@16	76 /// The interval type of the set
Chris@16	77 typedef ICL_INTERVAL_TYPE(Interval,DomainT,Compare) interval_type;
Chris@16	78 /// The segment type of the set
Chris@16	79 typedef interval_type segment_type;
Chris@16	80
Chris@16	81 //--------------------------------------------------------------------------
Chris@16	82 //- Associated types: Size
Chris@16	83 //--------------------------------------------------------------------------
Chris@16	84 /// The difference type of an interval which is sometimes different form the data_type
Chris@16	85 typedef typename difference_type_of<domain_type>::type difference_type;
Chris@16	86
Chris@16	87 /// The size type of an interval which is mostly std::size_t
Chris@16	88 typedef typename size_type_of<domain_type>::type size_type;
Chris@16	89
Chris@16	90
Chris@16	91 //--------------------------------------------------------------------------
Chris@16	92 //- Associated types: Order
Chris@16	93 //--------------------------------------------------------------------------
Chris@16	94 /// Comparison functor for domain values
Chris@16	95 typedef ICL_COMPARE_DOMAIN(Compare,DomainT) domain_compare;
Chris@16	96 typedef ICL_COMPARE_DOMAIN(Compare,segment_type) segment_compare;
Chris@16	97 /// Comparison functor for intervals
Chris@16	98 typedef exclusive_less_than<interval_type> interval_compare;
Chris@16	99
Chris@16	100 /// Comparison functor for keys
Chris@16	101 typedef exclusive_less_than<interval_type> key_compare;
Chris@16	102
Chris@16	103 //--------------------------------------------------------------------------
Chris@16	104 //- Associated types: Related types
Chris@16	105 //--------------------------------------------------------------------------
Chris@16	106 /// The atomized type representing the corresponding container of elements
Chris@16	107 typedef typename ICL_IMPL_SPACE::set<DomainT,domain_compare,Alloc<DomainT> > atomized_type;
Chris@16	108
Chris@16	109 //--------------------------------------------------------------------------
Chris@16	110 //- Associated types: Implementation and stl related
Chris@16	111 //--------------------------------------------------------------------------
Chris@16	112 /// The allocator type of the set
Chris@16	113 typedef Alloc<interval_type> allocator_type;
Chris@16	114
Chris@16	115 /// allocator type of the corresponding element set
Chris@16	116 typedef Alloc<DomainT> domain_allocator_type;
Chris@16	117
Chris@16	118 /// Container type for the implementation
Chris@16	119 typedef typename ICL_IMPL_SPACE::set<interval_type,key_compare,allocator_type> ImplSetT;
Chris@16	120
Chris@16	121 /// key type of the implementing container
Chris@16	122 typedef typename ImplSetT::key_type key_type;
Chris@16	123 /// data type of the implementing container
Chris@16	124 typedef typename ImplSetT::key_type data_type;
Chris@16	125 /// value type of the implementing container
Chris@16	126 typedef typename ImplSetT::value_type value_type;
Chris@16	127
Chris@16	128 /// pointer type
Chris@16	129 typedef typename ImplSetT::pointer pointer;
Chris@16	130 /// const pointer type
Chris@16	131 typedef typename ImplSetT::const_pointer const_pointer;
Chris@16	132 /// reference type
Chris@16	133 typedef typename ImplSetT::reference reference;
Chris@16	134 /// const reference type
Chris@16	135 typedef typename ImplSetT::const_reference const_reference;
Chris@16	136
Chris@16	137 /// iterator for iteration over intervals
Chris@16	138 typedef typename ImplSetT::iterator iterator;
Chris@16	139 /// const_iterator for iteration over intervals
Chris@16	140 typedef typename ImplSetT::const_iterator const_iterator;
Chris@16	141 /// iterator for reverse iteration over intervals
Chris@16	142 typedef typename ImplSetT::reverse_iterator reverse_iterator;
Chris@16	143 /// const_iterator for iteration over intervals
Chris@16	144 typedef typename ImplSetT::const_reverse_iterator const_reverse_iterator;
Chris@16	145
Chris@16	146 /// element iterator: Depreciated, see documentation.
Chris@16	147 typedef boost::icl::element_iterator<iterator> element_iterator;
Chris@16	148 /// element const iterator: Depreciated, see documentation.
Chris@16	149 typedef boost::icl::element_iterator<const_iterator> element_const_iterator;
Chris@16	150 /// element reverse iterator: Depreciated, see documentation.
Chris@16	151 typedef boost::icl::element_iterator<reverse_iterator> element_reverse_iterator;
Chris@16	152 /// element const reverse iterator: Depreciated, see documentation.
Chris@16	153 typedef boost::icl::element_iterator<const_reverse_iterator> element_const_reverse_iterator;
Chris@16	154
Chris@16	155 BOOST_STATIC_CONSTANT(int, fineness = 0);
Chris@16	156
Chris@16	157 public:
Chris@16	158 //==========================================================================
Chris@16	159 //= Construct, copy, destruct
Chris@16	160 //==========================================================================
Chris@16	161 /** Default constructor for the empty object */
Chris@16	162 interval_base_set(){}
Chris@16	163
Chris@16	164 /** Copy constructor */
Chris@16	165 interval_base_set(const interval_base_set& src): _set(src._set)
Chris@16	166 {
Chris@16	167 BOOST_CONCEPT_ASSERT((DefaultConstructibleConcept<DomainT>));
Chris@16	168 BOOST_CONCEPT_ASSERT((LessThanComparableConcept<DomainT>));
Chris@16	169 }
Chris@16	170
Chris@16	171 /** Assignment operator */
Chris@16	172 interval_base_set& operator = (const interval_base_set& src)
Chris@16	173 {
Chris@16	174 this->_set = src._set;
Chris@16	175 return *this;
Chris@16	176 }
Chris@16	177
Chris@16	178 # ifndef BOOST_ICL_NO_CXX11_RVALUE_REFERENCES
Chris@16	179 //==========================================================================
Chris@16	180 //= Move semantics
Chris@16	181 //==========================================================================
Chris@16	182
Chris@16	183 /** Move constructor */
Chris@16	184 interval_base_set(interval_base_set&& src): _set(boost::move(src._set))
Chris@16	185 {
Chris@16	186 BOOST_CONCEPT_ASSERT((DefaultConstructibleConcept<DomainT>));
Chris@16	187 BOOST_CONCEPT_ASSERT((LessThanComparableConcept<DomainT>));
Chris@16	188 }
Chris@16	189
Chris@16	190 /** Move assignment operator */
Chris@16	191 interval_base_set& operator = (interval_base_set&& src)
Chris@16	192 {
Chris@16	193 this->_set = boost::move(src._set);
Chris@16	194 return *this;
Chris@16	195 }
Chris@16	196
Chris@16	197 //==========================================================================
Chris@16	198 # endif // BOOST_ICL_NO_CXX11_RVALUE_REFERENCES
Chris@16	199
Chris@16	200 /** swap the content of containers */
Chris@16	201 void swap(interval_base_set& operand) { _set.swap(operand._set); }
Chris@16	202
Chris@16	203 //==========================================================================
Chris@16	204 //= Containedness
Chris@16	205 //==========================================================================
Chris@16	206 /** sets the container empty */
Chris@16	207 void clear() { icl::clear(*that()); }
Chris@16	208 /** is the container empty? */
Chris@16	209 bool empty()const { return icl::is_empty(*that()); }
Chris@16	210
Chris@16	211 //==========================================================================
Chris@16	212 //= Size
Chris@16	213 //==========================================================================
Chris@16	214 /** An interval set's size is it's cardinality */
Chris@16	215 size_type size()const
Chris@16	216 {
Chris@16	217 return icl::cardinality(*that());
Chris@16	218 }
Chris@16	219
Chris@16	220 /** Size of the iteration over this container */
Chris@16	221 std::size_t iterative_size()const
Chris@16	222 {
Chris@16	223 return _set.size();
Chris@16	224 }
Chris@16	225
Chris@16	226 //==========================================================================
Chris@16	227 //= Selection
Chris@16	228 //==========================================================================
Chris@16	229
Chris@16	230 /** Find the interval, that contains element \c key_value */
Chris@16	231 const_iterator find(const element_type& key_value)const
Chris@16	232 {
Chris@16	233 return icl::find(*this, key_value);
Chris@16	234 //CL return this->_set.find(icl::singleton<segment_type>(key));
Chris@16	235 }
Chris@16	236
Chris@16	237 /** Find the first interval, that collides with interval \c key_interval */
Chris@16	238 const_iterator find(const interval_type& key_interval)const
Chris@16	239 {
Chris@16	240 return this->_set.find(key_interval);
Chris@16	241 }
Chris@16	242
Chris@16	243 //==========================================================================
Chris@16	244 //= Addition
Chris@16	245 //==========================================================================
Chris@16	246
Chris@16	247 /** Add a single element \c key to the set */
Chris@16	248 SubType& add(const element_type& key)
Chris@16	249 {
Chris@16	250 return icl::add(*that(), key);
Chris@16	251 }
Chris@16	252
Chris@16	253 /** Add an interval of elements \c inter_val to the set */
Chris@16	254 SubType& add(const segment_type& inter_val)
Chris@16	255 {
Chris@16	256 _add(inter_val);
Chris@16	257 return *that();
Chris@16	258 }
Chris@16	259
Chris@16	260 /** Add an interval of elements \c inter_val to the set. Iterator
Chris@16	261 \c prior_ is a hint to the position \c inter_val can be
Chris@16	262 inserted after. */
Chris@16	263 iterator add(iterator prior_, const segment_type& inter_val)
Chris@16	264 {
Chris@16	265 return _add(prior_, inter_val);
Chris@16	266 }
Chris@16	267
Chris@16	268 //==========================================================================
Chris@16	269 //= Subtraction
Chris@16	270 //==========================================================================
Chris@16	271
Chris@16	272 /** Subtract a single element \c key from the set */
Chris@16	273 SubType& subtract(const element_type& key)
Chris@16	274 {
Chris@16	275 return icl::subtract(*that(), key);
Chris@16	276 }
Chris@16	277
Chris@16	278 /** Subtract an interval of elements \c inter_val from the set */
Chris@16	279 SubType& subtract(const segment_type& inter_val);
Chris@16	280
Chris@16	281 //==========================================================================
Chris@16	282 //= Insertion
Chris@16	283 //==========================================================================
Chris@16	284 /** Insert an element \c key into the set */
Chris@16	285 SubType& insert(const element_type& key)
Chris@16	286 {
Chris@16	287 return add(key);
Chris@16	288 }
Chris@16	289
Chris@16	290 /** Insert an interval of elements \c inter_val to the set */
Chris@16	291 SubType& insert(const segment_type& inter_val)
Chris@16	292 {
Chris@16	293 return add(inter_val);
Chris@16	294 }
Chris@16	295
Chris@16	296 /** Insert an interval of elements \c inter_val to the set. Iterator
Chris@16	297 \c prior_ is a hint to the position \c inter_val can be
Chris@16	298 inserted after. */
Chris@16	299 iterator insert(iterator prior_, const segment_type& inter_val)
Chris@16	300 {
Chris@16	301 return add(prior_, inter_val);
Chris@16	302 }
Chris@16	303
Chris@16	304
Chris@16	305
Chris@16	306 //==========================================================================
Chris@16	307 //= Erasure
Chris@16	308 //==========================================================================
Chris@16	309 /** Erase an element \c key from the set */
Chris@16	310 SubType& erase(const element_type& key)
Chris@16	311 {
Chris@16	312 return subtract(key);
Chris@16	313 }
Chris@16	314
Chris@16	315 /** Erase an interval of elements \c inter_val from the set */
Chris@16	316 SubType& erase(const segment_type& inter_val)
Chris@16	317 {
Chris@16	318 return subtract(inter_val);
Chris@16	319 }
Chris@16	320
Chris@16	321 /** Erase the interval that iterator \c position points to. */
Chris@16	322 void erase(iterator position)
Chris@16	323 {
Chris@16	324 _set.erase(position);
Chris@16	325 }
Chris@16	326
Chris@16	327 /** Erase all intervals in the range <tt>[first,past)</tt> of iterators. */
Chris@16	328 void erase(iterator first, iterator past)
Chris@16	329 {
Chris@16	330 _set.erase(first, past);
Chris@16	331 }
Chris@16	332
Chris@16	333 //==========================================================================
Chris@16	334 //= Symmetric difference
Chris@16	335 //==========================================================================
Chris@16	336 /** If \c this set contains \c key it is erased, otherwise it is added. /
Chris@16	337 SubType& flip(const element_type& key)
Chris@16	338 {
Chris@16	339 return icl::flip(*that(), key);
Chris@16	340 }
Chris@16	341
Chris@16	342 /** If \c this set contains \c inter_val it is erased, otherwise it is added. /
Chris@16	343 SubType& flip(const segment_type& inter_val)
Chris@16	344 {
Chris@16	345 return icl::flip(*that(), inter_val);
Chris@16	346 }
Chris@16	347
Chris@16	348 //==========================================================================
Chris@16	349 //= Iterator related
Chris@16	350 //==========================================================================
Chris@16	351
Chris@16	352 iterator begin() { return _set.begin(); }
Chris@16	353 iterator end() { return _set.end(); }
Chris@16	354 const_iterator begin()const { return _set.begin(); }
Chris@16	355 const_iterator end()const { return _set.end(); }
Chris@16	356 reverse_iterator rbegin() { return _set.rbegin(); }
Chris@16	357 reverse_iterator rend() { return _set.rend(); }
Chris@16	358 const_reverse_iterator rbegin()const { return _set.rbegin(); }
Chris@16	359 const_reverse_iterator rend()const { return _set.rend(); }
Chris@16	360
Chris@16	361 iterator lower_bound(const value_type& interval)
Chris@16	362 { return _set.lower_bound(interval); }
Chris@16	363
Chris@16	364 iterator upper_bound(const value_type& interval)
Chris@16	365 { return _set.upper_bound(interval); }
Chris@16	366
Chris@16	367 const_iterator lower_bound(const value_type& interval)const
Chris@16	368 { return _set.lower_bound(interval); }
Chris@16	369
Chris@16	370 const_iterator upper_bound(const value_type& interval)const
Chris@16	371 { return _set.upper_bound(interval); }
Chris@16	372
Chris@16	373 std::pair<iterator,iterator> equal_range(const key_type& interval)
Chris@16	374 {
Chris@16	375 return std::pair<iterator,iterator>
Chris@16	376 (_set.lower_bound(interval), _set.upper_bound(interval));
Chris@16	377 }
Chris@16	378
Chris@16	379 std::pair<const_iterator,const_iterator>
Chris@16	380 equal_range(const key_type& interval)const
Chris@16	381 {
Chris@16	382 return std::pair<const_iterator,const_iterator>
Chris@16	383 (_set.lower_bound(interval), _set.upper_bound(interval));
Chris@16	384 }
Chris@16	385
Chris@16	386 private:
Chris@16	387 iterator _add(const segment_type& addend);
Chris@16	388 iterator _add(iterator prior, const segment_type& addend);
Chris@16	389
Chris@16	390 protected:
Chris@16	391 void add_front(const interval_type& inter_val, iterator& first_);
Chris@16	392 void add_main(interval_type& inter_val, iterator& it_, const iterator& last_);
Chris@16	393 void add_segment(const interval_type& inter_val, iterator& it_);
Chris@16	394 void add_rear(const interval_type& inter_val, iterator& it_);
Chris@16	395
Chris@16	396 protected:
Chris@16	397 sub_type* that() { return static_cast<sub_type*>(this); }
Chris@16	398 const sub_type* that()const { return static_cast<const sub_type*>(this); }
Chris@16	399
Chris@16	400 protected:
Chris@16	401 ImplSetT _set;
Chris@16	402 } ;
Chris@16	403
Chris@16	404
Chris@16	405 template <class SubType, class DomainT, ICL_COMPARE Compare, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	406 inline void interval_base_set<SubType,DomainT,Compare,Interval,Alloc>
Chris@16	407 ::add_front(const interval_type& inter_val, iterator& first_)
Chris@16	408 {
Chris@16	409 // If the collision sequence has a left residual 'left_resid' it will
Chris@16	410 // be split, to provide a standardized start of algorithms:
Chris@16	411 // The addend interval 'inter_val' covers the beginning of the collision sequence.
Chris@16	412
Chris@16	413 // only for the first there can be a left_resid: a part of *first_ left of inter_val
Chris@16	414 interval_type left_resid = right_subtract(*first_, inter_val);
Chris@16	415
Chris@16	416 if(!icl::is_empty(left_resid))
Chris@16	417 { // [------------ . . .
Chris@16	418 // [left_resid---first_ --- . . .
Chris@16	419 iterator prior_ = cyclic_prior(*this, first_);
Chris@16	420 const_cast<interval_type&>(first_) = left_subtract(first_, left_resid);
Chris@16	421 //NOTE: Only splitting
Chris@16	422 this->_set.insert(prior_, left_resid);
Chris@16	423 }
Chris@16	424
Chris@16	425 //POST:
Chris@16	426 // [----- inter_val ---- . . .
Chris@16	427 // ...[-- first_ --...
Chris@16	428 }
Chris@16	429
Chris@16	430 template <class SubType, class DomainT, ICL_COMPARE Compare, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	431 inline void interval_base_set<SubType,DomainT,Compare,Interval,Alloc>
Chris@16	432 ::add_segment(const interval_type& inter_val, iterator& it_)
Chris@16	433 {
Chris@16	434 interval_type lead_gap = right_subtract(inter_val, *it_);
Chris@16	435 if(!icl::is_empty(lead_gap))
Chris@16	436 // [lead_gap--- . . .
Chris@16	437 // [prior_) [-- it_ ...
Chris@16	438 this->_set.insert(prior(it_), lead_gap);
Chris@16	439
Chris@16	440 // . . . --------- . . . addend interval
Chris@16	441 // [-- it_ --) has a common part with the first overval
Chris@16	442 ++it_;
Chris@16	443 }
Chris@16	444
Chris@16	445 template <class SubType, class DomainT, ICL_COMPARE Compare, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	446 inline void interval_base_set<SubType,DomainT,Compare,Interval,Alloc>
Chris@16	447 ::add_main(interval_type& rest_interval, iterator& it_, const iterator& last_)
Chris@16	448 {
Chris@16	449 interval_type cur_interval;
Chris@16	450 while(it_ != last_)
Chris@16	451 {
Chris@16	452 cur_interval = *it_ ;
Chris@16	453 add_segment(rest_interval, it_);
Chris@16	454 // shrink interval
Chris@16	455 rest_interval = left_subtract(rest_interval, cur_interval);
Chris@16	456 }
Chris@16	457 }
Chris@16	458
Chris@16	459 template <class SubType, class DomainT, ICL_COMPARE Compare, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	460 inline void interval_base_set<SubType,DomainT,Compare,Interval,Alloc>
Chris@16	461 ::add_rear(const interval_type& inter_val, iterator& it_)
Chris@16	462 {
Chris@16	463 iterator prior_ = cyclic_prior(*this, it_);
Chris@16	464 interval_type cur_itv = *it_;
Chris@16	465
Chris@16	466 interval_type lead_gap = right_subtract(inter_val, cur_itv);
Chris@16	467 if(!icl::is_empty(lead_gap))
Chris@16	468 // [lead_gap--- . . .
Chris@16	469 // [prior_) [-- it_ ...
Chris@16	470 this->_set.insert(prior_, lead_gap);
Chris@16	471
Chris@16	472 interval_type end_gap = left_subtract(inter_val, cur_itv);
Chris@16	473 if(!icl::is_empty(end_gap))
Chris@16	474 // [---------------end_gap)
Chris@16	475 // [-- it_ --)
Chris@16	476 it_ = this->_set.insert(it_, end_gap);
Chris@16	477 else
Chris@16	478 {
Chris@16	479 // only for the last there can be a right_resid: a part of *it_ right of addend
Chris@16	480 interval_type right_resid = left_subtract(cur_itv, inter_val);
Chris@16	481
Chris@16	482 if(!icl::is_empty(right_resid))
Chris@16	483 {
Chris@16	484 // [--------------)
Chris@16	485 // [-- it_ --right_resid)
Chris@16	486 const_cast<interval_type&>(it_) = right_subtract(it_, right_resid);
Chris@16	487 it_ = this->_set.insert(it_, right_resid);
Chris@16	488 }
Chris@16	489 }
Chris@16	490 }
Chris@16	491
Chris@16	492 //==============================================================================
Chris@16	493 //= Addition
Chris@16	494 //==============================================================================
Chris@16	495 template <class SubType, class DomainT, ICL_COMPARE Compare, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	496 inline typename interval_base_set<SubType,DomainT,Compare,Interval,Alloc>::iterator
Chris@16	497 interval_base_set<SubType,DomainT,Compare,Interval,Alloc>
Chris@16	498 ::_add(const segment_type& addend)
Chris@16	499 {
Chris@16	500 if(icl::is_empty(addend))
Chris@16	501 return this->_set.end();
Chris@16	502
Chris@16	503 std::pair<iterator,bool> insertion = this->_set.insert(addend);
Chris@16	504
Chris@16	505 if(insertion.second)
Chris@16	506 return that()->handle_inserted(insertion.first);
Chris@16	507 else
Chris@16	508 return that()->add_over(addend, insertion.first);
Chris@16	509 }
Chris@16	510
Chris@16	511 template <class SubType, class DomainT, ICL_COMPARE Compare, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	512 inline typename interval_base_set<SubType,DomainT,Compare,Interval,Alloc>::iterator
Chris@16	513 interval_base_set<SubType,DomainT,Compare,Interval,Alloc>
Chris@16	514 ::_add(iterator prior_, const segment_type& addend)
Chris@16	515 {
Chris@16	516 if(icl::is_empty(addend))
Chris@16	517 return prior_;
Chris@16	518
Chris@16	519 iterator insertion = this->_set.insert(prior_, addend);
Chris@16	520
Chris@16	521 if(*insertion == addend)
Chris@16	522 return that()->handle_inserted(insertion);
Chris@16	523 else
Chris@16	524 return that()->add_over(addend);
Chris@16	525 }
Chris@16	526
Chris@16	527 //==============================================================================
Chris@16	528 //= Subtraction
Chris@16	529 //==============================================================================
Chris@16	530 template <class SubType, class DomainT, ICL_COMPARE Compare, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	531 inline SubType& interval_base_set<SubType,DomainT,Compare,Interval,Alloc>
Chris@16	532 ::subtract(const segment_type& minuend)
Chris@16	533 {
Chris@16	534 if(icl::is_empty(minuend))
Chris@16	535 return *that();
Chris@16	536
Chris@16	537 std::pair<iterator, iterator> exterior = equal_range(minuend);
Chris@16	538 if(exterior.first == exterior.second)
Chris@16	539 return *that();
Chris@16	540
Chris@16	541 iterator first_ = exterior.first;
Chris@16	542 iterator end_ = exterior.second;
Chris@16	543 iterator last_ = prior(end_);
Chris@16	544
Chris@16	545 interval_type left_resid = right_subtract(*first_, minuend);
Chris@16	546 interval_type right_resid;
Chris@16	547 if(first_ != end_)
Chris@16	548 right_resid = left_subtract(*last_ , minuend);
Chris@16	549
Chris@16	550 this->_set.erase(first_, end_);
Chris@16	551
Chris@16	552 if(!icl::is_empty(left_resid))
Chris@16	553 this->_set.insert(left_resid);
Chris@16	554
Chris@16	555 if(!icl::is_empty(right_resid))
Chris@16	556 this->_set.insert(right_resid);
Chris@16	557
Chris@16	558 return *that();
Chris@16	559 }
Chris@16	560
Chris@16	561 //-----------------------------------------------------------------------------
Chris@16	562 // type traits
Chris@16	563 //-----------------------------------------------------------------------------
Chris@16	564 template<class SubType,
Chris@16	565 class DomainT, ICL_COMPARE Compare, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	566 struct is_set<icl::interval_base_set<SubType,DomainT,Compare,Interval,Alloc> >
Chris@16	567 {
Chris@16	568 typedef is_set<icl::interval_base_set<SubType,DomainT,Compare,Interval,Alloc> > type;
Chris@16	569 BOOST_STATIC_CONSTANT(bool, value = true);
Chris@16	570 };
Chris@16	571
Chris@16	572 template<class SubType,
Chris@16	573 class DomainT, ICL_COMPARE Compare, ICL_INTERVAL(ICL_COMPARE) Interval, ICL_ALLOC Alloc>
Chris@16	574 struct is_interval_container<icl::interval_base_set<SubType,DomainT,Compare,Interval,Alloc> >
Chris@16	575 {
Chris@16	576 typedef is_interval_container<icl::interval_base_set<SubType,DomainT,Compare,Interval,Alloc> > type;
Chris@16	577 BOOST_STATIC_CONSTANT(bool, value = true);
Chris@16	578 };
Chris@16	579
Chris@16	580
Chris@16	581
Chris@16	582 }} // namespace icl boost
Chris@16	583
Chris@16	584 #endif
Chris@16	585
Chris@16	586

Mercurial > hg > vamp-build-and-test

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