Small fixes in README.
3 * This file is a part of LEMON, a generic C++ optimization library
5 * Copyright (C) 2003-2008
6 * Egervary Jeno Kombinatorikus Optimalizalasi Kutatocsoport
7 * (Egervary Research Group on Combinatorial Optimization, EGRES).
9 * Permission to use, modify and distribute this software is granted
10 * provided that this copyright notice appears in all copies. For
11 * precise terms see the accompanying LICENSE file.
13 * This software is provided "AS IS" with no warranty of any kind,
14 * express or implied, and with no claim as to its suitability for any
19 #ifndef LEMON_MATRIX_MAPS_H
20 #define LEMON_MATRIX_MAPS_H
24 #include <lemon/bits/utility.h>
25 #include <lemon/bits/invalid.h>
26 #include <lemon/maps.h>
28 #include <lemon/concepts/matrix_maps.h>
32 /// \brief Maps indexed with pairs of items.
34 /// \todo This file has the same name as the concept file in concepts/,
35 /// and this is not easily detectable in docs...
38 /// \brief Map for the coloumn view of the matrix
41 /// Map for the coloumn view of the matrix.
43 template <typename _MatrixMap>
44 class MatrixRowMap : public MatrixMapTraits<_MatrixMap> {
46 typedef _MatrixMap MatrixMap;
47 typedef typename MatrixMap::SecondKey Key;
48 typedef typename MatrixMap::Value Value;
51 /// \brief Constructor of the row map
53 /// Constructor of the row map.
54 MatrixRowMap(MatrixMap& _matrix, typename MatrixMap::FirstKey _row)
55 : matrix(_matrix), row(_row) {}
57 /// \brief Subscription operator
59 /// Subscription operator.
60 typename MatrixMapTraits<MatrixMap>::ReturnValue
62 return matrix(row, col);
65 /// \brief Setter function
68 void set(Key col, const Value& val) {
69 matrix.set(row, col, val);
72 /// \brief Subscription operator
74 /// Subscription operator.
75 typename MatrixMapTraits<MatrixMap>::ConstReturnValue
76 operator[](Key col) const {
77 return matrix(row, col);
82 typename MatrixMap::FirstKey row;
85 /// \brief Map for the row view of the matrix
88 /// Map for the row view of the matrix.
90 template <typename _MatrixMap>
91 class ConstMatrixRowMap : public MatrixMapTraits<_MatrixMap> {
93 typedef _MatrixMap MatrixMap;
94 typedef typename MatrixMap::SecondKey Key;
95 typedef typename MatrixMap::Value Value;
98 /// \brief Constructor of the row map
100 /// Constructor of the row map.
101 ConstMatrixRowMap(const MatrixMap& _matrix,
102 typename MatrixMap::FirstKey _row)
103 : matrix(_matrix), row(_row) {}
105 /// \brief Subscription operator
107 /// Subscription operator.
108 typename MatrixMapTraits<MatrixMap>::ConstReturnValue
109 operator[](Key col) const {
110 return matrix(row, col);
114 const MatrixMap& matrix;
115 typename MatrixMap::FirstKey row;
118 /// \ingroup matrices
120 /// \brief Gives back a row view of the matrix map
122 /// Gives back a row view of the matrix map.
125 /// \sa ConstMatrixRowMap
126 template <typename MatrixMap>
127 MatrixRowMap<MatrixMap> matrixRowMap(MatrixMap& matrixMap,
128 typename MatrixMap::FirstKey row) {
129 return MatrixRowMap<MatrixMap>(matrixMap, row);
132 template <typename MatrixMap>
133 ConstMatrixRowMap<MatrixMap>
134 matrixRowMap(const MatrixMap& matrixMap, typename MatrixMap::FirstKey row) {
135 return ConstMatrixRowMap<MatrixMap>(matrixMap, row);
138 /// \brief Map for the column view of the matrix
140 /// \ingroup matrices
141 /// Map for the column view of the matrix.
143 template <typename _MatrixMap>
144 class MatrixColMap : public MatrixMapTraits<_MatrixMap> {
146 typedef _MatrixMap MatrixMap;
147 typedef typename MatrixMap::FirstKey Key;
148 typedef typename MatrixMap::Value Value;
150 /// \brief Constructor of the column map
152 /// Constructor of the column map.
153 MatrixColMap(MatrixMap& _matrix, typename MatrixMap::SecondKey _col)
154 : matrix(_matrix), col(_col) {}
156 /// \brief Subscription operator
158 /// Subscription operator.
159 typename MatrixMapTraits<MatrixMap>::ReturnValue
160 operator[](Key row) {
161 return matrix(row, col);
164 /// \brief Setter function
167 void set(Key row, const Value& val) {
168 matrix.set(row, col, val);
171 /// \brief Subscription operator
173 /// Subscription operator.
174 typename MatrixMapTraits<MatrixMap>::ConstReturnValue
175 operator[](Key row) const {
176 return matrix(row, col);
181 typename MatrixMap::SecondKey col;
184 /// \brief Map for the column view of the matrix
186 /// \ingroup matrices
187 /// Map for the column view of the matrix.
189 template <typename _MatrixMap>
190 class ConstMatrixColMap : public MatrixMapTraits<_MatrixMap> {
192 typedef _MatrixMap MatrixMap;
193 typedef typename MatrixMap::FirstKey Key;
194 typedef typename MatrixMap::Value Value;
196 /// \brief Constructor of the column map
198 /// Constructor of the column map.
199 ConstMatrixColMap(const MatrixMap& _matrix,
200 typename MatrixMap::SecondKey _col)
201 : matrix(_matrix), col(_col) {}
203 /// \brief Subscription operator
205 /// Subscription operator.
206 typename MatrixMapTraits<MatrixMap>::ConstReturnValue
207 operator[](Key row) const {
208 return matrix(row, col);
212 const MatrixMap& matrix;
213 typename MatrixMap::SecondKey col;
216 /// \ingroup matrices
218 /// \brief Gives back a column view of the matrix map
220 /// Gives back a column view of the matrix map.
223 /// \sa ConstMatrixColMap
224 template <typename MatrixMap>
225 MatrixColMap<MatrixMap> matrixColMap(MatrixMap& matrixMap,
226 typename MatrixMap::SecondKey col) {
227 return MatrixColMap<MatrixMap>(matrixMap, col);
230 template <typename MatrixMap>
231 ConstMatrixColMap<MatrixMap>
232 matrixColMap(const MatrixMap& matrixMap, typename MatrixMap::SecondKey col) {
233 return ConstMatrixColMap<MatrixMap>(matrixMap, col);
236 /// \brief Container for store values for each ordered pair of graph items
238 /// \ingroup matrices
239 /// This data structure can strore for each pair of the same item
240 /// type a value. It increase the size of the container when the
241 /// associated graph modified, so it updated automaticly whenever
243 template <typename _Graph, typename _Item, typename _Value>
244 class DynamicMatrixMap
245 : protected ItemSetTraits<_Graph, _Item>::ItemNotifier::ObserverBase {
247 typedef typename ItemSetTraits<_Graph, _Item>::ItemNotifier::ObserverBase
250 typedef _Graph Graph;
253 typedef _Item FirstKey;
254 typedef _Item SecondKey;
255 typedef _Value Value;
257 typedef True ReferenceMapTag;
261 typedef std::vector<Value> Container;
265 typedef typename Container::reference Reference;
266 typedef typename Container::const_reference ConstReference;
268 /// \brief Creates an item matrix for the given graph
270 /// Creates an item matrix for the given graph.
271 DynamicMatrixMap(const Graph& _graph)
272 : values(size(_graph.maxId(Key()) + 1)) {
273 Parent::attach(_graph.notifier(Key()));
276 /// \brief Creates an item matrix for the given graph
278 /// Creates an item matrix for the given graph and assigns for each
279 /// pairs of keys the given parameter.
280 DynamicMatrixMap(const Graph& _graph, const Value& _val)
281 : values(size(_graph.maxId(Key()) + 1), _val) {
282 Parent::attach(_graph.notifier(Key()));
285 ///\brief The assignement operator.
287 ///It allow to assign a map to an other.
288 DynamicMatrixMap& operator=(const DynamicMatrixMap& _cmap){
289 return operator=<DynamicMatrixMap>(_cmap);
292 ///\brief Template assignement operator.
294 ///It copy the element of the given map to its own container. The
295 ///type of the two map shall be the same.
296 template <typename CMap>
297 DynamicMatrixMap& operator=(const CMap& _cmap){
298 checkConcept<concepts::ReadMatrixMap<FirstKey, SecondKey, Value>, CMap>();
299 typename Parent::Notifier* notifier = Parent::notifier();
301 for(notifier->first(first); first != INVALID;
302 notifier->next(first)){
303 for(notifier->first(second); second != INVALID;
304 notifier->next(second)){
305 set(first, second, _cmap(first, second));
311 /// \brief Gives back the value assigned to the \c first - \c second
314 /// Gives back the value assigned to the \c first - \c second ordered pair.
315 ConstReference operator()(const Key& first, const Key& second) const {
316 return values[index(Parent::notifier()->id(first),
317 Parent::notifier()->id(second))];
320 /// \brief Gives back the value assigned to the \c first - \c second
323 /// Gives back the value assigned to the \c first - \c second ordered pair.
324 Reference operator()(const Key& first, const Key& second) {
325 return values[index(Parent::notifier()->id(first),
326 Parent::notifier()->id(second))];
329 /// \brief Setter function for the matrix map.
331 /// Setter function for the matrix map.
332 void set(const Key& first, const Key& second, const Value& val) {
333 values[index(Parent::notifier()->id(first),
334 Parent::notifier()->id(second))] = val;
339 static int index(int i, int j) {
343 return i * i + i + j;
347 static int size(int s) {
351 virtual void add(const Key& key) {
352 if (size(Parent::notifier()->id(key) + 1) >= int(values.size())) {
353 values.resize(size(Parent::notifier()->id(key) + 1));
357 virtual void add(const std::vector<Key>& keys) {
359 for (int i = 0; i < int(keys.size()); ++i) {
360 if (size(Parent::notifier()->id(keys[i]) + 1) >= new_size) {
361 new_size = size(Parent::notifier()->id(keys[i]) + 1);
364 if (new_size > int(values.size())) {
365 values.resize(new_size);
369 virtual void erase(const Key&) {}
371 virtual void erase(const std::vector<Key>&) {}
373 virtual void build() {
374 values.resize(size(Parent::notifier()->maxId() + 1));
377 virtual void clear() {
382 std::vector<Value> values;
385 /// \brief Container for store values for each unordered pair of graph items
387 /// \ingroup matrices
388 /// This data structure can strore for each pair of the same item
389 /// type a value. It increase the size of the container when the
390 /// associated graph modified, so it updated automaticly whenever
392 template <typename _Graph, typename _Item, typename _Value>
393 class DynamicSymMatrixMap
394 : protected ItemSetTraits<_Graph, _Item>::ItemNotifier::ObserverBase {
396 typedef typename ItemSetTraits<_Graph, _Item>::ItemNotifier::ObserverBase
399 typedef _Graph Graph;
402 typedef _Item FirstKey;
403 typedef _Item SecondKey;
404 typedef _Value Value;
406 typedef True ReferenceMapTag;
410 typedef std::vector<Value> Container;
414 typedef typename Container::reference Reference;
415 typedef typename Container::const_reference ConstReference;
417 /// \brief Creates an item matrix for the given graph
419 /// Creates an item matrix for the given graph.
420 DynamicSymMatrixMap(const Graph& _graph)
421 : values(size(_graph.maxId(Key()) + 1)) {
422 Parent::attach(_graph.notifier(Key()));
425 /// \brief Creates an item matrix for the given graph
427 /// Creates an item matrix for the given graph and assigns for each
428 /// pairs of keys the given parameter.
429 DynamicSymMatrixMap(const Graph& _graph, const Value& _val)
430 : values(size(_graph.maxId(Key()) + 1), _val) {
431 Parent::attach(_graph.notifier(Key()));
435 ///\brief The assignement operator.
437 ///It allow to assign a map to an other.
439 DynamicSymMatrixMap& operator=(const DynamicSymMatrixMap& _cmap){
440 return operator=<DynamicSymMatrixMap>(_cmap);
443 ///\brief Template assignement operator.
445 ///It copy the element of the given map to its own container. The
446 ///type of the two map shall be the same.
447 template <typename CMap>
448 DynamicSymMatrixMap& operator=(const CMap& _cmap){
449 checkConcept<concepts::ReadMatrixMap<FirstKey, SecondKey, Value>, CMap>();
450 typename Parent::Notifier* notifier = Parent::notifier();
452 for(notifier->first(first); first != INVALID;
453 notifier->next(first)){
454 for(notifier->first(second); second != first;
455 notifier->next(second)){
456 set(first, second, _cmap(first, second));
458 set(first, first, _cmap(first, first));
463 /// \brief Gives back the value assigned to the \c first - \c second
466 /// Gives back the value assigned to the \c first - \c second unordered
468 ConstReference operator()(const Key& first, const Key& second) const {
469 return values[index(Parent::notifier()->id(first),
470 Parent::notifier()->id(second))];
473 /// \brief Gives back the value assigned to the \c first - \c second
476 /// Gives back the value assigned to the \c first - \c second unordered
478 Reference operator()(const Key& first, const Key& second) {
479 return values[index(Parent::notifier()->id(first),
480 Parent::notifier()->id(second))];
483 /// \brief Setter function for the matrix map.
485 /// Setter function for the matrix map.
487 void set(const Key& first, const Key& second, const Value& val) {
488 values[index(Parent::notifier()->id(first),
489 Parent::notifier()->id(second))] = val;
494 static int index(int i, int j) {
496 return j * (j + 1) / 2 + i;
498 return i * (i + 1) / 2 + j;
502 static int size(int s) {
503 return s * (s + 1) / 2;
506 virtual void add(const Key& key) {
507 if (size(Parent::notifier()->id(key) + 1) >= int(values.size())) {
508 values.resize(size(Parent::notifier()->id(key) + 1));
512 virtual void add(const std::vector<Key>& keys) {
514 for (int i = 0; i < int(keys.size()); ++i) {
515 if (size(Parent::notifier()->id(keys[i]) + 1) >= new_size) {
516 new_size = size(Parent::notifier()->id(keys[i]) + 1);
519 if (new_size > int(values.size())) {
520 values.resize(new_size);
524 virtual void erase(const Key&) {}
526 virtual void erase(const std::vector<Key>&) {}
528 virtual void build() {
529 values.resize(size(Parent::notifier()->maxId() + 1));
532 virtual void clear() {
537 std::vector<Value> values;
540 ///\brief Dynamic Asymmetric Matrix Map.
543 ///Dynamic Asymmetric Matrix Map. Container for store values for each
544 ///ordered pair of containers items. This data structure can store
545 ///data with different key types from different container types. It
546 ///increases the size of the container if the linked containers
547 ///content change, so it is updated automaticly whenever it is
550 ///This map meet with the concepts::ReferenceMatrixMap<typename K1,
551 ///typename K2, typename V, typename R, typename CR> called as
552 ///"ReferenceMatrixMap".
554 ///\warning Do not use this map type when the two item sets are
555 ///equal or based on the same item set.
557 ///\param _FirstContainer the desired type of first container. It is
558 ///ususally a Graph type, but can be any type with alteration
561 ///\param _FirstContainerItem the nested type of the
562 ///FirstContainer. It is usually a graph item as Node, Edge,
563 ///etc. This type will be the FirstKey type.
565 ///\param _SecondContainer the desired type of the second
566 ///container. It is usualy a Graph type, but can be any type with
567 ///alteration property.
569 ///\param _SecondContainerItem the nested type of the
570 ///SecondContainer. It is usually a graph item such as Node, Edge,
571 ///UEdge, etc. This type will be the SecondKey type.
573 ///\param _Value the type of the strored values in the container.
575 /// \author Janos Nagy
576 template <typename _FirstContainer, typename _FirstContainerItem,
577 typename _SecondContainer, typename _SecondContainerItem,
579 class DynamicAsymMatrixMap{
582 ///The first key type.
583 typedef _FirstContainerItem FirstKey;
585 ///The second key type.
586 typedef _SecondContainerItem SecondKey;
588 ///The value type of the map.
589 typedef _Value Value;
591 ///Indicates it is a reference map.
592 typedef True ReferenceMapTag;
596 ///\brief Proxy class for the first key type.
598 ///The proxy class belongs to the FirstKey type. It is necessary because
599 ///if one want use the same conatainer types and same nested types but on
600 ///other instances of containers than due to the type equiality of nested
601 ///types it requires a proxy mechanism.
604 ItemSetTraits<_FirstContainer,_FirstContainerItem>::
605 ItemNotifier::ObserverBase
610 friend class DynamicAsymMatrixMap;
613 FirstKeyProxy(DynamicAsymMatrixMap& _map) : _owner(_map) { }
616 ///\brief Add a new FirstKey to the map.
618 ///It adds a new FirstKey to the map. It is called by the
619 ///observer notifier and it is ovverride the add() virtual
620 ///member function in the observer base. It will call the
621 ///maps addFirstKey() function.
622 virtual void add(const FirstKey& _firstKey){
623 _owner.addFirstKey(_firstKey);
626 ///\brief Add more new FirstKey to the map.
628 ///It adds more new FirstKey to the map. It is called by the
629 ///observer notifier and it is ovverride the add() virtual
630 ///member function in the observer base. It will call the
631 ///map's addFirstKeys() function.
632 virtual void add(const std::vector<FirstKey>& _firstKeys){
633 _owner.addFirstKeys(_firstKeys);
636 ///\brief Erase a FirstKey from the map.
638 ///Erase a FirstKey from the map. It called by the observer
639 ///notifier and it overrides the erase() virtual member
640 ///function of the observer base. It will call the map's
641 ///eraseFirstKey() function.
642 virtual void erase(const FirstKey& _firstKey){
643 _owner.eraseFirstKey(_firstKey);
646 ///\brief Erase more FirstKey from the map.
648 ///Erase more FirstKey from the map. It called by the
649 ///observer notifier and it overrides the erase() virtual
650 ///member function of the observer base. It will call the
651 ///map's eraseFirstKeys() function.
652 virtual void erase(const std::vector<FirstKey>& _firstKeys){
653 _owner.eraseFirstKeys(_firstKeys);
656 ///\brief Builds the map.
658 ///It buildes the map. It called by the observer notifier
659 ///and it overrides the build() virtual member function of
660 ///the observer base. It will call the map's build()
662 virtual void build() {
664 //_owner.buildFirst();
667 ///\brief Clear the map.
669 ///It erases all items from the map. It called by the
670 ///observer notifier and it overrides the clear() virtual
671 ///memeber function of the observer base. It will call the
672 ///map's clear() function.
673 virtual void clear() {
675 //_owner.clearFirst();
679 ///The map type for it is linked.
680 DynamicAsymMatrixMap& _owner;
681 };//END OF FIRSTKEYPROXY
683 ///\brief Proxy class for the second key type.
685 ///The proxy class belongs to the SecondKey type. It is
686 ///necessary because if one want use the same conatainer types
687 ///and same nested types but on other instances of containers
688 ///than due to the type equiality of nested types it requires a
692 ItemSetTraits<_SecondContainer, _SecondContainerItem>::
693 ItemNotifier::ObserverBase {
697 friend class DynamicAsymMatrixMap;
699 SecondKeyProxy(DynamicAsymMatrixMap& _map) : _owner(_map) { }
703 ///\brief Add a new SecondKey to the map.
705 ///It adds a new SecondKey to the map. It is called by the
706 ///observer notifier and it is ovverride the add() virtual
707 ///member function in the observer base. It will call the
708 ///maps addSecondKey() function.
709 virtual void add(const SecondKey& _secondKey){
710 _owner.addSecondKey(_secondKey);
713 ///\brief Add more new SecondKey to the map.
715 ///It adds more new SecondKey to the map. It is called by
716 ///the observer notifier and it is ovverride the add()
717 ///virtual member function in the observer base. It will
718 ///call the maps addSecondKeys() function.
719 virtual void add(const std::vector<SecondKey>& _secondKeys){
720 _owner.addSecondKeys(_secondKeys);
723 ///\brief Erase a SecondKey from the map.
725 ///Erase a SecondKey from the map. It called by the observer
726 ///notifier and it overrides the erase() virtual member
727 ///function of the observer base. It will call the map's
728 ///eraseSecondKey() function.
729 virtual void erase(const SecondKey& _secondKey){
730 _owner.eraseSecondKey(_secondKey);
733 ///\brief Erase more SecondKeys from the map.
735 ///Erase more SecondKey from the map. It called by the
736 ///observer notifier and it overrides the erase() virtual
737 ///member function of the observer base. It will call the
738 ///map's eraseSecondKeys() function.
739 virtual void erase(const std::vector<SecondKey>& _secondKeys){
740 _owner.eraseSecondKeys(_secondKeys);
743 ///\brief Builds the map.
745 ///It buildes the map. It called by the observer notifier
746 ///and it overrides the build() virtual member function of
747 ///the observer base. It will call the map's build()
749 virtual void build() {
753 ///\brief Clear the map.
755 ///It erases all items from the map. It called by the
756 ///observer notifier and it overrides the clear() virtual
757 ///memeber function of the observer base. It will call the
758 ///map's clear() function.
759 virtual void clear() {
761 //_owner.clearFirst();
765 ///The type of map for which it is attached.
766 DynamicAsymMatrixMap& _owner;
767 };//END OF SECONDKEYPROXY
772 typedef std::vector<Value> Container;
774 ///The type of constainer which stores the values of the map.
775 typedef std::vector<Container> DContainer;
777 ///The std:vector type which contains the data
780 ///Member for the first proxy class
781 FirstKeyProxy _first_key_proxy;
783 ///Member for the second proxy class
784 SecondKeyProxy _second_key_proxy;
788 ///The refernce type of the map.
789 typedef typename Container::reference Reference;
791 ///The const reference type of the constainer.
792 typedef typename Container::const_reference ConstReference;
794 ///\brief Constructor what create the map for the two containers type.
796 ///Creates the matrix map and initialize the values with Value()
797 DynamicAsymMatrixMap(const _FirstContainer& _firstContainer,
798 const _SecondContainer& _secondContainer)
799 : values(DContainer(_firstContainer.maxId(FirstKey())+1,
800 Container(_secondContainer.maxId(SecondKey())+1))),
801 _first_key_proxy(*this),
802 _second_key_proxy(*this)
804 _first_key_proxy.attach(_firstContainer.notifier(FirstKey()));
805 _second_key_proxy.attach(_secondContainer.notifier(SecondKey()));
808 ///\brief Constructor what create the map for the two containers type.
810 ///Creates the matrix map and initialize the values with the given _value
811 DynamicAsymMatrixMap(const _FirstContainer& _firstContainer,
812 const _SecondContainer& _secondContainer,
814 : values(DContainer(_firstContainer.maxId(FirstKey())+1,
815 Container(_secondContainer.maxId(SecondKey())+1,
817 _first_key_proxy(*this),
818 _second_key_proxy(*this)
820 _first_key_proxy.attach(_firstContainer.notifier(FirstKey()));
821 _second_key_proxy.attach(_secondContainer.notifier(SecondKey()));
824 ///\brief Copy constructor.
826 ///The copy constructor of the map.
827 DynamicAsymMatrixMap(const DynamicAsymMatrixMap& _copy)
828 : _first_key_proxy(*this), _second_key_proxy(*this) {
829 if(_copy._first_key_proxy.attached() &&
830 _copy._second_key_proxy.attached()){
831 _first_key_proxy.attach(*_copy._first_key_proxy.notifier());
832 _second_key_proxy.attach(*_copy._second_key_proxy.notifier());
833 values = _copy.values;
839 ///Destructor what detach() from the attached objects. May this
840 ///function is not necessary because the destructor of
841 ///ObserverBase do the same.
842 ~DynamicAsymMatrixMap() {
843 if(_first_key_proxy.attached()){
844 _first_key_proxy.detach();
846 if(_second_key_proxy.attached()){
847 _second_key_proxy.detach();
851 ///\brief Gives back the value assigned to the \c first - \c
852 ///second ordered pair.
854 ///Gives back the value assigned to the \c first - \c second
856 Reference operator()(const FirstKey& _first, const SecondKey& _second) {
857 return values[_first_key_proxy.notifier()->id(_first)]
858 [_second_key_proxy.notifier()->id(_second)];
861 ///\brief Gives back the value assigned to the \c first - \c
862 ///second ordered pair.
864 ///Gives back the value assigned to the \c first - \c second
866 ConstReference operator()(const FirstKey& _first,
867 const SecondKey& _second) const {
868 return values[_first_key_proxy.notifier()->id(_first)]
869 [_second_key_proxy.notifier()->id(_second)];
872 ///\brief Setter function for this matrix map.
874 ///Setter function for this matrix map.
875 void set(const FirstKey& first, const SecondKey& second,
877 values[_first_key_proxy.notifier()->id(first)]
878 [_second_key_proxy.notifier()->id(second)] = value;
881 ///\brief The assignement operator.
883 ///It allow to assign a map to an other. It
884 DynamicAsymMatrixMap& operator=(const DynamicAsymMatrixMap& _cmap){
885 return operator=<DynamicAsymMatrixMap>(_cmap);
888 ///\brief Template assignement operator.
890 ///It copy the element of the given map to its own container. The
891 ///type of the two map shall be the same.
892 template <typename CMap>
893 DynamicAsymMatrixMap& operator=(const CMap& _cdmap){
894 checkConcept<concepts::ReadMatrixMap<FirstKey, SecondKey, Value>, CMap>();
895 const typename FirstKeyProxy::Notifier* notifierFirstKey =
896 _first_key_proxy.notifier();
897 const typename SecondKeyProxy::Notifier* notifierSecondKey =
898 _second_key_proxy.notifier();
900 SecondKey itemSecond;
901 for(notifierFirstKey->first(itemFirst); itemFirst != INVALID;
902 notifierFirstKey->next(itemFirst)){
903 for(notifierSecondKey->first(itemSecond); itemSecond != INVALID;
904 notifierSecondKey->next(itemSecond)){
905 set(itemFirst, itemSecond, _cdmap(itemFirst,itemSecond));
913 ///\brief Add a new FirstKey to the map.
915 ///It adds a new FirstKey to the map. It is called by the observer
916 ///class belongs to the FirstKey type.
917 void addFirstKey(const FirstKey& firstKey) {
918 int size = int(values.size());
919 if( _first_key_proxy.notifier()->id(firstKey)+1 >= size ){
920 values.resize(_first_key_proxy.notifier()->id(firstKey)+1);
921 if( int(values[0].size()) != 0 ){
922 int innersize = int(values[0].size());
923 for(int i = size; i < int(values.size());++i){
924 (values[i]).resize(innersize);
926 }else if(_second_key_proxy.notifier()->maxId() >= 0){
927 int innersize = _second_key_proxy.notifier()->maxId();
928 for(int i = 0; i < int(values.size()); ++i){
929 values[0].resize(innersize);
935 ///\brief Adds more new FirstKeys to the map.
937 ///It adds more new FirstKeys to the map. It called by the
938 ///observer class belongs to the FirstKey type.
939 void addFirstKeys(const std::vector<FirstKey>& firstKeys){
940 int max = values.size() - 1;
941 for(int i = 0; i < int(firstKeys.size()); ++i){
942 int id = _first_key_proxy.notifier()->id(firstKeys[i]);
947 int size = int(values.size());
949 values.resize(max + 1);
950 if( int(values[0].size()) != 0){
951 int innersize = int(values[0].size());
952 for(int i = size; i < (max + 1); ++i){
953 values[i].resize(innersize);
955 }else if(_second_key_proxy.notifier()->maxId() >= 0){
956 int innersize = _second_key_proxy.notifier()->maxId();
957 for(int i = 0; i < int(values.size()); ++i){
958 values[i].resize(innersize);
964 ///\brief Add a new SecondKey to the map.
966 ///It adds a new SecondKey to the map. It is called by the
967 ///observer class belongs to the SecondKey type.
968 void addSecondKey(const SecondKey& secondKey) {
969 if(values.size() == 0){
972 int id = _second_key_proxy.notifier()->id(secondKey);
973 if(id >= int(values[0].size())){
974 for(int i = 0; i < int(values.size());++i){
975 values[i].resize(id+1);
980 ///\brief Adds more new SecondKeys to the map.
982 ///It adds more new SecondKeys to the map. It called by the
983 ///observer class belongs to the SecondKey type.
984 void addSecondKeys(const std::vector<SecondKey>& secondKeys){
985 if(values.size() == 0){
988 int max = values[0].size();
989 for(int i = 0; i < int(secondKeys.size()); ++i){
990 int id = _second_key_proxy.notifier()->id(secondKeys[i]);
995 if(max > int(values[0].size())){
996 for(int i = 0; i < int(values.size()); ++i){
997 values[i].resize(max + 1);
1002 ///\brief Erase a FirstKey from the map.
1004 ///Erase a FirstKey from the map. It called by the observer
1005 ///class belongs to the FirstKey type.
1006 void eraseFirstKey(const FirstKey& first) {
1007 int id = _first_key_proxy.notifier()->id(first);
1008 for(int i = 0; i < int(values[id].size()); ++i){
1009 values[id][i] = Value();
1013 ///\brief Erase more FirstKey from the map.
1015 ///Erase more FirstKey from the map. It called by the observer
1016 ///class belongs to the FirstKey type.
1017 void eraseFirstKeys(const std::vector<FirstKey>& firstKeys) {
1018 for(int j = 0; j < int(firstKeys.size()); ++j){
1019 int id = _first_key_proxy.notifier()->id(firstKeys[j]);
1020 for(int i = 0; i < int(values[id].size()); ++i){
1021 values[id][i] = Value();
1026 ///\brief Erase a SecondKey from the map.
1028 ///Erase a SecondKey from the map. It called by the observer class
1029 ///belongs to the SecondKey type.
1030 void eraseSecondKey(const SecondKey& second) {
1031 if(values.size() == 0){
1034 int id = _second_key_proxy.notifier()->id(second);
1035 for(int i = 0; i < int(values.size()); ++i){
1036 values[i][id] = Value();
1040 ///\brief Erase more SecondKey from the map.
1042 ///Erase more SecondKey from the map. It called by the observer
1043 ///class belongs to the SecondKey type.
1044 void eraseSecondKeys(const std::vector<SecondKey>& secondKeys) {
1045 if(values.size() == 0){
1048 for(int j = 0; j < int(secondKeys.size()); ++j){
1049 int id = _second_key_proxy.notifier()->id(secondKeys[j]);
1050 for(int i = 0; i < int(values.size()); ++i){
1051 values[i][id] = Value();
1056 ///\brief Builds the map.
1058 ///It buildes the map. It is called by the observer class belongs
1059 ///to the FirstKey or SecondKey type.
1061 values.resize(_first_key_proxy.notifier()->maxId());
1062 for(int i = 0; i< int(values.size()); ++i){
1063 values[i].resize(_second_key_proxy.notifier()->maxId());
1067 ///\brief Clear the map.
1069 ///It erases all items from the map. It is called by the observer class
1070 ///belongs to the FirstKey or SecondKey type.
1072 for(int i = 0; i < int(values.size()); ++i) {