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source: lemon-0.x/src/work/johanna/unionfind.h @ 397:b4d7b19b6740

Last change on this file since 397:b4d7b19b6740 was 394:3a34c5626e52, checked in by beckerjc, 21 years ago
New union-find structure with enumerable classes.
File size: 6.9 KB

Line
1	// -- c++ -- //
2	#ifndef HUGO_UNION_FIND_H
3	#define HUGO_UNION_FIND_H
4
5	#include <vector>
6	#include <list>
7	#include <utility>
8	#include <algorithm>
9
10	#include <invalid.h>
11
12	namespace hugo {
13
14	template <typename T, typename TIntMap>
15	class UnionFind {
16
17	public:
18	typedef T ElementType;
19	typedef std::pair<int,int> PairType;
20
21	private:
22	std::vector<PairType> data;
23	TIntMap& map;
24
25	public:
26	UnionFind(TIntMap& m) : map(m) {}
27
28
29	int find(T a)
30	{
31	int comp0 = map[a];
32	if (comp0 < 0) {
33	return insert(a);
34	}
35	int comp = comp0;
36	int next;
37	while ( (next = data[comp].first) != comp) {
38	comp = next;
39	}
40	while ( (next = data[comp0].first) != comp) {
41	data[comp0].first = comp;
42	comp0 = next;
43	}
44
45	return comp;
46	}
47
48	int insert(T a)
49	{
50	int n = data.size();
51	data.push_back(std::make_pair(n, 1));
52	map.set(a,n);
53	return n;
54	}
55
56	bool join(T a, T b)
57	{
58	int ca = find(a);
59	int cb = find(b);
60
61	if ( ca == cb )
62	return false;
63
64	if ( data[ca].second > data[cb].second ) {
65	data[cb].first = ca;
66	data[ca].second += data[cb].second;
67	}
68	else {
69	data[ca].first = cb;
70	data[cb].second += data[ca].second;
71	}
72	return true;
73	}
74
75	int size(T a)
76	{
77	int ca = find(a);
78	return data[ca].second;
79	}
80
81	};
82
83
84
85
86	/*******************************************************/
87
88
89
90	template <typename T>
91	struct UnionFindEnumItem {
92
93	typedef std::list<UnionFindEnumItem> ItemList;
94	typedef std::list<ItemList> ClassList;
95	typedef typename ItemList::iterator IIter;
96	typedef typename ClassList::iterator CIter;
97
98	T me;
99	IIter parent;
100	int size;
101	CIter my_class;
102
103	UnionFindEnumItem() {}
104	UnionFindEnumItem(const T &_me, CIter _my_class):
105	me(_me), size(1), my_class(_my_class) {}
106	};
107
108	template <typename T, template <typename Item> class Map>
109	class UnionFindEnum {
110
111	typedef std::list<UnionFindEnumItem<T> > ItemList;
112	typedef std::list<ItemList> ClassList;
113	typedef typename ItemList::iterator IIter;
114	typedef typename ItemList::const_iterator IcIter;
115	typedef typename ClassList::iterator CIter;
116	typedef typename ClassList::const_iterator CcIter;
117
118	public:
119	typedef T ElementType;
120	typedef UnionFindEnumItem<T> ItemType;
121	typedef Map< IIter > MapType;
122
123	private:
124	MapType& m;
125	ClassList classes;
126
127	// IIter where(const T &a) { return m[a]; }
128	// IIter parent(IIter a) { return a->parent; }
129	// P sibling(P a) { return &m[a->sibling]; }
130
131	IIter _find(IIter a) const {
132	IIter comp = a;
133	IIter next;
134	while( (next = comp->parent) != comp ) {
135	comp = next;
136	}
137
138	IIter comp1 = a;
139	while( (next = comp1->parent) != comp ) {
140	comp1->parent = comp->parent;
141	comp1 = next;
142	}
143	return comp;
144	}
145
146	public:
147	UnionFindEnum(MapType& _m) : m(_m) {}
148
149	void insert(const T &a)
150	{
151
152
153	classes.push_back(ItemList());
154	CIter aclass = classes.end();
155	--aclass;
156
157	ItemList &alist = *aclass;
158	alist.push_back(ItemType(a, aclass));
159	IIter ai = alist.begin();
160
161	ai->parent = ai;
162	m.set(a, ai);
163
164	}
165
166	T find(const T &a) const {
167	return _find(m[a])->me;
168	}
169
170	bool join(T a, T b) {
171
172	IIter ca = _find(m[a]);
173	IIter cb = _find(m[b]);
174
175	if ( ca == cb ) {
176	return false;
177	}
178
179	if ( ca->size > cb->size ) {
180
181	cb->parent = ca->parent;
182	ca->size += cb->size;
183
184	ItemList &alist = *ca->my_class;
185	alist.splice(alist.end(),*cb->my_class);
186
187	classes.erase(cb->my_class);
188	cb->my_class = 0;
189	}
190	else {
191
192	ca->parent = cb->parent;
193	cb->size += ca->size;
194
195	ItemList &blist = *cb->my_class;
196	blist.splice(blist.end(),*ca->my_class);
197
198	classes.erase(ca->my_class);
199	ca->my_class = 0;
200	}
201
202	return true;
203	}
204
205	int size(const T &a) const {
206	return _find(m[a])->size;
207	}
208
209
210	void split(const T &a) {
211
212	IIter ca = _find(m[a]);
213
214	if ( ca->size == 1 )
215	return;
216
217	CIter aclass = ca->my_class;
218
219	for(IIter curr = ca; ++curr != aclass->end(); curr=ca) {
220	classes.push_back(ItemList());
221	CIter nl = --classes.end();
222	nl->splice(nl->end(), *aclass, curr);
223
224	curr->size=1;
225	curr->parent=curr;
226	curr->my_class = nl;
227	}
228
229	ca->size=1;
230	return;
231	}
232
233	void erase(const T &a) {
234
235	IIter ma = m[a];
236	if (ma == 0) return;
237
238	IIter la = _find(ma);
239	if (la == ma) {
240	if (ma -> size == 1){
241	classes.erase(ma->my_class);
242	m.set(a,0);
243	return;
244	}
245	++la;
246	la->size = ma->size - 1;
247	la->my_class = ma->my_class;
248	}
249
250	for (IIter i = la; i != la->my_class->end(); ++i) {
251	i->parent = la;
252	}
253
254	la->my_class->erase(ma);
255	m.set(a,0);
256	}
257
258	void eraseClass(const T &a) {
259	IIter ma = m[a];
260	if (ma == 0) return;
261	# ifdef DEBUG
262	CIter c = _find(ma)->my_class;
263	for (IIter i=c->begin(); i!=c->end(); ++i)
264	m.set(i->me, 0);
265	# endif
266	classes.erase(_find(ma)->my_class);
267	}
268
269
270	class ClassIt {
271	friend class UnionFindEnum;
272
273	CcIter i;
274	public:
275	ClassIt(Invalid): i(0) {}
276	ClassIt() {}
277
278	operator const T& () const {
279	ItemList const &ll = *i;
280	return (ll.begin())->me; }
281	bool operator == (ClassIt it) const {
282	return (i == it.i);
283	}
284	bool operator != (ClassIt it) const {
285	return (i != it.i);
286	}
287	bool operator < (ClassIt it) const {
288	return (i < it.i);
289	}
290
291	bool valid() const { return i != 0; }
292	private:
293	void first(const ClassList &l) { i = l.begin(); validate(l); }
294	void next(const ClassList &l) {
295	++i;
296	validate(l);
297	}
298	void validate(const ClassList &l) {
299	if ( i == l.end() )
300	i = 0;
301	}
302	};
303
304
305	ClassIt& first(ClassIt& it) const {
306	it.first(classes);
307	return it;
308	}
309
310	bool valid(ClassIt const &it) const {
311	return it.valid();
312	}
313
314	ClassIt& next(ClassIt& it) const {
315	it.next(classes);
316	return it;
317	}
318
319
320	class ItemIt {
321	friend class UnionFindEnum;
322
323	IcIter i;
324	const ItemList *l;
325	public:
326	ItemIt(Invalid): i(0) {}
327	ItemIt() {}
328
329	operator const T& () const { return i->me; }
330	bool operator == (ItemIt it) const {
331	return (i == it.i);
332	}
333	bool operator != (ItemIt it) const {
334	return (i != it.i);
335	}
336	bool operator < (ItemIt it) const {
337	return (i < it.i);
338	}
339
340	bool valid() const { return i != 0; }
341	private:
342	void first(const ItemList &il) { l=&il; i = l->begin(); validate(); }
343	void next() {
344	++i;
345	validate();
346	}
347	void validate() {
348	if ( i == l->end() )
349	i = 0;
350	}
351	};
352
353
354	ItemIt& first(ItemIt& it, const T& a) const {
355	it.first( * _find(m[a])->my_class );
356	return it;
357	}
358
359	bool valid(ItemIt const &it) const {
360	return it.valid();
361	}
362
363	ItemIt& next(ItemIt& it) const {
364	it.next();
365	return it;
366	}
367
368
369
370	};
371
372	} //namespace hugo
373
374	#endif //HUGO_UNION_FIND_H

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