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1 /////////////////////////////////////////////////////////////////////////////
2 // Name: No names yet.
3 // Purpose: Contrib. demo
4 // Author: Aleksandras Gluchovas
5 // Modified by:
6 // Created: 27/09/98
7 // RCS-ID: $Id$
8 // Copyright: (c) Aleskandars Gluchovas
9 // Licence: wxWindows licence
10 /////////////////////////////////////////////////////////////////////////////
11
12 #ifndef __WXSTLAC_G__
13 #define __WXSTLAC_G__
14
15 #include <stddef.h>
16 #include <sys/types.h>
17 #include <memory.h>
18 #include <limits.h>
19 #include <new>
20
21
22 // the below macro used internally (see actual interface after this macro)
23
24 // arguments:
25 //
26 // ARG_IS_UNIQUE
27 // ASSOC_CONT_CLASS_NAME
28 //
29 // ARG_VALUE_TYPE
30 // ARG_KEY_TYPE
31 // ARG_ACTUAL_VALUE_TYPE
32 //
33 // _KEY_NAME
34 // _VALUE_NAME
35 //
36 // _X_KEY_NAME
37 // _X_VALUE_NAME
38 //
39 // _INSERT_METHOD_DEFINITION
40
41 #define __DEFINE_ASOC_CLASS( ARG_IS_UNIQUE, \
42 FUNCTOR,\
43 ASSOC_CONT_CLASS_NAME, \
44 ARG_VALUE_TYPE, \
45 ARG_KEY_TYPE, \
46 ARG_ACTUAL_VALUE_TYPE, \
47 _KEY_NAME, \
48 _VALUE_NAME, \
49 _X_KEY_NAME, \
50 _X_VALUE_NAME, \
51 _INSERT_METHOD_DEFINITION \
52 ) class \
53 ASSOC_CONT_CLASS_NAME\
54 {\
55 protected:\
56 \
57 public:\
58 typedef ARG_VALUE_TYPE value_type;\
59 typedef ARG_KEY_TYPE key_type;\
60 typedef ARG_ACTUAL_VALUE_TYPE actual_value_type;\
61 \
62 typedef value_type* pointer;\
63 typedef value_type& reference;\
64 \
65 typedef const value_type& const_reference;\
66 \
67 typedef FUNCTOR key_compare;\
68 typedef key_compare Compare;\
69 \
70 protected:\
71 \
72 struct tree_node \
73 {\
74 tree_node* mpParent;\
75 tree_node* mpLeft;\
76 tree_node* mpRight;\
77 \
78 value_type mData;\
79 };\
80 \
81 typedef tree_node* node_ref_type;\
82 \
83 node_ref_type mpRoot;\
84 node_ref_type mpLeftMost;\
85 node_ref_type mpRightMost;\
86 \
87 node_ref_type mpFreeListHead;\
88 int mKeyIsUnique;\
89 \
90 key_compare mCmpFunctorObj;\
91 \
92 public:\
93 \
94 static inline node_ref_type next( node_ref_type pNode )\
95 {\
96 if ( pNode->mpRight ) \
97 {\
98 pNode = pNode->mpRight;\
99 \
100 while ( pNode->mpLeft ) pNode = pNode->mpLeft;\
101 \
102 return pNode;\
103 }\
104 else\
105 if ( pNode->mpParent )\
106 {\
107 if ( pNode == pNode->mpParent->mpLeft )\
108 \
109 return pNode->mpParent;\
110 \
111 pNode = pNode->mpParent;\
112 \
113 node_ref_type prevNode = pNode;\
114 pNode = pNode->mpParent;\
115 \
116 while(pNode)\
117 {\
118 if ( pNode->mpRight &&\
119 pNode->mpRight != prevNode\
120 ) return pNode;\
121 \
122 prevNode = pNode;\
123 pNode= pNode->mpParent;\
124 }\
125 \
126 return 0;\
127 }\
128 else\
129 return 0;\
130 }\
131 \
132 static inline node_ref_type prev( node_ref_type pNode )\
133 {\
134 if ( pNode->mpLeft ) \
135 {\
136 pNode = pNode->mpLeft;\
137 \
138 while ( pNode->mpRight ) pNode = pNode->mpRight;\
139 \
140 return pNode;\
141 }\
142 else\
143 if ( pNode->mpParent )\
144 {\
145 if ( pNode == pNode->mpParent->mpRight )\
146 return pNode->mpParent;\
147 \
148 pNode = pNode->mpParent;\
149 \
150 node_ref_type prevNode = pNode;\
151 pNode = pNode->mpParent;\
152 \
153 while(pNode)\
154 {\
155 if ( pNode->mpLeft &&\
156 pNode->mpLeft != prevNode\
157 ) return pNode;\
158 \
159 prevNode = pNode;\
160 pNode= pNode->mpParent;\
161 }\
162 \
163 return 0;\
164 }\
165 else \
166 return 0;\
167 }\
168 \
169 protected:\
170 \
171 inline int are_equel( const key_type& x, const key_type& y ) const\
172 {\
173 mCmpFunctorObj(x,y);\
174 return ( !mCmpFunctorObj(x,y) && !mCmpFunctorObj(y,x) );\
175 }\
176 \
177 inline int is_less( const key_type& x, const key_type& y ) const\
178 {\
179 return mCmpFunctorObj(x,y);\
180 }\
181 \
182 static inline const actual_value_type& value( node_ref_type pNode )\
183 {\
184 return pNode->_VALUE_NAME;\
185 }\
186 \
187 static inline const key_type& key( node_ref_type pNode )\
188 {\
189 return pNode->_KEY_NAME;\
190 }\
191 \
192 inline node_ref_type AllocNode() \
193 { \
194 if ( mpFreeListHead ) \
195 {\
196 node_ref_type pFreeNode = mpFreeListHead;\
197 mpFreeListHead = mpFreeListHead->mpLeft;\
198 \
199 return pFreeNode;\
200 }\
201 else\
202 {\
203 char* pHeapBlock = new char[sizeof(tree_node)];\
204 \
205 return (node_ref_type)pHeapBlock;\
206 }\
207 }\
208 \
209 inline void DestroyFreeList()\
210 {\
211 while ( mpFreeListHead )\
212 {\
213 node_ref_type tmp = mpFreeListHead;\
214 mpFreeListHead = mpFreeListHead->mpLeft;\
215 \
216 delete [](char*)tmp;\
217 }\
218 }\
219 \
220 inline void RecycleNode( node_ref_type pNode ) \
221 {\
222 pNode->mpLeft = mpFreeListHead;\
223 mpFreeListHead = pNode;\
224 }\
225 \
226 inline node_ref_type do_insert(const value_type& x = value_type() )\
227 {\
228 node_ref_type pNewNode = AllocNode();\
229 \
230 pNewNode->mpParent = \
231 pNewNode->mpLeft =\
232 pNewNode->mpRight = 0;\
233 \
234 node_ref_type pCurrent = mpRoot;\
235 node_ref_type pParent = 0;\
236 \
237 while (pCurrent) \
238 {\
239 if ( mKeyIsUnique && are_equel( _X_KEY_NAME, key(pCurrent) ) )\
240 {\
241 RecycleNode(pNewNode);\
242 return 0;\
243 }\
244 \
245 pParent = pCurrent;\
246 \
247 pCurrent = is_less( _X_KEY_NAME, key(pCurrent) ) \
248 ? pCurrent->mpLeft \
249 : pCurrent->mpRight;\
250 }\
251 \
252 pNewNode->mpParent = pParent;\
253 \
254 if(pParent)\
255 \
256 if( is_less(_X_KEY_NAME, key(pParent) ) )\
257 \
258 pParent->mpLeft = pNewNode;\
259 else\
260 pParent->mpRight = pNewNode;\
261 else\
262 mpRoot = pNewNode;\
263 \
264 new ( &pNewNode->_KEY_NAME ) key_type(_X_KEY_NAME);\
265 new ( &pNewNode->_VALUE_NAME ) actual_value_type(_X_VALUE_NAME);\
266 \
267 if ( prev(pNewNode) == 0 ) mpLeftMost = pNewNode;\
268 if ( next(pNewNode) == 0 ) mpRightMost = pNewNode;\
269 \
270 return pNewNode;\
271 }\
272 \
273 friend class iterator;\
274 \
275 public:\
276 \
277 class iterator;\
278 class const_iterator;\
279 \
280 class iterator \
281 {\
282 public:\
283 node_ref_type mpNode;\
284 friend class CONT_CLASS_NAME;\
285 friend class const_iterator;\
286 friend class const_reverse_iterator;\
287 \
288 inline iterator( node_ref_type pNode )\
289 {\
290 mpNode = pNode;\
291 }\
292 \
293 public:\
294 inline iterator() {}\
295 inline int operator==( const iterator& rhs ) const { return (mpNode == rhs.mpNode); }\
296 inline int operator!=( const iterator& rhs ) const { return (mpNode != rhs.mpNode); }\
297 \
298 inline iterator( const iterator& other )\
299 {\
300 mpNode = other.mpNode;\
301 }\
302 \
303 inline const iterator& operator=( const iterator& other )\
304 {\
305 mpNode = other.mpNode;\
306 return *this;\
307 }\
308 \
309 inline const iterator& operator--() \
310 {\
311 mpNode = ASSOC_CONT_CLASS_NAME::prev(mpNode);\
312 return *this;\
313 }\
314 \
315 inline iterator operator--(int)\
316 {\
317 iterator tmp = *this;\
318 mpNode = ASSOC_CONT_CLASS_NAME::prev(mpNode);\
319 return tmp;\
320 }\
321 \
322 inline const iterator& operator++() \
323 {\
324 mpNode = ASSOC_CONT_CLASS_NAME::next(mpNode);\
325 return *this;\
326 }\
327 \
328 inline iterator operator++(int)\
329 {\
330 iterator tmp = *this;\
331 mpNode = ASSOC_CONT_CLASS_NAME::next(mpNode);\
332 return tmp;\
333 }\
334 \
335 inline reference operator*() const { return mpNode->mData; }\
336 };\
337 \
338 \
339 class const_iterator \
340 {\
341 public:\
342 node_ref_type mpNode;\
343 friend class CONT_CLASS_NAME;\
344 friend class const_reverse_iterator;\
345 \
346 inline const_iterator( node_ref_type pNode )\
347 {\
348 mpNode = pNode;\
349 }\
350 \
351 public:\
352 inline const_iterator() {}\
353 \
354 inline int operator==( const const_iterator& rhs ) const { return (mpNode == rhs.mpNode); }\
355 inline int operator!=( const const_iterator& rhs ) const { return (mpNode != rhs.mpNode); }\
356 \
357 inline const_iterator( const iterator& other )\
358 {\
359 mpNode = other.mpNode;\
360 }\
361 \
362 inline const_iterator( const const_iterator& other )\
363 {\
364 mpNode = other.mpNode;\
365 }\
366 \
367 inline const const_iterator& operator=( const const_iterator& other )\
368 {\
369 mpNode = other.mpNode;\
370 return *this;\
371 }\
372 \
373 inline const const_iterator& operator--() \
374 {\
375 mpNode = ASSOC_CONT_CLASS_NAME::prev(mpNode);\
376 return *this;\
377 }\
378 \
379 inline const_iterator operator--(int)\
380 {\
381 const_iterator tmp = *this;\
382 mpNode = ASSOC_CONT_CLASS_NAME::prev(mpNode);\
383 return tmp;\
384 }\
385 \
386 inline const const_iterator& operator++() \
387 {\
388 mpNode = ASSOC_CONT_CLASS_NAME::next(mpNode);\
389 return *this;\
390 }\
391 \
392 inline const_iterator operator++(int)\
393 {\
394 const_iterator tmp = *this;\
395 mpNode = ASSOC_CONT_CLASS_NAME::next(mpNode);\
396 return tmp;\
397 }\
398 \
399 inline const_reference operator*() const { return mpNode->mData; }\
400 };\
401 \
402 public:\
403 \
404 inline ASSOC_CONT_CLASS_NAME( key_compare cmpFunctorObj = key_compare(),\
405 int keyIsUnique = ARG_IS_UNIQUE )\
406 : mpFreeListHead( 0 ),\
407 mKeyIsUnique( keyIsUnique ),\
408 mCmpFunctorObj( cmpFunctorObj )\
409 {\
410 mpLeftMost = 0;\
411 mpRightMost = 0;\
412 mpRoot = 0;\
413 }\
414 \
415 inline ~ASSOC_CONT_CLASS_NAME() \
416 { \
417 erase( begin(), end() ); \
418 \
419 DestroyFreeList();\
420 }\
421 \
422 inline iterator begin() { return mpLeftMost; }\
423 inline iterator end() { return 0; }\
424 \
425 inline const_iterator begin() const { return mpLeftMost; }\
426 inline const_iterator end() const { return 0; }\
427 \
428 inline iterator lower_bound( const key_type& x )\
429 { \
430 node_ref_type pCurrent = mpRoot;\
431 \
432 while( pCurrent )\
433 {\
434 node_ref_type pParent = pCurrent;\
435 \
436 if( are_equel( x, key(pCurrent) ) )\
437 \
438 return (pCurrent);\
439 else\
440 pCurrent = is_less( x, key(pCurrent) ) \
441 ? pCurrent->mpLeft \
442 : pCurrent->mpRight;\
443 \
444 if ( !pCurrent ) return (pParent);\
445 }\
446 \
447 return begin();\
448 }\
449 \
450 inline const_iterator lower_bound( const key_type& x ) const\
451 \
452 { return const_iterator( lower_bound(x).mpNode ); }\
453 \
454 inline iterator upper_bound( const key_type& x )\
455 {\
456 node_ref_type pCurrent = mpRoot;\
457 \
458 while( pCurrent )\
459 {\
460 node_ref_type pParent = pCurrent;\
461 \
462 if( are_equel( x, key(pCurrent) ) )\
463 \
464 return (pCurrent);\
465 else\
466 pCurrent = is_less( x, key(pCurrent) ) \
467 ? pCurrent->mpLeft \
468 : pCurrent->mpRight;\
469 \
470 if ( !pCurrent ) return next(pParent);\
471 }\
472 \
473 return end();\
474 }\
475 \
476 inline iterator find( const key_type& x ) const\
477 {\
478 node_ref_type pCurrent = mpRoot;\
479 \
480 while( pCurrent )\
481 {\
482 if( are_equel( x, key(pCurrent) ) )\
483 \
484 return (pCurrent);\
485 else\
486 pCurrent = is_less( x, key(pCurrent) ) \
487 ? pCurrent->mpLeft \
488 : pCurrent->mpRight;\
489 }\
490 \
491 return iterator(0);\
492 }\
493 \
494 inline actual_value_type& operator[]( const key_type x ) const\
495 \
496 { return find(x).mpNode->_VALUE_NAME; }\
497 \
498 inline void erase(iterator first, iterator last)\
499 {\
500 if ( first.mpNode == 0 ) return;\
501 \
502 while( first != last ) \
503 {\
504 iterator next = first;\
505 ++next;\
506 erase( first );\
507 first = next;\
508 }\
509 }\
510 \
511 inline void erase(iterator position)\
512 {\
513 if ( position.mpNode == 0 ) return;\
514 \
515 node_ref_type pZ = position.mpNode;\
516 node_ref_type pX, pY;\
517 \
518 if ( pZ == mpLeftMost ) mpLeftMost = next(pZ);\
519 if ( pZ == mpRightMost ) mpRightMost = prev( pZ );\
520 \
521 if ( !pZ->mpLeft || !pZ->mpRight )\
522 \
523 pY = pZ;\
524 else \
525 {\
526 pY = pZ->mpRight;\
527 \
528 while (pY->mpLeft) \
529 \
530 pY = pY->mpLeft;\
531 }\
532 \
533 if ( pY->mpLeft)\
534 \
535 pX = pY->mpLeft;\
536 else\
537 pX = pY->mpRight;\
538 \
539 if ( pX ) pX->mpParent = pY->mpParent;\
540 \
541 if (pY->mpParent)\
542 \
543 if (pY == pY->mpParent->mpLeft )\
544 \
545 pY->mpParent->mpLeft = pX;\
546 else\
547 pY->mpParent->mpRight = pX;\
548 else\
549 mpRoot = pX;\
550 \
551 node_ref_type toRemove = 0;\
552 \
553 if (pY != pZ) {\
554 \
555 pY->mpLeft = pZ->mpLeft;\
556 \
557 if (pY->mpLeft) pY->mpLeft->mpParent = pY;\
558 \
559 pY->mpRight = pZ->mpRight;\
560 \
561 if ( pY->mpRight ) \
562 \
563 pY->mpRight->mpParent = pY;\
564 \
565 pY->mpParent = pZ->mpParent;\
566 \
567 if (pZ->mpParent)\
568 \
569 if (pZ == pZ->mpParent->mpLeft)\
570 \
571 pZ->mpParent->mpLeft = pY;\
572 else\
573 pZ->mpParent->mpRight = pY;\
574 else\
575 mpRoot = pY;\
576 \
577 toRemove = pZ;\
578 } \
579 else \
580 toRemove = pY;\
581 \
582 \
583 RecycleNode( toRemove );\
584 }\
585 \
586 _INSERT_METHOD_DEFINITION\
587 }
588
589 // do not undefine ___WXSTL_COMMA, where associated containers are defined!
590 // (it is used as workaround for constraints of C-Preprocessor's nested macros)
591
592 #define ___WXSTL_COMMA ,
593
594 #define __DEFINE_MAP(ARG_IS_UNIQUE, KEY_TYPE, VAL_TYPE, FUNCTOR ) __DEFINE_ASOC_CLASS( ARG_IS_UNIQUE,\
595 FUNCTOR,\
596 __WXSTLMAP_##KEY_TYPE##VAL_TYPE##ARG_IS_UNIQUE, \
597 struct key_value_pair { KEY_TYPE first ; \
598 VAL_TYPE second;\
599 key_value_pair() {}\
600 key_value_pair( const KEY_TYPE& key ___WXSTL_COMMA const VAL_TYPE& value ) \
601 : first(key) ___WXSTL_COMMA second( value ) {} \
602 } , \
603 KEY_TYPE,\
604 VAL_TYPE,\
605 mData.first, mData.second, x.first, x.second, \
606 struct insert_result_iterator\
607 {\
608 iterator first;\
609 int second;\
610 };\
611 inline insert_result_iterator insert( const value_type& x )\
612 {\
613 insert_result_iterator result;\
614 \
615 result.first = do_insert(x);\
616 result.second = ( result.first == end() ) ? 0 : 1;\
617 \
618 return result;\
619 } )
620
621 #define __DEFINE_SET(ARG_IS_UNIQUE, KEY_TYPE, FUNCTOR ) __DEFINE_ASOC_CLASS( ARG_IS_UNIQUE,\
622 FUNCTOR,\
623 __WXSTLSET_##TYPE##ARG_IS_UNIQUE, \
624 KEY_TYPE,\
625 KEY_TYPE,\
626 KEY_TYPE,\
627 mData, mData, x, x, \
628 struct insert_result_iterator\
629 {\
630 iterator first;\
631 int second;\
632 };\
633 inline insert_result_iterator insert( const value_type& x )\
634 {\
635 insert_result_iterator result;\
636 \
637 result.first = do_insert(x);\
638 result.second = ( result.first == end() ) ? 0 : 1;\
639 \
640 return result;\
641 } )
642
643 // helper macros to create functor objects for associative containers of the given type
644
645 #define LESS_THEN_FUNCTOR(TYPE) struct \
646 { inline int operator()(const TYPE& x, const TYPE& y ) const { return x < y; } }
647
648 #define GREATER_THEN_FUNCTOR(TYPE) struct \
649 { inline int operator()(const TYPE& x, const TYPE& y ) const { return x > y; } }
650
651 // functor argument should be created using the two above macros
652 // or passing own class with method "operator()(const TYPE&,cosnt TYPE&)" defined in it
653
654 #define WXSTL_MAP( KEY_TYPE, VALUE_TYPE, FUNCTOR ) __DEFINE_MAP( 1 ,KEY_TYPE, VALUE_TYPE, FUNCTOR)
655 #define WXSTL_MULTIMAP( KEY_TYPE, VALUE_TYPE, FUNCTOR ) __DEFINE_MAP( 0 ,KEY_TYPE, VALUE_TYPE, FUNCTOR)
656 #define WXSTL_SET( KEY_TYPE, FUNCTOR ) __DEFINE_SET( 1 ,KEY_TYPE, FUNCTOR )
657 #define WXSTL_MULTISET( KEY_TYPE, FUNCTOR ) __DEFINE_SET( 0 ,KEY_TYPE, FUNCTOR )
658
659 #endif