Use G_BEGIN_DECLS and G_END_DECLS.
[platform/upstream/glib.git] / glib / gtree.c
1 /* GLIB - Library of useful routines for C programming
2  * Copyright (C) 1995-1997  Peter Mattis, Spencer Kimball and Josh MacDonald
3  *
4  * This library is free software; you can redistribute it and/or
5  * modify it under the terms of the GNU Lesser General Public
6  * License as published by the Free Software Foundation; either
7  * version 2 of the License, or (at your option) any later version.
8  *
9  * This library is distributed in the hope that it will be useful,
10  * but WITHOUT ANY WARRANTY; without even the implied warranty of
11  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
12  * Lesser General Public License for more details.
13  *
14  * You should have received a copy of the GNU Lesser General Public
15  * License along with this library; if not, write to the
16  * Free Software Foundation, Inc., 59 Temple Place - Suite 330,
17  * Boston, MA 02111-1307, USA.
18  */
19
20 /*
21  * Modified by the GLib Team and others 1997-2000.  See the AUTHORS
22  * file for a list of people on the GLib Team.  See the ChangeLog
23  * files for a list of changes.  These files are distributed with
24  * GLib at ftp://ftp.gtk.org/pub/gtk/. 
25  */
26
27 /* 
28  * MT safe
29  */
30
31 #ifdef HAVE_CONFIG_H
32 #include <config.h>
33 #endif
34
35 #include "glib.h"
36
37
38 typedef struct _GRealTree  GRealTree;
39 typedef struct _GTreeNode  GTreeNode;
40
41 struct _GRealTree
42 {
43   GTreeNode *root;
44   GCompareDataFunc key_compare;
45   gpointer key_compare_data;
46 };
47
48 struct _GTreeNode
49 {
50   gint balance;      /* height (left) - height (right) */
51   GTreeNode *left;   /* left subtree */
52   GTreeNode *right;  /* right subtree */
53   gpointer key;      /* key for this node */
54   gpointer value;    /* value stored at this node */
55 };
56
57
58 static GTreeNode* g_tree_node_new                   (gpointer        key,
59                                                      gpointer        value);
60 static void       g_tree_node_destroy               (GTreeNode      *node);
61 static GTreeNode* g_tree_node_insert                (GTreeNode      *node,
62                                                      GCompareDataFunc compare,
63                                                      gpointer        comp_data,
64                                                      gpointer        key,
65                                                      gpointer        value,
66                                                      gint           *inserted);
67 static GTreeNode* g_tree_node_remove                (GTreeNode      *node,
68                                                      GCompareDataFunc compare,
69                                                      gpointer        comp_data,
70                                                      gconstpointer   key);
71 static GTreeNode* g_tree_node_balance               (GTreeNode      *node);
72 static GTreeNode* g_tree_node_remove_leftmost       (GTreeNode      *node,
73                                                      GTreeNode     **leftmost);
74 static GTreeNode* g_tree_node_restore_left_balance  (GTreeNode      *node,
75                                                      gint            old_balance);
76 static GTreeNode* g_tree_node_restore_right_balance (GTreeNode      *node,
77                                                      gint            old_balance);
78 static GTreeNode* g_tree_node_lookup                (GTreeNode      *node,
79                                                      GCompareDataFunc compare,
80                                                      gpointer        comp_data,
81                                                      gconstpointer   key);
82 static gint       g_tree_node_count                 (GTreeNode      *node);
83 static gint       g_tree_node_pre_order             (GTreeNode      *node,
84                                                      GTraverseFunc   traverse_func,
85                                                      gpointer        data);
86 static gint       g_tree_node_in_order              (GTreeNode      *node,
87                                                      GTraverseFunc   traverse_func,
88                                                      gpointer        data);
89 static gint       g_tree_node_post_order            (GTreeNode      *node,
90                                                      GTraverseFunc   traverse_func,
91                                                      gpointer        data);
92 static gpointer   g_tree_node_search                (GTreeNode      *node,
93                                                      GCompareFunc    search_func,
94                                                      gconstpointer   data);
95 static gint       g_tree_node_height                (GTreeNode      *node);
96 static GTreeNode* g_tree_node_rotate_left           (GTreeNode      *node);
97 static GTreeNode* g_tree_node_rotate_right          (GTreeNode      *node);
98 static void       g_tree_node_check                 (GTreeNode      *node);
99
100
101 G_LOCK_DEFINE_STATIC (g_tree_global);
102 static GMemChunk *node_mem_chunk = NULL;
103 static GTreeNode *node_free_list = NULL;
104
105
106 static GTreeNode*
107 g_tree_node_new (gpointer key,
108                  gpointer value)
109 {
110   GTreeNode *node;
111
112   G_LOCK (g_tree_global);
113   if (node_free_list)
114     {
115       node = node_free_list;
116       node_free_list = node->right;
117     }
118   else
119     {
120       if (!node_mem_chunk)
121         node_mem_chunk = g_mem_chunk_new ("GLib GTreeNode mem chunk",
122                                           sizeof (GTreeNode),
123                                           1024,
124                                           G_ALLOC_ONLY);
125
126       node = g_chunk_new (GTreeNode, node_mem_chunk);
127    }
128   G_UNLOCK (g_tree_global);
129
130   node->balance = 0;
131   node->left = NULL;
132   node->right = NULL;
133   node->key = key;
134   node->value = value;
135
136   return node;
137 }
138
139 static void
140 g_tree_node_destroy (GTreeNode *node)
141 {
142   if (node)
143     {
144       g_tree_node_destroy (node->right);
145       g_tree_node_destroy (node->left);
146
147 #ifdef ENABLE_GC_FRIENDLY
148       node->left = NULL;
149       node->key = NULL;
150       node->value = NULL;
151 #endif /* ENABLE_GC_FRIENDLY */
152
153       G_LOCK (g_tree_global);
154       node->right = node_free_list;
155       node_free_list = node;
156       G_UNLOCK (g_tree_global);
157    }
158 }
159
160 GTree*   g_tree_new_udata(GCompareDataFunc key_compare_func,
161                           gpointer        key_compare_data)
162 {
163   GRealTree *rtree;
164
165   g_return_val_if_fail (key_compare_func != NULL, NULL);
166
167   rtree = g_new (GRealTree, 1);
168   rtree->root = NULL;
169   rtree->key_compare = key_compare_func;
170   rtree->key_compare_data = key_compare_data;
171
172   return (GTree*) rtree;
173 }
174
175 GTree*
176 g_tree_new (GCompareFunc key_compare_func)
177 {
178   return g_tree_new_udata ((GCompareDataFunc) key_compare_func, NULL);
179 }
180
181
182 void
183 g_tree_destroy (GTree *tree)
184 {
185   GRealTree *rtree;
186
187   g_return_if_fail (tree != NULL);
188
189   rtree = (GRealTree*) tree;
190
191   g_tree_node_destroy (rtree->root);
192   g_free (rtree);
193 }
194
195 void
196 g_tree_insert (GTree    *tree,
197                gpointer  key,
198                gpointer  value)
199 {
200   GRealTree *rtree;
201   gint inserted;
202
203   g_return_if_fail (tree != NULL);
204
205   rtree = (GRealTree*) tree;
206
207   inserted = FALSE;
208   rtree->root = g_tree_node_insert (rtree->root, rtree->key_compare,
209                                     rtree->key_compare_data,
210                                     key, value, &inserted);
211 }
212
213 void
214 g_tree_remove (GTree         *tree,
215                gconstpointer  key)
216 {
217   GRealTree *rtree;
218
219   g_return_if_fail (tree != NULL);
220
221   rtree = (GRealTree*) tree;
222
223   rtree->root = g_tree_node_remove (rtree->root, rtree->key_compare,
224                                     rtree->key_compare_data, key);
225 }
226
227 gpointer
228 g_tree_lookup (GTree         *tree,
229                gconstpointer  key)
230 {
231   GRealTree *rtree;
232   GTreeNode *node;
233
234   g_return_val_if_fail (tree != NULL, NULL);
235
236   rtree = (GRealTree*) tree;
237
238   node = g_tree_node_lookup (rtree->root, rtree->key_compare, 
239                              rtree->key_compare_data, key);
240
241   return node ? node->value : NULL;
242 }
243
244 gboolean
245 g_tree_lookup_extended (GTree         *tree,
246                         gconstpointer  lookup_key,
247                         gpointer      *orig_key,
248                         gpointer      *value)
249 {
250   GRealTree *rtree;
251   GTreeNode *node;
252   
253   g_return_val_if_fail (tree != NULL, FALSE);
254   
255   rtree = (GRealTree*) tree;
256   
257   node = g_tree_node_lookup (rtree->root, 
258                              rtree->key_compare,
259                              rtree->key_compare_data, 
260                              lookup_key);
261
262   if (node)
263     {
264       if (orig_key)
265         *orig_key = node->key;
266       if (value)
267         *value = node->value;
268       return TRUE;
269     }
270   else
271     return FALSE;
272 }
273
274 void
275 g_tree_traverse (GTree         *tree,
276                  GTraverseFunc  traverse_func,
277                  GTraverseType  traverse_type,
278                  gpointer       data)
279 {
280   GRealTree *rtree;
281
282   g_return_if_fail (tree != NULL);
283
284   rtree = (GRealTree*) tree;
285
286   if (!rtree->root)
287     return;
288
289   switch (traverse_type)
290     {
291     case G_PRE_ORDER:
292       g_tree_node_pre_order (rtree->root, traverse_func, data);
293       break;
294
295     case G_IN_ORDER:
296       g_tree_node_in_order (rtree->root, traverse_func, data);
297       break;
298
299     case G_POST_ORDER:
300       g_tree_node_post_order (rtree->root, traverse_func, data);
301       break;
302     
303     case G_LEVEL_ORDER:
304       g_warning ("g_tree_traverse(): traverse type G_LEVEL_ORDER isn't implemented.");
305       break;
306     }
307 }
308
309 gpointer
310 g_tree_search (GTree            *tree,
311                GCompareFunc      search_func,
312                gconstpointer     data)
313 {
314   GRealTree *rtree;
315
316   g_return_val_if_fail (tree != NULL, NULL);
317
318   rtree = (GRealTree*) tree;
319
320   if (rtree->root)
321     return g_tree_node_search (rtree->root, search_func, data);
322   else
323     return NULL;
324 }
325
326 gint
327 g_tree_height (GTree *tree)
328 {
329   GRealTree *rtree;
330
331   g_return_val_if_fail (tree != NULL, 0);
332
333   rtree = (GRealTree*) tree;
334
335   if (rtree->root)
336     return g_tree_node_height (rtree->root);
337   else
338     return 0;
339 }
340
341 gint
342 g_tree_nnodes (GTree *tree)
343 {
344   GRealTree *rtree;
345
346   g_return_val_if_fail (tree != NULL, 0);
347
348   rtree = (GRealTree*) tree;
349
350   if (rtree->root)
351     return g_tree_node_count (rtree->root);
352   else
353     return 0;
354 }
355
356 static GTreeNode*
357 g_tree_node_insert (GTreeNode      *node,
358                     GCompareDataFunc compare,
359                     gpointer        compare_data,
360                     gpointer        key,
361                     gpointer        value,
362                     gint           *inserted)
363 {
364   gint old_balance;
365   gint cmp;
366
367   if (!node)
368     {
369       *inserted = TRUE;
370       return g_tree_node_new (key, value);
371     }
372
373   cmp = (* compare) (key, node->key, compare_data);
374   if (cmp == 0)
375     {
376       *inserted = FALSE;
377       node->value = value;
378       return node;
379     }
380
381   if (cmp < 0)
382     {
383       if (node->left)
384         {
385           old_balance = node->left->balance;
386           node->left = g_tree_node_insert (node->left, compare, compare_data,
387                                            key, value, inserted);
388
389           if ((old_balance != node->left->balance) && node->left->balance)
390             node->balance -= 1;
391         }
392       else
393         {
394           *inserted = TRUE;
395           node->left = g_tree_node_new (key, value);
396           node->balance -= 1;
397         }
398     }
399   else if (cmp > 0)
400     {
401       if (node->right)
402         {
403           old_balance = node->right->balance;
404           node->right = g_tree_node_insert (node->right, compare, compare_data,
405                                             key, value, inserted);
406
407           if ((old_balance != node->right->balance) && node->right->balance)
408             node->balance += 1;
409         }
410       else
411         {
412           *inserted = TRUE;
413           node->right = g_tree_node_new (key, value);
414           node->balance += 1;
415         }
416     }
417
418   if (*inserted)
419     {
420       if ((node->balance < -1) || (node->balance > 1))
421         node = g_tree_node_balance (node);
422     }
423
424   return node;
425 }
426
427 static GTreeNode*
428 g_tree_node_remove (GTreeNode      *node,
429                     GCompareDataFunc compare,
430                     gpointer        compare_data,
431                     gconstpointer   key)
432 {
433   GTreeNode *new_root;
434   gint old_balance;
435   gint cmp;
436
437   if (!node)
438     return NULL;
439
440   cmp = (* compare) (key, node->key, compare_data);
441   if (cmp == 0)
442     {
443       GTreeNode *garbage;
444
445       garbage = node;
446
447       if (!node->right)
448         {
449           node = node->left;
450         }
451       else
452         {
453           old_balance = node->right->balance;
454           node->right = g_tree_node_remove_leftmost (node->right, &new_root);
455           new_root->left = node->left;
456           new_root->right = node->right;
457           new_root->balance = node->balance;
458           node = g_tree_node_restore_right_balance (new_root, old_balance);
459         }
460
461 #ifdef ENABLE_GC_FRIENDLY
462       garbage->left = NULL;
463       garbage->key = NULL;
464       garbage->value = NULL;
465 #endif /* ENABLE_GC_FRIENDLY */
466
467       G_LOCK (g_tree_global);
468       garbage->right = node_free_list;
469       node_free_list = garbage;
470       G_UNLOCK (g_tree_global);
471    }
472   else if (cmp < 0)
473     {
474       if (node->left)
475         {
476           old_balance = node->left->balance;
477           node->left = g_tree_node_remove (node->left, compare, compare_data, key);
478           node = g_tree_node_restore_left_balance (node, old_balance);
479         }
480     }
481   else if (cmp > 0)
482     {
483       if (node->right)
484         {
485           old_balance = node->right->balance;
486           node->right = g_tree_node_remove (node->right, compare, compare_data, key);
487           node = g_tree_node_restore_right_balance (node, old_balance);
488         }
489     }
490
491   return node;
492 }
493
494 static GTreeNode*
495 g_tree_node_balance (GTreeNode *node)
496 {
497   if (node->balance < -1)
498     {
499       if (node->left->balance > 0)
500         node->left = g_tree_node_rotate_left (node->left);
501       node = g_tree_node_rotate_right (node);
502     }
503   else if (node->balance > 1)
504     {
505       if (node->right->balance < 0)
506         node->right = g_tree_node_rotate_right (node->right);
507       node = g_tree_node_rotate_left (node);
508     }
509
510   return node;
511 }
512
513 static GTreeNode*
514 g_tree_node_remove_leftmost (GTreeNode  *node,
515                              GTreeNode **leftmost)
516 {
517   gint old_balance;
518
519   if (!node->left)
520     {
521       *leftmost = node;
522       return node->right;
523     }
524
525   old_balance = node->left->balance;
526   node->left = g_tree_node_remove_leftmost (node->left, leftmost);
527   return g_tree_node_restore_left_balance (node, old_balance);
528 }
529
530 static GTreeNode*
531 g_tree_node_restore_left_balance (GTreeNode *node,
532                                   gint       old_balance)
533 {
534   if (!node->left)
535     node->balance += 1;
536   else if ((node->left->balance != old_balance) &&
537            (node->left->balance == 0))
538     node->balance += 1;
539
540   if (node->balance > 1)
541     return g_tree_node_balance (node);
542   return node;
543 }
544
545 static GTreeNode*
546 g_tree_node_restore_right_balance (GTreeNode *node,
547                                    gint       old_balance)
548 {
549   if (!node->right)
550     node->balance -= 1;
551   else if ((node->right->balance != old_balance) &&
552            (node->right->balance == 0))
553     node->balance -= 1;
554
555   if (node->balance < -1)
556     return g_tree_node_balance (node);
557   return node;
558 }
559
560 static GTreeNode *
561 g_tree_node_lookup (GTreeNode      *node,
562                     GCompareDataFunc compare,
563                     gpointer        compare_data,
564                     gconstpointer   key)
565 {
566   gint cmp;
567
568   if (!node)
569     return NULL;
570
571   cmp = (* compare) (key, node->key, compare_data);
572   if (cmp == 0)
573     return node;
574
575   if (cmp < 0)
576     {
577       if (node->left)
578         return g_tree_node_lookup (node->left, compare, compare_data, key);
579     }
580   else if (cmp > 0)
581     {
582       if (node->right)
583         return g_tree_node_lookup (node->right, compare, compare_data, key);
584     }
585
586   return NULL;
587 }
588
589 static gint
590 g_tree_node_count (GTreeNode *node)
591 {
592   gint count;
593
594   count = 1;
595   if (node->left)
596     count += g_tree_node_count (node->left);
597   if (node->right)
598     count += g_tree_node_count (node->right);
599
600   return count;
601 }
602
603 static gint
604 g_tree_node_pre_order (GTreeNode     *node,
605                        GTraverseFunc  traverse_func,
606                        gpointer       data)
607 {
608   if ((*traverse_func) (node->key, node->value, data))
609     return TRUE;
610   if (node->left)
611     {
612       if (g_tree_node_pre_order (node->left, traverse_func, data))
613         return TRUE;
614     }
615   if (node->right)
616     {
617       if (g_tree_node_pre_order (node->right, traverse_func, data))
618         return TRUE;
619     }
620
621   return FALSE;
622 }
623
624 static gint
625 g_tree_node_in_order (GTreeNode     *node,
626                       GTraverseFunc  traverse_func,
627                       gpointer       data)
628 {
629   if (node->left)
630     {
631       if (g_tree_node_in_order (node->left, traverse_func, data))
632         return TRUE;
633     }
634   if ((*traverse_func) (node->key, node->value, data))
635     return TRUE;
636   if (node->right)
637     {
638       if (g_tree_node_in_order (node->right, traverse_func, data))
639         return TRUE;
640     }
641
642   return FALSE;
643 }
644
645 static gint
646 g_tree_node_post_order (GTreeNode     *node,
647                         GTraverseFunc  traverse_func,
648                         gpointer       data)
649 {
650   if (node->left)
651     {
652       if (g_tree_node_post_order (node->left, traverse_func, data))
653         return TRUE;
654     }
655   if (node->right)
656     {
657       if (g_tree_node_post_order (node->right, traverse_func, data))
658         return TRUE;
659     }
660   if ((*traverse_func) (node->key, node->value, data))
661     return TRUE;
662
663   return FALSE;
664 }
665
666 static gpointer
667 g_tree_node_search (GTreeNode     *node,
668                     GCompareFunc   search_func,
669                     gconstpointer  data)
670 {
671   gint dir;
672
673   if (!node)
674     return NULL;
675
676   do {
677     dir = (* search_func) (node->key, data);
678     if (dir == 0)
679       return node->value;
680
681     if (dir < 0)
682       node = node->left;
683     else if (dir > 0)
684       node = node->right;
685   } while (node);
686
687   return NULL;
688 }
689
690 static gint
691 g_tree_node_height (GTreeNode *node)
692 {
693   gint left_height;
694   gint right_height;
695
696   if (node)
697     {
698       left_height = 0;
699       right_height = 0;
700
701       if (node->left)
702         left_height = g_tree_node_height (node->left);
703
704       if (node->right)
705         right_height = g_tree_node_height (node->right);
706
707       return MAX (left_height, right_height) + 1;
708     }
709
710   return 0;
711 }
712
713 static GTreeNode*
714 g_tree_node_rotate_left (GTreeNode *node)
715 {
716   GTreeNode *right;
717   gint a_bal;
718   gint b_bal;
719
720   right = node->right;
721
722   node->right = right->left;
723   right->left = node;
724
725   a_bal = node->balance;
726   b_bal = right->balance;
727
728   if (b_bal <= 0)
729     {
730       if (a_bal >= 1)
731         right->balance = b_bal - 1;
732       else
733         right->balance = a_bal + b_bal - 2;
734       node->balance = a_bal - 1;
735     }
736   else
737     {
738       if (a_bal <= b_bal)
739         right->balance = a_bal - 2;
740       else
741         right->balance = b_bal - 1;
742       node->balance = a_bal - b_bal - 1;
743     }
744
745   return right;
746 }
747
748 static GTreeNode*
749 g_tree_node_rotate_right (GTreeNode *node)
750 {
751   GTreeNode *left;
752   gint a_bal;
753   gint b_bal;
754
755   left = node->left;
756
757   node->left = left->right;
758   left->right = node;
759
760   a_bal = node->balance;
761   b_bal = left->balance;
762
763   if (b_bal <= 0)
764     {
765       if (b_bal > a_bal)
766         left->balance = b_bal + 1;
767       else
768         left->balance = a_bal + 2;
769       node->balance = a_bal - b_bal + 1;
770     }
771   else
772     {
773       if (a_bal <= -1)
774         left->balance = b_bal + 1;
775       else
776         left->balance = a_bal + b_bal + 2;
777       node->balance = a_bal + 1;
778     }
779
780   return left;
781 }
782
783 static void
784 g_tree_node_check (GTreeNode *node)
785 {
786   gint left_height;
787   gint right_height;
788   gint balance;
789   
790   if (node)
791     {
792       left_height = 0;
793       right_height = 0;
794       
795       if (node->left)
796         left_height = g_tree_node_height (node->left);
797       if (node->right)
798         right_height = g_tree_node_height (node->right);
799       
800       balance = right_height - left_height;
801       if (balance != node->balance)
802         g_log (g_log_domain_glib, G_LOG_LEVEL_INFO,
803                "g_tree_node_check: failed: %d ( %d )\n",
804                balance, node->balance);
805       
806       if (node->left)
807         g_tree_node_check (node->left);
808       if (node->right)
809         g_tree_node_check (node->right);
810     }
811 }