xref: /openbmc/qemu/util/qtree.c (revision df1f50c3)
1 /*
2  * GLIB - Library of useful routines for C programming
3  * Copyright (C) 1995-1997  Peter Mattis, Spencer Kimball and Josh MacDonald
4  *
5  * SPDX-License-Identifier: LGPL-2.1-or-later
6  *
7  * This library is free software; you can redistribute it and/or
8  * modify it under the terms of the GNU Lesser General Public
9  * License as published by the Free Software Foundation; either
10  * version 2.1 of the License, or (at your option) any later version.
11  *
12  * This library is distributed in the hope that it will be useful,
13  * but WITHOUT ANY WARRANTY; without even the implied warranty of
14  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
15  * Lesser General Public License for more details.
16  *
17  * You should have received a copy of the GNU Lesser General Public
18  * License along with this library; if not, see <http://www.gnu.org/licenses/>.
19  */
20 
21 /*
22  * Modified by the GLib Team and others 1997-2000.  See the AUTHORS
23  * file for a list of people on the GLib Team.  See the ChangeLog
24  * files for a list of changes.  These files are distributed with
25  * GLib at ftp://ftp.gtk.org/pub/gtk/.
26  */
27 
28 /*
29  * MT safe
30  */
31 
32 #include "qemu/osdep.h"
33 #include "qemu/qtree.h"
34 
35 /**
36  * SECTION:trees-binary
37  * @title: Balanced Binary Trees
38  * @short_description: a sorted collection of key/value pairs optimized
39  *                     for searching and traversing in order
40  *
41  * The #QTree structure and its associated functions provide a sorted
42  * collection of key/value pairs optimized for searching and traversing
43  * in order. This means that most of the operations  (access, search,
44  * insertion, deletion, ...) on #QTree are O(log(n)) in average and O(n)
45  * in worst case for time complexity. But, note that maintaining a
46  * balanced sorted #QTree of n elements is done in time O(n log(n)).
47  *
48  * To create a new #QTree use q_tree_new().
49  *
50  * To insert a key/value pair into a #QTree use q_tree_insert()
51  * (O(n log(n))).
52  *
53  * To remove a key/value pair use q_tree_remove() (O(n log(n))).
54  *
55  * To look up the value corresponding to a given key, use
56  * q_tree_lookup() and q_tree_lookup_extended().
57  *
58  * To find out the number of nodes in a #QTree, use q_tree_nnodes(). To
59  * get the height of a #QTree, use q_tree_height().
60  *
61  * To traverse a #QTree, calling a function for each node visited in
62  * the traversal, use q_tree_foreach().
63  *
64  * To destroy a #QTree, use q_tree_destroy().
65  **/
66 
67 #define MAX_GTREE_HEIGHT 40
68 
69 /**
70  * QTree:
71  *
72  * The QTree struct is an opaque data structure representing a
73  * [balanced binary tree][glib-Balanced-Binary-Trees]. It should be
74  * accessed only by using the following functions.
75  */
76 struct _QTree {
77     QTreeNode        *root;
78     GCompareDataFunc  key_compare;
79     GDestroyNotify    key_destroy_func;
80     GDestroyNotify    value_destroy_func;
81     gpointer          key_compare_data;
82     guint             nnodes;
83     gint              ref_count;
84 };
85 
86 struct _QTreeNode {
87     gpointer   key;         /* key for this node */
88     gpointer   value;       /* value stored at this node */
89     QTreeNode *left;        /* left subtree */
90     QTreeNode *right;       /* right subtree */
91     gint8      balance;     /* height (right) - height (left) */
92     guint8     left_child;
93     guint8     right_child;
94 };
95 
96 
97 static QTreeNode *q_tree_node_new(gpointer       key,
98                                   gpointer       value);
99 static QTreeNode *q_tree_insert_internal(QTree *tree,
100                                          gpointer key,
101                                          gpointer value,
102                                          gboolean replace);
103 static gboolean   q_tree_remove_internal(QTree         *tree,
104                                          gconstpointer  key,
105                                          gboolean       steal);
106 static QTreeNode *q_tree_node_balance(QTreeNode     *node);
107 static QTreeNode *q_tree_find_node(QTree         *tree,
108                                    gconstpointer  key);
109 static QTreeNode *q_tree_node_search(QTreeNode *node,
110                                      GCompareFunc search_func,
111                                      gconstpointer data);
112 static QTreeNode *q_tree_node_rotate_left(QTreeNode     *node);
113 static QTreeNode *q_tree_node_rotate_right(QTreeNode     *node);
114 #ifdef Q_TREE_DEBUG
115 static void       q_tree_node_check(QTreeNode     *node);
116 #endif
117 
118 static QTreeNode*
119 q_tree_node_new(gpointer key,
120                 gpointer value)
121 {
122     QTreeNode *node = g_new(QTreeNode, 1);
123 
124     node->balance = 0;
125     node->left = NULL;
126     node->right = NULL;
127     node->left_child = FALSE;
128     node->right_child = FALSE;
129     node->key = key;
130     node->value = value;
131 
132     return node;
133 }
134 
135 /**
136  * q_tree_new:
137  * @key_compare_func: the function used to order the nodes in the #QTree.
138  *   It should return values similar to the standard strcmp() function -
139  *   0 if the two arguments are equal, a negative value if the first argument
140  *   comes before the second, or a positive value if the first argument comes
141  *   after the second.
142  *
143  * Creates a new #QTree.
144  *
145  * Returns: a newly allocated #QTree
146  */
147 QTree *
148 q_tree_new(GCompareFunc key_compare_func)
149 {
150     g_return_val_if_fail(key_compare_func != NULL, NULL);
151 
152     return q_tree_new_full((GCompareDataFunc) key_compare_func, NULL,
153                            NULL, NULL);
154 }
155 
156 /**
157  * q_tree_new_with_data:
158  * @key_compare_func: qsort()-style comparison function
159  * @key_compare_data: data to pass to comparison function
160  *
161  * Creates a new #QTree with a comparison function that accepts user data.
162  * See q_tree_new() for more details.
163  *
164  * Returns: a newly allocated #QTree
165  */
166 QTree *
167 q_tree_new_with_data(GCompareDataFunc key_compare_func,
168                      gpointer         key_compare_data)
169 {
170     g_return_val_if_fail(key_compare_func != NULL, NULL);
171 
172     return q_tree_new_full(key_compare_func, key_compare_data,
173                            NULL, NULL);
174 }
175 
176 /**
177  * q_tree_new_full:
178  * @key_compare_func: qsort()-style comparison function
179  * @key_compare_data: data to pass to comparison function
180  * @key_destroy_func: a function to free the memory allocated for the key
181  *   used when removing the entry from the #QTree or %NULL if you don't
182  *   want to supply such a function
183  * @value_destroy_func: a function to free the memory allocated for the
184  *   value used when removing the entry from the #QTree or %NULL if you
185  *   don't want to supply such a function
186  *
187  * Creates a new #QTree like q_tree_new() and allows to specify functions
188  * to free the memory allocated for the key and value that get called when
189  * removing the entry from the #QTree.
190  *
191  * Returns: a newly allocated #QTree
192  */
193 QTree *
194 q_tree_new_full(GCompareDataFunc key_compare_func,
195                 gpointer         key_compare_data,
196                 GDestroyNotify   key_destroy_func,
197                 GDestroyNotify   value_destroy_func)
198 {
199     QTree *tree;
200 
201     g_return_val_if_fail(key_compare_func != NULL, NULL);
202 
203     tree = g_new(QTree, 1);
204     tree->root               = NULL;
205     tree->key_compare        = key_compare_func;
206     tree->key_destroy_func   = key_destroy_func;
207     tree->value_destroy_func = value_destroy_func;
208     tree->key_compare_data   = key_compare_data;
209     tree->nnodes             = 0;
210     tree->ref_count          = 1;
211 
212     return tree;
213 }
214 
215 /**
216  * q_tree_node_first:
217  * @tree: a #QTree
218  *
219  * Returns the first in-order node of the tree, or %NULL
220  * for an empty tree.
221  *
222  * Returns: (nullable) (transfer none): the first node in the tree
223  *
224  * Since: 2.68 in GLib. Internal in Qtree, i.e. not in the public API.
225  */
226 static QTreeNode *
227 q_tree_node_first(QTree *tree)
228 {
229     QTreeNode *tmp;
230 
231     g_return_val_if_fail(tree != NULL, NULL);
232 
233     if (!tree->root) {
234         return NULL;
235     }
236 
237     tmp = tree->root;
238 
239     while (tmp->left_child) {
240         tmp = tmp->left;
241     }
242 
243     return tmp;
244 }
245 
246 /**
247  * q_tree_node_previous
248  * @node: a #QTree node
249  *
250  * Returns the previous in-order node of the tree, or %NULL
251  * if the passed node was already the first one.
252  *
253  * Returns: (nullable) (transfer none): the previous node in the tree
254  *
255  * Since: 2.68 in GLib. Internal in Qtree, i.e. not in the public API.
256  */
257 static QTreeNode *
258 q_tree_node_previous(QTreeNode *node)
259 {
260     QTreeNode *tmp;
261 
262     g_return_val_if_fail(node != NULL, NULL);
263 
264     tmp = node->left;
265 
266     if (node->left_child) {
267         while (tmp->right_child) {
268             tmp = tmp->right;
269         }
270     }
271 
272     return tmp;
273 }
274 
275 /**
276  * q_tree_node_next
277  * @node: a #QTree node
278  *
279  * Returns the next in-order node of the tree, or %NULL
280  * if the passed node was already the last one.
281  *
282  * Returns: (nullable) (transfer none): the next node in the tree
283  *
284  * Since: 2.68 in GLib. Internal in Qtree, i.e. not in the public API.
285  */
286 static QTreeNode *
287 q_tree_node_next(QTreeNode *node)
288 {
289     QTreeNode *tmp;
290 
291     g_return_val_if_fail(node != NULL, NULL);
292 
293     tmp = node->right;
294 
295     if (node->right_child) {
296         while (tmp->left_child) {
297             tmp = tmp->left;
298         }
299     }
300 
301     return tmp;
302 }
303 
304 /**
305  * q_tree_remove_all:
306  * @tree: a #QTree
307  *
308  * Removes all nodes from a #QTree and destroys their keys and values,
309  * then resets the #QTree’s root to %NULL.
310  *
311  * Since: 2.70 in GLib. Internal in Qtree, i.e. not in the public API.
312  */
313 static void QEMU_DISABLE_CFI
314 q_tree_remove_all(QTree *tree)
315 {
316     QTreeNode *node;
317     QTreeNode *next;
318 
319     g_return_if_fail(tree != NULL);
320 
321     node = q_tree_node_first(tree);
322 
323     while (node) {
324         next = q_tree_node_next(node);
325 
326         if (tree->key_destroy_func) {
327             tree->key_destroy_func(node->key);
328         }
329         if (tree->value_destroy_func) {
330             tree->value_destroy_func(node->value);
331         }
332         g_free(node);
333 
334 #ifdef Q_TREE_DEBUG
335         g_assert(tree->nnodes > 0);
336         tree->nnodes--;
337 #endif
338 
339         node = next;
340     }
341 
342 #ifdef Q_TREE_DEBUG
343     g_assert(tree->nnodes == 0);
344 #endif
345 
346     tree->root = NULL;
347 #ifndef Q_TREE_DEBUG
348     tree->nnodes = 0;
349 #endif
350 }
351 
352 /**
353  * q_tree_ref:
354  * @tree: a #QTree
355  *
356  * Increments the reference count of @tree by one.
357  *
358  * It is safe to call this function from any thread.
359  *
360  * Returns: the passed in #QTree
361  *
362  * Since: 2.22
363  */
364 QTree *
365 q_tree_ref(QTree *tree)
366 {
367     g_return_val_if_fail(tree != NULL, NULL);
368 
369     g_atomic_int_inc(&tree->ref_count);
370 
371     return tree;
372 }
373 
374 /**
375  * q_tree_unref:
376  * @tree: a #QTree
377  *
378  * Decrements the reference count of @tree by one.
379  * If the reference count drops to 0, all keys and values will
380  * be destroyed (if destroy functions were specified) and all
381  * memory allocated by @tree will be released.
382  *
383  * It is safe to call this function from any thread.
384  *
385  * Since: 2.22
386  */
387 void
388 q_tree_unref(QTree *tree)
389 {
390     g_return_if_fail(tree != NULL);
391 
392     if (g_atomic_int_dec_and_test(&tree->ref_count)) {
393         q_tree_remove_all(tree);
394         g_free(tree);
395     }
396 }
397 
398 /**
399  * q_tree_destroy:
400  * @tree: a #QTree
401  *
402  * Removes all keys and values from the #QTree and decreases its
403  * reference count by one. If keys and/or values are dynamically
404  * allocated, you should either free them first or create the #QTree
405  * using q_tree_new_full(). In the latter case the destroy functions
406  * you supplied will be called on all keys and values before destroying
407  * the #QTree.
408  */
409 void
410 q_tree_destroy(QTree *tree)
411 {
412     g_return_if_fail(tree != NULL);
413 
414     q_tree_remove_all(tree);
415     q_tree_unref(tree);
416 }
417 
418 /**
419  * q_tree_insert_node:
420  * @tree: a #QTree
421  * @key: the key to insert
422  * @value: the value corresponding to the key
423  *
424  * Inserts a key/value pair into a #QTree.
425  *
426  * If the given key already exists in the #QTree its corresponding value
427  * is set to the new value. If you supplied a @value_destroy_func when
428  * creating the #QTree, the old value is freed using that function. If
429  * you supplied a @key_destroy_func when creating the #QTree, the passed
430  * key is freed using that function.
431  *
432  * The tree is automatically 'balanced' as new key/value pairs are added,
433  * so that the distance from the root to every leaf is as small as possible.
434  * The cost of maintaining a balanced tree while inserting new key/value
435  * result in a O(n log(n)) operation where most of the other operations
436  * are O(log(n)).
437  *
438  * Returns: (transfer none): the inserted (or set) node.
439  *
440  * Since: 2.68 in GLib. Internal in Qtree, i.e. not in the public API.
441  */
442 static QTreeNode *
443 q_tree_insert_node(QTree    *tree,
444                    gpointer  key,
445                    gpointer  value)
446 {
447     QTreeNode *node;
448 
449     g_return_val_if_fail(tree != NULL, NULL);
450 
451     node = q_tree_insert_internal(tree, key, value, FALSE);
452 
453 #ifdef Q_TREE_DEBUG
454     q_tree_node_check(tree->root);
455 #endif
456 
457     return node;
458 }
459 
460 /**
461  * q_tree_insert:
462  * @tree: a #QTree
463  * @key: the key to insert
464  * @value: the value corresponding to the key
465  *
466  * Inserts a key/value pair into a #QTree.
467  *
468  * Inserts a new key and value into a #QTree as q_tree_insert_node() does,
469  * only this function does not return the inserted or set node.
470  */
471 void
472 q_tree_insert(QTree    *tree,
473               gpointer  key,
474               gpointer  value)
475 {
476     q_tree_insert_node(tree, key, value);
477 }
478 
479 /**
480  * q_tree_replace_node:
481  * @tree: a #QTree
482  * @key: the key to insert
483  * @value: the value corresponding to the key
484  *
485  * Inserts a new key and value into a #QTree similar to q_tree_insert_node().
486  * The difference is that if the key already exists in the #QTree, it gets
487  * replaced by the new key. If you supplied a @value_destroy_func when
488  * creating the #QTree, the old value is freed using that function. If you
489  * supplied a @key_destroy_func when creating the #QTree, the old key is
490  * freed using that function.
491  *
492  * The tree is automatically 'balanced' as new key/value pairs are added,
493  * so that the distance from the root to every leaf is as small as possible.
494  *
495  * Returns: (transfer none): the inserted (or set) node.
496  *
497  * Since: 2.68 in GLib. Internal in Qtree, i.e. not in the public API.
498  */
499 static QTreeNode *
500 q_tree_replace_node(QTree    *tree,
501                     gpointer  key,
502                     gpointer  value)
503 {
504     QTreeNode *node;
505 
506     g_return_val_if_fail(tree != NULL, NULL);
507 
508     node = q_tree_insert_internal(tree, key, value, TRUE);
509 
510 #ifdef Q_TREE_DEBUG
511     q_tree_node_check(tree->root);
512 #endif
513 
514     return node;
515 }
516 
517 /**
518  * q_tree_replace:
519  * @tree: a #QTree
520  * @key: the key to insert
521  * @value: the value corresponding to the key
522  *
523  * Inserts a new key and value into a #QTree as q_tree_replace_node() does,
524  * only this function does not return the inserted or set node.
525  */
526 void
527 q_tree_replace(QTree    *tree,
528                gpointer  key,
529                gpointer  value)
530 {
531     q_tree_replace_node(tree, key, value);
532 }
533 
534 /* internal insert routine */
535 static QTreeNode * QEMU_DISABLE_CFI
536 q_tree_insert_internal(QTree    *tree,
537                        gpointer  key,
538                        gpointer  value,
539                        gboolean  replace)
540 {
541     QTreeNode *node, *retnode;
542     QTreeNode *path[MAX_GTREE_HEIGHT];
543     int idx;
544 
545     g_return_val_if_fail(tree != NULL, NULL);
546 
547     if (!tree->root) {
548         tree->root = q_tree_node_new(key, value);
549         tree->nnodes++;
550         return tree->root;
551     }
552 
553     idx = 0;
554     path[idx++] = NULL;
555     node = tree->root;
556 
557     while (1) {
558         int cmp = tree->key_compare(key, node->key, tree->key_compare_data);
559 
560         if (cmp == 0) {
561             if (tree->value_destroy_func) {
562                 tree->value_destroy_func(node->value);
563             }
564 
565             node->value = value;
566 
567             if (replace) {
568                 if (tree->key_destroy_func) {
569                     tree->key_destroy_func(node->key);
570                 }
571 
572                 node->key = key;
573             } else {
574                 /* free the passed key */
575                 if (tree->key_destroy_func) {
576                     tree->key_destroy_func(key);
577                 }
578             }
579 
580             return node;
581         } else if (cmp < 0) {
582             if (node->left_child) {
583                 path[idx++] = node;
584                 node = node->left;
585             } else {
586                 QTreeNode *child = q_tree_node_new(key, value);
587 
588                 child->left = node->left;
589                 child->right = node;
590                 node->left = child;
591                 node->left_child = TRUE;
592                 node->balance -= 1;
593 
594                 tree->nnodes++;
595 
596                 retnode = child;
597                 break;
598             }
599         } else {
600             if (node->right_child) {
601                 path[idx++] = node;
602                 node = node->right;
603             } else {
604                 QTreeNode *child = q_tree_node_new(key, value);
605 
606                 child->right = node->right;
607                 child->left = node;
608                 node->right = child;
609                 node->right_child = TRUE;
610                 node->balance += 1;
611 
612                 tree->nnodes++;
613 
614                 retnode = child;
615                 break;
616             }
617         }
618     }
619 
620     /*
621      * Restore balance. This is the goodness of a non-recursive
622      * implementation, when we are done with balancing we 'break'
623      * the loop and we are done.
624      */
625     while (1) {
626         QTreeNode *bparent = path[--idx];
627         gboolean left_node = (bparent && node == bparent->left);
628         g_assert(!bparent || bparent->left == node || bparent->right == node);
629 
630         if (node->balance < -1 || node->balance > 1) {
631             node = q_tree_node_balance(node);
632             if (bparent == NULL) {
633                 tree->root = node;
634             } else if (left_node) {
635                 bparent->left = node;
636             } else {
637                 bparent->right = node;
638             }
639         }
640 
641         if (node->balance == 0 || bparent == NULL) {
642             break;
643         }
644 
645         if (left_node) {
646             bparent->balance -= 1;
647         } else {
648             bparent->balance += 1;
649         }
650 
651         node = bparent;
652     }
653 
654     return retnode;
655 }
656 
657 /**
658  * q_tree_remove:
659  * @tree: a #QTree
660  * @key: the key to remove
661  *
662  * Removes a key/value pair from a #QTree.
663  *
664  * If the #QTree was created using q_tree_new_full(), the key and value
665  * are freed using the supplied destroy functions, otherwise you have to
666  * make sure that any dynamically allocated values are freed yourself.
667  * If the key does not exist in the #QTree, the function does nothing.
668  *
669  * The cost of maintaining a balanced tree while removing a key/value
670  * result in a O(n log(n)) operation where most of the other operations
671  * are O(log(n)).
672  *
673  * Returns: %TRUE if the key was found (prior to 2.8, this function
674  *     returned nothing)
675  */
676 gboolean
677 q_tree_remove(QTree         *tree,
678               gconstpointer  key)
679 {
680     gboolean removed;
681 
682     g_return_val_if_fail(tree != NULL, FALSE);
683 
684     removed = q_tree_remove_internal(tree, key, FALSE);
685 
686 #ifdef Q_TREE_DEBUG
687     q_tree_node_check(tree->root);
688 #endif
689 
690     return removed;
691 }
692 
693 /**
694  * q_tree_steal:
695  * @tree: a #QTree
696  * @key: the key to remove
697  *
698  * Removes a key and its associated value from a #QTree without calling
699  * the key and value destroy functions.
700  *
701  * If the key does not exist in the #QTree, the function does nothing.
702  *
703  * Returns: %TRUE if the key was found (prior to 2.8, this function
704  *     returned nothing)
705  */
706 gboolean
707 q_tree_steal(QTree         *tree,
708              gconstpointer  key)
709 {
710     gboolean removed;
711 
712     g_return_val_if_fail(tree != NULL, FALSE);
713 
714     removed = q_tree_remove_internal(tree, key, TRUE);
715 
716 #ifdef Q_TREE_DEBUG
717     q_tree_node_check(tree->root);
718 #endif
719 
720     return removed;
721 }
722 
723 /* internal remove routine */
724 static gboolean QEMU_DISABLE_CFI
725 q_tree_remove_internal(QTree         *tree,
726                        gconstpointer  key,
727                        gboolean       steal)
728 {
729     QTreeNode *node, *parent, *balance;
730     QTreeNode *path[MAX_GTREE_HEIGHT];
731     int idx;
732     gboolean left_node;
733 
734     g_return_val_if_fail(tree != NULL, FALSE);
735 
736     if (!tree->root) {
737         return FALSE;
738     }
739 
740     idx = 0;
741     path[idx++] = NULL;
742     node = tree->root;
743 
744     while (1) {
745         int cmp = tree->key_compare(key, node->key, tree->key_compare_data);
746 
747         if (cmp == 0) {
748             break;
749         } else if (cmp < 0) {
750             if (!node->left_child) {
751                 return FALSE;
752             }
753 
754             path[idx++] = node;
755             node = node->left;
756         } else {
757             if (!node->right_child) {
758                 return FALSE;
759             }
760 
761             path[idx++] = node;
762             node = node->right;
763         }
764     }
765 
766     /*
767      * The following code is almost equal to q_tree_remove_node,
768      * except that we do not have to call q_tree_node_parent.
769      */
770     balance = parent = path[--idx];
771     g_assert(!parent || parent->left == node || parent->right == node);
772     left_node = (parent && node == parent->left);
773 
774     if (!node->left_child) {
775         if (!node->right_child) {
776             if (!parent) {
777                 tree->root = NULL;
778             } else if (left_node) {
779                 parent->left_child = FALSE;
780                 parent->left = node->left;
781                 parent->balance += 1;
782             } else {
783                 parent->right_child = FALSE;
784                 parent->right = node->right;
785                 parent->balance -= 1;
786             }
787         } else {
788             /* node has a right child */
789             QTreeNode *tmp = q_tree_node_next(node);
790             tmp->left = node->left;
791 
792             if (!parent) {
793                 tree->root = node->right;
794             } else if (left_node) {
795                 parent->left = node->right;
796                 parent->balance += 1;
797             } else {
798                 parent->right = node->right;
799                 parent->balance -= 1;
800             }
801         }
802     } else {
803         /* node has a left child */
804         if (!node->right_child) {
805             QTreeNode *tmp = q_tree_node_previous(node);
806             tmp->right = node->right;
807 
808             if (parent == NULL) {
809                 tree->root = node->left;
810             } else if (left_node) {
811                 parent->left = node->left;
812                 parent->balance += 1;
813             } else {
814                 parent->right = node->left;
815                 parent->balance -= 1;
816             }
817         } else {
818             /* node has a both children (pant, pant!) */
819             QTreeNode *prev = node->left;
820             QTreeNode *next = node->right;
821             QTreeNode *nextp = node;
822             int old_idx = idx + 1;
823             idx++;
824 
825             /* path[idx] == parent */
826             /* find the immediately next node (and its parent) */
827             while (next->left_child) {
828                 path[++idx] = nextp = next;
829                 next = next->left;
830             }
831 
832             path[old_idx] = next;
833             balance = path[idx];
834 
835             /* remove 'next' from the tree */
836             if (nextp != node) {
837                 if (next->right_child) {
838                     nextp->left = next->right;
839                 } else {
840                     nextp->left_child = FALSE;
841                 }
842                 nextp->balance += 1;
843 
844                 next->right_child = TRUE;
845                 next->right = node->right;
846             } else {
847                 node->balance -= 1;
848             }
849 
850             /* set the prev to point to the right place */
851             while (prev->right_child) {
852                 prev = prev->right;
853             }
854             prev->right = next;
855 
856             /* prepare 'next' to replace 'node' */
857             next->left_child = TRUE;
858             next->left = node->left;
859             next->balance = node->balance;
860 
861             if (!parent) {
862                 tree->root = next;
863             } else if (left_node) {
864                 parent->left = next;
865             } else {
866                 parent->right = next;
867             }
868         }
869     }
870 
871     /* restore balance */
872     if (balance) {
873         while (1) {
874             QTreeNode *bparent = path[--idx];
875             g_assert(!bparent ||
876                      bparent->left == balance ||
877                      bparent->right == balance);
878             left_node = (bparent && balance == bparent->left);
879 
880             if (balance->balance < -1 || balance->balance > 1) {
881                 balance = q_tree_node_balance(balance);
882                 if (!bparent) {
883                     tree->root = balance;
884                 } else if (left_node) {
885                     bparent->left = balance;
886                 } else {
887                     bparent->right = balance;
888                 }
889             }
890 
891             if (balance->balance != 0 || !bparent) {
892                 break;
893             }
894 
895             if (left_node) {
896                 bparent->balance += 1;
897             } else {
898                 bparent->balance -= 1;
899             }
900 
901             balance = bparent;
902         }
903     }
904 
905     if (!steal) {
906         if (tree->key_destroy_func) {
907             tree->key_destroy_func(node->key);
908         }
909         if (tree->value_destroy_func) {
910             tree->value_destroy_func(node->value);
911         }
912     }
913 
914     g_free(node);
915 
916     tree->nnodes--;
917 
918     return TRUE;
919 }
920 
921 /**
922  * q_tree_lookup_node:
923  * @tree: a #QTree
924  * @key: the key to look up
925  *
926  * Gets the tree node corresponding to the given key. Since a #QTree is
927  * automatically balanced as key/value pairs are added, key lookup
928  * is O(log n) (where n is the number of key/value pairs in the tree).
929  *
930  * Returns: (nullable) (transfer none): the tree node corresponding to
931  *          the key, or %NULL if the key was not found
932  *
933  * Since: 2.68 in GLib. Internal in Qtree, i.e. not in the public API.
934  */
935 static QTreeNode *
936 q_tree_lookup_node(QTree         *tree,
937                    gconstpointer  key)
938 {
939     g_return_val_if_fail(tree != NULL, NULL);
940 
941     return q_tree_find_node(tree, key);
942 }
943 
944 /**
945  * q_tree_lookup:
946  * @tree: a #QTree
947  * @key: the key to look up
948  *
949  * Gets the value corresponding to the given key. Since a #QTree is
950  * automatically balanced as key/value pairs are added, key lookup
951  * is O(log n) (where n is the number of key/value pairs in the tree).
952  *
953  * Returns: the value corresponding to the key, or %NULL
954  *     if the key was not found
955  */
956 gpointer
957 q_tree_lookup(QTree         *tree,
958               gconstpointer  key)
959 {
960     QTreeNode *node;
961 
962     node = q_tree_lookup_node(tree, key);
963 
964     return node ? node->value : NULL;
965 }
966 
967 /**
968  * q_tree_lookup_extended:
969  * @tree: a #QTree
970  * @lookup_key: the key to look up
971  * @orig_key: (out) (optional) (nullable): returns the original key
972  * @value: (out) (optional) (nullable): returns the value associated with
973  *         the key
974  *
975  * Looks up a key in the #QTree, returning the original key and the
976  * associated value. This is useful if you need to free the memory
977  * allocated for the original key, for example before calling
978  * q_tree_remove().
979  *
980  * Returns: %TRUE if the key was found in the #QTree
981  */
982 gboolean
983 q_tree_lookup_extended(QTree         *tree,
984                        gconstpointer  lookup_key,
985                        gpointer      *orig_key,
986                        gpointer      *value)
987 {
988     QTreeNode *node;
989 
990     g_return_val_if_fail(tree != NULL, FALSE);
991 
992     node = q_tree_find_node(tree, lookup_key);
993 
994     if (node) {
995         if (orig_key) {
996             *orig_key = node->key;
997         }
998         if (value) {
999             *value = node->value;
1000         }
1001         return TRUE;
1002     } else {
1003         return FALSE;
1004     }
1005 }
1006 
1007 /**
1008  * q_tree_foreach:
1009  * @tree: a #QTree
1010  * @func: the function to call for each node visited.
1011  *     If this function returns %TRUE, the traversal is stopped.
1012  * @user_data: user data to pass to the function
1013  *
1014  * Calls the given function for each of the key/value pairs in the #QTree.
1015  * The function is passed the key and value of each pair, and the given
1016  * @data parameter. The tree is traversed in sorted order.
1017  *
1018  * The tree may not be modified while iterating over it (you can't
1019  * add/remove items). To remove all items matching a predicate, you need
1020  * to add each item to a list in your #GTraverseFunc as you walk over
1021  * the tree, then walk the list and remove each item.
1022  */
1023 void
1024 q_tree_foreach(QTree         *tree,
1025                GTraverseFunc  func,
1026                gpointer       user_data)
1027 {
1028     QTreeNode *node;
1029 
1030     g_return_if_fail(tree != NULL);
1031 
1032     if (!tree->root) {
1033         return;
1034     }
1035 
1036     node = q_tree_node_first(tree);
1037 
1038     while (node) {
1039         if ((*func)(node->key, node->value, user_data)) {
1040             break;
1041         }
1042 
1043         node = q_tree_node_next(node);
1044     }
1045 }
1046 
1047 /**
1048  * q_tree_search_node:
1049  * @tree: a #QTree
1050  * @search_func: a function used to search the #QTree
1051  * @user_data: the data passed as the second argument to @search_func
1052  *
1053  * Searches a #QTree using @search_func.
1054  *
1055  * The @search_func is called with a pointer to the key of a key/value
1056  * pair in the tree, and the passed in @user_data. If @search_func returns
1057  * 0 for a key/value pair, then the corresponding node is returned as
1058  * the result of q_tree_search(). If @search_func returns -1, searching
1059  * will proceed among the key/value pairs that have a smaller key; if
1060  * @search_func returns 1, searching will proceed among the key/value
1061  * pairs that have a larger key.
1062  *
1063  * Returns: (nullable) (transfer none): the node corresponding to the
1064  *          found key, or %NULL if the key was not found
1065  *
1066  * Since: 2.68 in GLib. Internal in Qtree, i.e. not in the public API.
1067  */
1068 static QTreeNode *
1069 q_tree_search_node(QTree         *tree,
1070                    GCompareFunc   search_func,
1071                    gconstpointer  user_data)
1072 {
1073     g_return_val_if_fail(tree != NULL, NULL);
1074 
1075     if (!tree->root) {
1076         return NULL;
1077     }
1078 
1079     return q_tree_node_search(tree->root, search_func, user_data);
1080 }
1081 
1082 /**
1083  * q_tree_search:
1084  * @tree: a #QTree
1085  * @search_func: a function used to search the #QTree
1086  * @user_data: the data passed as the second argument to @search_func
1087  *
1088  * Searches a #QTree using @search_func.
1089  *
1090  * The @search_func is called with a pointer to the key of a key/value
1091  * pair in the tree, and the passed in @user_data. If @search_func returns
1092  * 0 for a key/value pair, then the corresponding value is returned as
1093  * the result of q_tree_search(). If @search_func returns -1, searching
1094  * will proceed among the key/value pairs that have a smaller key; if
1095  * @search_func returns 1, searching will proceed among the key/value
1096  * pairs that have a larger key.
1097  *
1098  * Returns: the value corresponding to the found key, or %NULL
1099  *     if the key was not found
1100  */
1101 gpointer
1102 q_tree_search(QTree         *tree,
1103               GCompareFunc   search_func,
1104               gconstpointer  user_data)
1105 {
1106     QTreeNode *node;
1107 
1108     node = q_tree_search_node(tree, search_func, user_data);
1109 
1110     return node ? node->value : NULL;
1111 }
1112 
1113 /**
1114  * q_tree_height:
1115  * @tree: a #QTree
1116  *
1117  * Gets the height of a #QTree.
1118  *
1119  * If the #QTree contains no nodes, the height is 0.
1120  * If the #QTree contains only one root node the height is 1.
1121  * If the root node has children the height is 2, etc.
1122  *
1123  * Returns: the height of @tree
1124  */
1125 gint
1126 q_tree_height(QTree *tree)
1127 {
1128     QTreeNode *node;
1129     gint height;
1130 
1131     g_return_val_if_fail(tree != NULL, 0);
1132 
1133     if (!tree->root) {
1134         return 0;
1135     }
1136 
1137     height = 0;
1138     node = tree->root;
1139 
1140     while (1) {
1141         height += 1 + MAX(node->balance, 0);
1142 
1143         if (!node->left_child) {
1144             return height;
1145         }
1146 
1147         node = node->left;
1148     }
1149 }
1150 
1151 /**
1152  * q_tree_nnodes:
1153  * @tree: a #QTree
1154  *
1155  * Gets the number of nodes in a #QTree.
1156  *
1157  * Returns: the number of nodes in @tree
1158  */
1159 gint
1160 q_tree_nnodes(QTree *tree)
1161 {
1162     g_return_val_if_fail(tree != NULL, 0);
1163 
1164     return tree->nnodes;
1165 }
1166 
1167 static QTreeNode *
1168 q_tree_node_balance(QTreeNode *node)
1169 {
1170     if (node->balance < -1) {
1171         if (node->left->balance > 0) {
1172             node->left = q_tree_node_rotate_left(node->left);
1173         }
1174         node = q_tree_node_rotate_right(node);
1175     } else if (node->balance > 1) {
1176         if (node->right->balance < 0) {
1177             node->right = q_tree_node_rotate_right(node->right);
1178         }
1179         node = q_tree_node_rotate_left(node);
1180     }
1181 
1182     return node;
1183 }
1184 
1185 static QTreeNode * QEMU_DISABLE_CFI
1186 q_tree_find_node(QTree        *tree,
1187                  gconstpointer key)
1188 {
1189     QTreeNode *node;
1190     gint cmp;
1191 
1192     node = tree->root;
1193     if (!node) {
1194         return NULL;
1195     }
1196 
1197     while (1) {
1198         cmp = tree->key_compare(key, node->key, tree->key_compare_data);
1199         if (cmp == 0) {
1200             return node;
1201         } else if (cmp < 0) {
1202             if (!node->left_child) {
1203                 return NULL;
1204             }
1205 
1206             node = node->left;
1207         } else {
1208             if (!node->right_child) {
1209                 return NULL;
1210             }
1211 
1212             node = node->right;
1213         }
1214     }
1215 }
1216 
1217 static QTreeNode *
1218 q_tree_node_search(QTreeNode     *node,
1219                    GCompareFunc   search_func,
1220                    gconstpointer  data)
1221 {
1222     gint dir;
1223 
1224     if (!node) {
1225         return NULL;
1226     }
1227 
1228     while (1) {
1229         dir = (*search_func)(node->key, data);
1230         if (dir == 0) {
1231             return node;
1232         } else if (dir < 0) {
1233             if (!node->left_child) {
1234                 return NULL;
1235             }
1236 
1237             node = node->left;
1238         } else {
1239             if (!node->right_child) {
1240                 return NULL;
1241             }
1242 
1243             node = node->right;
1244         }
1245     }
1246 }
1247 
1248 static QTreeNode *
1249 q_tree_node_rotate_left(QTreeNode *node)
1250 {
1251     QTreeNode *right;
1252     gint a_bal;
1253     gint b_bal;
1254 
1255     right = node->right;
1256 
1257     if (right->left_child) {
1258         node->right = right->left;
1259     } else {
1260         node->right_child = FALSE;
1261         right->left_child = TRUE;
1262     }
1263     right->left = node;
1264 
1265     a_bal = node->balance;
1266     b_bal = right->balance;
1267 
1268     if (b_bal <= 0) {
1269         if (a_bal >= 1) {
1270             right->balance = b_bal - 1;
1271         } else {
1272             right->balance = a_bal + b_bal - 2;
1273         }
1274         node->balance = a_bal - 1;
1275     } else {
1276         if (a_bal <= b_bal) {
1277             right->balance = a_bal - 2;
1278         } else {
1279             right->balance = b_bal - 1;
1280         }
1281         node->balance = a_bal - b_bal - 1;
1282     }
1283 
1284     return right;
1285 }
1286 
1287 static QTreeNode *
1288 q_tree_node_rotate_right(QTreeNode *node)
1289 {
1290     QTreeNode *left;
1291     gint a_bal;
1292     gint b_bal;
1293 
1294     left = node->left;
1295 
1296     if (left->right_child) {
1297         node->left = left->right;
1298     } else {
1299         node->left_child = FALSE;
1300         left->right_child = TRUE;
1301     }
1302     left->right = node;
1303 
1304     a_bal = node->balance;
1305     b_bal = left->balance;
1306 
1307     if (b_bal <= 0) {
1308         if (b_bal > a_bal) {
1309             left->balance = b_bal + 1;
1310         } else {
1311             left->balance = a_bal + 2;
1312         }
1313         node->balance = a_bal - b_bal + 1;
1314     } else {
1315         if (a_bal <= -1) {
1316             left->balance = b_bal + 1;
1317         } else {
1318             left->balance = a_bal + b_bal + 2;
1319         }
1320         node->balance = a_bal + 1;
1321     }
1322 
1323     return left;
1324 }
1325 
1326 #ifdef Q_TREE_DEBUG
1327 static gint
1328 q_tree_node_height(QTreeNode *node)
1329 {
1330     gint left_height;
1331     gint right_height;
1332 
1333     if (node) {
1334         left_height = 0;
1335         right_height = 0;
1336 
1337         if (node->left_child) {
1338             left_height = q_tree_node_height(node->left);
1339         }
1340 
1341         if (node->right_child) {
1342             right_height = q_tree_node_height(node->right);
1343         }
1344 
1345         return MAX(left_height, right_height) + 1;
1346     }
1347 
1348     return 0;
1349 }
1350 
1351 static void q_tree_node_check(QTreeNode *node)
1352 {
1353     gint left_height;
1354     gint right_height;
1355     gint balance;
1356     QTreeNode *tmp;
1357 
1358     if (node) {
1359         if (node->left_child) {
1360             tmp = q_tree_node_previous(node);
1361             g_assert(tmp->right == node);
1362         }
1363 
1364         if (node->right_child) {
1365             tmp = q_tree_node_next(node);
1366             g_assert(tmp->left == node);
1367         }
1368 
1369         left_height = 0;
1370         right_height = 0;
1371 
1372         if (node->left_child) {
1373             left_height = q_tree_node_height(node->left);
1374         }
1375         if (node->right_child) {
1376             right_height = q_tree_node_height(node->right);
1377         }
1378 
1379         balance = right_height - left_height;
1380         g_assert(balance == node->balance);
1381 
1382         if (node->left_child) {
1383             q_tree_node_check(node->left);
1384         }
1385         if (node->right_child) {
1386             q_tree_node_check(node->right);
1387         }
1388     }
1389 }
1390 #endif
1391