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goma / wine / cfcc0dda15eb04c87319e2a0cd61212cdf8dcce7 / . / include / wine / rbtree.h
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/*
* Red-black search tree support
*
* Copyright 2009 Henri Verbeet
* Copyright 2009 Andrew Riedi
* Copyright 2016 Jacek Caban for CodeWeavers
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
#ifndef __WINE_WINE_RBTREE_H
#define __WINE_WINE_RBTREE_H
#define WINE_RB_ENTRY_VALUE(element, type, field) \
((type *)((char *)(element) - offsetof(type, field)))
struct wine_rb_entry
{
struct wine_rb_entry *parent;
struct wine_rb_entry *left;
struct wine_rb_entry *right;
unsigned int flags;
};
typedef int (*wine_rb_compare_func_t)(const void *key, const struct wine_rb_entry *entry);
struct wine_rb_tree
{
wine_rb_compare_func_t compare;
struct wine_rb_entry *root;
};
typedef void (wine_rb_traverse_func_t)(struct wine_rb_entry *entry, void *context);
#define WINE_RB_FLAG_RED 0x1
static inline int wine_rb_is_red(struct wine_rb_entry *entry)
{
return entry && (entry->flags & WINE_RB_FLAG_RED);
}
static inline void wine_rb_rotate_left(struct wine_rb_tree *tree, struct wine_rb_entry *e)
{
struct wine_rb_entry *right = e->right;
if (!e->parent)
tree->root = right;
else if (e->parent->left == e)
e->parent->left = right;
else
e->parent->right = right;
e->right = right->left;
if (e->right) e->right->parent = e;
right->left = e;
right->parent = e->parent;
e->parent = right;
}
static inline void wine_rb_rotate_right(struct wine_rb_tree *tree, struct wine_rb_entry *e)
{
struct wine_rb_entry *left = e->left;
if (!e->parent)
tree->root = left;
else if (e->parent->left == e)
e->parent->left = left;
else
e->parent->right = left;
e->left = left->right;
if (e->left) e->left->parent = e;
left->right = e;
left->parent = e->parent;
e->parent = left;
}
static inline void wine_rb_flip_color(struct wine_rb_entry *entry)
{
entry->flags ^= WINE_RB_FLAG_RED;
entry->left->flags ^= WINE_RB_FLAG_RED;
entry->right->flags ^= WINE_RB_FLAG_RED;
}
static inline struct wine_rb_entry *wine_rb_head(struct wine_rb_entry *iter)
{
if (!iter) return NULL;
while (iter->left) iter = iter->left;
return iter;
}
static inline struct wine_rb_entry *wine_rb_tail(struct wine_rb_entry *iter)
{
if (!iter) return NULL;
while (iter->right) iter = iter->right;
return iter;
}
static inline struct wine_rb_entry *wine_rb_next(struct wine_rb_entry *iter)
{
if (iter->right) return wine_rb_head(iter->right);
while (iter->parent && iter->parent->right == iter) iter = iter->parent;
return iter->parent;
}
static inline struct wine_rb_entry *wine_rb_prev(struct wine_rb_entry *iter)
{
if (iter->left) return wine_rb_tail(iter->left);
while (iter->parent && iter->parent->left == iter) iter = iter->parent;
return iter->parent;
}
static inline struct wine_rb_entry *wine_rb_postorder_head(struct wine_rb_entry *iter)
{
if (!iter) return NULL;
for (;;) {
while (iter->left) iter = iter->left;
if (!iter->right) return iter;
iter = iter->right;
}
}
static inline struct wine_rb_entry *wine_rb_postorder_next(struct wine_rb_entry *iter)
{
if (!iter->parent) return NULL;
if (iter == iter->parent->right || !iter->parent->right) return iter->parent;
return wine_rb_postorder_head(iter->parent->right);
}
/* iterate through the tree */
#define WINE_RB_FOR_EACH(cursor, tree) \
for ((cursor) = wine_rb_head((tree)->root); (cursor); (cursor) = wine_rb_next(cursor))
/* iterate through the tree using a tree entry */
#define WINE_RB_FOR_EACH_ENTRY(elem, tree, type, field) \
for ((elem) = WINE_RB_ENTRY_VALUE(wine_rb_head((tree)->root), type, field); \
&(elem)->field; \
(elem) = WINE_RB_ENTRY_VALUE(wine_rb_next(&elem->field), type, field))
/* iterate through the tree using using postorder, making it safe to free the entry */
#define WINE_RB_FOR_EACH_DESTRUCTOR(cursor, cursor2, tree) \
for ((cursor) = wine_rb_postorder_head((tree)->root); \
(cursor) && (((cursor2) = wine_rb_postorder_next(cursor)) || 1); \
(cursor) = (cursor2))
/* iterate through the tree using a tree entry and postorder, making it safe to free the entry */
#define WINE_RB_FOR_EACH_ENTRY_DESTRUCTOR(elem, elem2, tree, type, field) \
for ((elem) = WINE_RB_ENTRY_VALUE(wine_rb_postorder_head((tree)->root), type, field); \
&(elem)->field \
&& (((elem2) = WINE_RB_ENTRY_VALUE(wine_rb_postorder_next(&(elem)->field), type, field)) || 1); \
(elem) = (elem2))
static inline void wine_rb_postorder(struct wine_rb_tree *tree, wine_rb_traverse_func_t *callback, void *context)
{
struct wine_rb_entry *iter, *next;
WINE_RB_FOR_EACH_DESTRUCTOR(iter, next, tree) callback(iter, context);
}
static inline void wine_rb_init(struct wine_rb_tree *tree, wine_rb_compare_func_t compare)
{
tree->compare = compare;
tree->root = NULL;
}
static inline void wine_rb_for_each_entry(struct wine_rb_tree *tree, wine_rb_traverse_func_t *callback, void *context)
{
struct wine_rb_entry *iter;
WINE_RB_FOR_EACH(iter, tree) callback(iter, context);
}
static inline void wine_rb_clear(struct wine_rb_tree *tree, wine_rb_traverse_func_t *callback, void *context)
{
/* Note that we use postorder here because the callback will likely free the entry. */
if (callback) wine_rb_postorder(tree, callback, context);
tree->root = NULL;
}
static inline void wine_rb_destroy(struct wine_rb_tree *tree, wine_rb_traverse_func_t *callback, void *context)
{
wine_rb_clear(tree, callback, context);
}
static inline struct wine_rb_entry *wine_rb_get(const struct wine_rb_tree *tree, const void *key)
{
struct wine_rb_entry *entry = tree->root;
while (entry)
{
int c = tree->compare(key, entry);
if (!c) return entry;
entry = c < 0 ? entry->left : entry->right;
}
return NULL;
}
static inline int wine_rb_put(struct wine_rb_tree *tree, const void *key, struct wine_rb_entry *entry)
{
struct wine_rb_entry **iter = &tree->root, *parent = tree->root;
while (*iter)
{
int c;
parent = *iter;
c = tree->compare(key, parent);
if (!c) return -1;
else if (c < 0) iter = &parent->left;
else iter = &parent->right;
}
entry->flags = WINE_RB_FLAG_RED;
entry->parent = parent;
entry->left = NULL;
entry->right = NULL;
*iter = entry;
while (wine_rb_is_red(entry->parent))
{
if (entry->parent == entry->parent->parent->left)
{
if (wine_rb_is_red(entry->parent->parent->right))
{
wine_rb_flip_color(entry->parent->parent);
entry = entry->parent->parent;
}
else
{
if (entry == entry->parent->right)
{
entry = entry->parent;
wine_rb_rotate_left(tree, entry);
}
entry->parent->flags &= ~WINE_RB_FLAG_RED;
entry->parent->parent->flags |= WINE_RB_FLAG_RED;
wine_rb_rotate_right(tree, entry->parent->parent);
}
}
else
{
if (wine_rb_is_red(entry->parent->parent->left))
{
wine_rb_flip_color(entry->parent->parent);
entry = entry->parent->parent;
}
else
{
if (entry == entry->parent->left)
{
entry = entry->parent;
wine_rb_rotate_right(tree, entry);
}
entry->parent->flags &= ~WINE_RB_FLAG_RED;
entry->parent->parent->flags |= WINE_RB_FLAG_RED;
wine_rb_rotate_left(tree, entry->parent->parent);
}
}
}
tree->root->flags &= ~WINE_RB_FLAG_RED;
return 0;
}
static inline void wine_rb_remove(struct wine_rb_tree *tree, struct wine_rb_entry *entry)
{
struct wine_rb_entry *iter, *child, *parent, *w;
int need_fixup;
if (entry->right && entry->left)
for(iter = entry->right; iter->left; iter = iter->left);
else
iter = entry;
child = iter->left ? iter->left : iter->right;
if (!iter->parent)
tree->root = child;
else if (iter == iter->parent->left)
iter->parent->left = child;
else
iter->parent->right = child;
if (child) child->parent = iter->parent;
parent = iter->parent;
need_fixup = !wine_rb_is_red(iter);
if (entry != iter)
{
*iter = *entry;
if (!iter->parent)
tree->root = iter;
else if (entry == iter->parent->left)
iter->parent->left = iter;
else
iter->parent->right = iter;
if (iter->right) iter->right->parent = iter;
if (iter->left) iter->left->parent = iter;
if (parent == entry) parent = iter;
}
if (need_fixup)
{
while (parent && !wine_rb_is_red(child))
{
if (child == parent->left)
{
w = parent->right;
if (wine_rb_is_red(w))
{
w->flags &= ~WINE_RB_FLAG_RED;
parent->flags |= WINE_RB_FLAG_RED;
wine_rb_rotate_left(tree, parent);
w = parent->right;
}
if (wine_rb_is_red(w->left) || wine_rb_is_red(w->right))
{
if (!wine_rb_is_red(w->right))
{
w->left->flags &= ~WINE_RB_FLAG_RED;
w->flags |= WINE_RB_FLAG_RED;
wine_rb_rotate_right(tree, w);
w = parent->right;
}
w->flags = (w->flags & ~WINE_RB_FLAG_RED) | (parent->flags & WINE_RB_FLAG_RED);
parent->flags &= ~WINE_RB_FLAG_RED;
if (w->right)
w->right->flags &= ~WINE_RB_FLAG_RED;
wine_rb_rotate_left(tree, parent);
child = NULL;
break;
}
}
else
{
w = parent->left;
if (wine_rb_is_red(w))
{
w->flags &= ~WINE_RB_FLAG_RED;
parent->flags |= WINE_RB_FLAG_RED;
wine_rb_rotate_right(tree, parent);
w = parent->left;
}
if (wine_rb_is_red(w->left) || wine_rb_is_red(w->right))
{
if (!wine_rb_is_red(w->left))
{
w->right->flags &= ~WINE_RB_FLAG_RED;
w->flags |= WINE_RB_FLAG_RED;
wine_rb_rotate_left(tree, w);
w = parent->left;
}
w->flags = (w->flags & ~WINE_RB_FLAG_RED) | (parent->flags & WINE_RB_FLAG_RED);
parent->flags &= ~WINE_RB_FLAG_RED;
if (w->left)
w->left->flags &= ~WINE_RB_FLAG_RED;
wine_rb_rotate_right(tree, parent);
child = NULL;
break;
}
}
w->flags |= WINE_RB_FLAG_RED;
child = parent;
parent = child->parent;
}
if (child) child->flags &= ~WINE_RB_FLAG_RED;
}
if (tree->root) tree->root->flags &= ~WINE_RB_FLAG_RED;
}
static inline void wine_rb_remove_key(struct wine_rb_tree *tree, const void *key)
{
struct wine_rb_entry *entry = wine_rb_get(tree, key);
if (entry) wine_rb_remove(tree, entry);
}
#endif /* __WINE_WINE_RBTREE_H */