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324 lines
28 KiB
C
324 lines
28 KiB
C
#ifndef _KERNEL_LIBK_RBTREE_H
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#define _KERNEL_LIBK_RBTREE_H
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struct rb_node_link {
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struct rb_node_link* left;
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struct rb_node_link* right;
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struct rb_node_link* parent;
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int color;
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};
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#define RBTREE_RED 0
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#define RBTREE_BLACK 1
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#define rbtree_parent(x) ((x)->parent)
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#define rbtree_left(x) ((x)->left)
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#define rbtree_right(x) ((x)->right)
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#define rbtree_color(x) ((x)->color)
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#define rbtree_entry(node, type, member) ((type*)((char*)(node) - offsetof (type, member)))
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#define rbtree_node_color(x) ((x) ? (x)->color : RBTREE_BLACK)
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#define rbtree_rotate_left(root_ptr, x_node) \
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do { \
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struct rb_node_link* __x = (x_node); \
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struct rb_node_link* __y = __x->right; \
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__x->right = __y->left; \
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if (__y->left) \
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__y->left->parent = __x; \
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__y->parent = __x->parent; \
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if (!__x->parent) \
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*(root_ptr) = __y; \
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else if (__x == __x->parent->left) \
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__x->parent->left = __y; \
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else \
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__x->parent->right = __y; \
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__y->left = __x; \
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__x->parent = __y; \
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} while (0)
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#define rbtree_rotate_right(root_ptr, y_node) \
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do { \
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struct rb_node_link* __y = (y_node); \
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struct rb_node_link* __x = __y->left; \
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__y->left = __x->right; \
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if (__x->right) \
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__x->right->parent = __y; \
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__x->parent = __y->parent; \
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if (!__y->parent) \
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*(root_ptr) = __x; \
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else if (__y == __y->parent->right) \
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__y->parent->right = __x; \
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else \
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__y->parent->left = __x; \
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__x->right = __y; \
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__y->parent = __x; \
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} while (0)
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#define rbtree_insert_fixup(root_ptr, z_node) \
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do { \
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struct rb_node_link* __z = (z_node); \
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while (__z->parent && __z->parent->color == RBTREE_RED) { \
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if (__z->parent == __z->parent->parent->left) { \
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struct rb_node_link* __y = __z->parent->parent->right; \
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if (rbtree_node_color (__y) == RBTREE_RED) { \
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__z->parent->color = RBTREE_BLACK; \
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__y->color = RBTREE_BLACK; \
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__z->parent->parent->color = RBTREE_RED; \
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__z = __z->parent->parent; \
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} else { \
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if (__z == __z->parent->right) { \
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__z = __z->parent; \
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rbtree_rotate_left (root_ptr, __z); \
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} \
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__z->parent->color = RBTREE_BLACK; \
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__z->parent->parent->color = RBTREE_RED; \
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rbtree_rotate_right (root_ptr, __z->parent->parent); \
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} \
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} else { \
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struct rb_node_link* __y = __z->parent->parent->left; \
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if (rbtree_node_color (__y) == RBTREE_RED) { \
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__z->parent->color = RBTREE_BLACK; \
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__y->color = RBTREE_BLACK; \
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__z->parent->parent->color = RBTREE_RED; \
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__z = __z->parent->parent; \
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} else { \
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if (__z == __z->parent->left) { \
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__z = __z->parent; \
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rbtree_rotate_right (root_ptr, __z); \
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} \
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__z->parent->color = RBTREE_BLACK; \
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__z->parent->parent->color = RBTREE_RED; \
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rbtree_rotate_left (root_ptr, __z->parent->parent); \
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} \
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} \
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} \
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(*(root_ptr))->color = RBTREE_BLACK; \
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} while (0)
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#define rbtree_insert(type, root_ptr, node, member, keyfield) \
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do { \
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struct rb_node_link** __link = (root_ptr); \
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struct rb_node_link* __parent = NULL; \
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struct rb_node_link* __new = (node); \
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type* __nobj = rbtree_entry (__new, type, member); \
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while (*__link) { \
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__parent = *__link; \
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type* __xobj = rbtree_entry (*__link, type, member); \
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if (__nobj->keyfield < __xobj->keyfield) \
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__link = &((*__link)->left); \
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else \
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__link = &((*__link)->right); \
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} \
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__new->parent = __parent; \
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__new->left = __new->right = NULL; \
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__new->color = RBTREE_RED; \
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*__link = __new; \
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rbtree_insert_fixup (root_ptr, __new); \
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} while (0)
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#define rbtree_find(type, root_ptr, keyval, out, member, keyfield) \
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do { \
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(out) = NULL; \
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struct rb_node_link* __cur = *(root_ptr); \
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while (__cur) { \
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type* __obj = rbtree_entry (__cur, type, member); \
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if ((keyval) == __obj->keyfield) { \
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(out) = rbtree_entry (__cur, type, member); \
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break; \
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} else if ((keyval) < __obj->keyfield) \
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__cur = __cur->left; \
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else \
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__cur = __cur->right; \
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} \
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} while (0)
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#define rbtree_min(node, out) \
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do { \
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(out) = NULL; \
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struct rb_node_link* __n = (node); \
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while (__n && __n->left) \
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__n = __n->left; \
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(out) = __n; \
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} while (0)
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#define rbtree_max(node, out) \
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do { \
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(out) = NULL; \
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struct rb_node_link* __n = (node); \
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while (__n && __n->right) \
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__n = __n->right; \
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(out) = __n; \
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} while (0)
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#define rbtree_first(root_ptr, out) rbtree_min (*(root_ptr), out)
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#define rbtree_last(root_ptr, out) rbtree_max (*(root_ptr), out)
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#define rbtree_transplant(root_ptr, u_node, v_node) \
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do { \
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struct rb_node_link* __u = (u_node); \
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struct rb_node_link* __v = (v_node); \
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if (!__u->parent) \
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*(root_ptr) = __v; \
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else if (__u == __u->parent->left) \
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__u->parent->left = __v; \
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else \
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__u->parent->right = __v; \
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if (__v) \
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__v->parent = __u->parent; \
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} while (0)
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#define rbtree_delete_fixup(root_ptr, x_node, xparent_node) \
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do { \
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struct rb_node_link* __rdf_x = (x_node); \
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struct rb_node_link* __rdf_xp = (xparent_node); \
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while (__rdf_xp && (__rdf_x == NULL || __rdf_x->color == RBTREE_BLACK)) { \
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if (__rdf_x == __rdf_xp->left) { \
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struct rb_node_link* __w = __rdf_xp->right; \
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if (rbtree_node_color (__w) == RBTREE_RED) { \
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__w->color = RBTREE_BLACK; \
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__rdf_xp->color = RBTREE_RED; \
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rbtree_rotate_left (root_ptr, __rdf_xp); \
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__w = __rdf_xp->right; \
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} \
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if (rbtree_node_color (__w->left) == RBTREE_BLACK && \
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rbtree_node_color (__w->right) == RBTREE_BLACK) { \
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if (__w) \
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__w->color = RBTREE_RED; \
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__rdf_x = __rdf_xp; \
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__rdf_xp = __rdf_x->parent; \
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} else { \
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if (rbtree_node_color (__w->right) == RBTREE_BLACK) { \
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if (__w->left) \
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__w->left->color = RBTREE_BLACK; \
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__w->color = RBTREE_RED; \
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rbtree_rotate_right (root_ptr, __w); \
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__w = __rdf_xp->right; \
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} \
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__w->color = __rdf_xp->color; \
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__rdf_xp->color = RBTREE_BLACK; \
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if (__w->right) \
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__w->right->color = RBTREE_BLACK; \
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rbtree_rotate_left (root_ptr, __rdf_xp); \
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__rdf_x = *(root_ptr); \
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break; \
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} \
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} else { \
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struct rb_node_link* __w = __rdf_xp->left; \
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if (rbtree_node_color (__w) == RBTREE_RED) { \
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__w->color = RBTREE_BLACK; \
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__rdf_xp->color = RBTREE_RED; \
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rbtree_rotate_right (root_ptr, __rdf_xp); \
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__w = __rdf_xp->left; \
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} \
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if (rbtree_node_color (__w->right) == RBTREE_BLACK && \
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rbtree_node_color (__w->left) == RBTREE_BLACK) { \
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if (__w) \
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__w->color = RBTREE_RED; \
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__rdf_x = __rdf_xp; \
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__rdf_xp = __rdf_x->parent; \
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} else { \
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if (rbtree_node_color (__w->left) == RBTREE_BLACK) { \
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if (__w->right) \
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__w->right->color = RBTREE_BLACK; \
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__w->color = RBTREE_RED; \
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rbtree_rotate_left (root_ptr, __w); \
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__w = __rdf_xp->left; \
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} \
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__w->color = __rdf_xp->color; \
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__rdf_xp->color = RBTREE_BLACK; \
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if (__w->left) \
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__w->left->color = RBTREE_BLACK; \
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rbtree_rotate_right (root_ptr, __rdf_xp); \
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__rdf_x = *(root_ptr); \
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break; \
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} \
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} \
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} \
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if (__rdf_x) \
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__rdf_x->color = RBTREE_BLACK; \
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} while (0)
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#define rbtree_delete(root_ptr, z_node) \
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do { \
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struct rb_node_link* __rd_z = (z_node); \
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struct rb_node_link* __rd_y = __rd_z; \
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struct rb_node_link* __rd_x = NULL; \
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struct rb_node_link* __rd_xp = NULL; \
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int __rd_y_orig_color = __rd_y->color; \
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if (!__rd_z->left) { \
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__rd_x = __rd_z->right; \
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__rd_xp = __rd_z->parent; \
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rbtree_transplant (root_ptr, __rd_z, __rd_z->right); \
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} else if (!__rd_z->right) { \
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__rd_x = __rd_z->left; \
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__rd_xp = __rd_z->parent; \
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rbtree_transplant (root_ptr, __rd_z, __rd_z->left); \
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} else { \
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rbtree_min (__rd_z->right, __rd_y); \
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__rd_y_orig_color = __rd_y->color; \
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__rd_x = __rd_y->right; \
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if (__rd_y->parent == __rd_z) { \
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__rd_xp = __rd_y; \
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if (__rd_x) \
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__rd_x->parent = __rd_y; \
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} else { \
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__rd_xp = __rd_y->parent; \
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rbtree_transplant (root_ptr, __rd_y, __rd_y->right); \
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__rd_y->right = __rd_z->right; \
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__rd_y->right->parent = __rd_y; \
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} \
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rbtree_transplant (root_ptr, __rd_z, __rd_y); \
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__rd_y->left = __rd_z->left; \
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__rd_y->left->parent = __rd_y; \
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__rd_y->color = __rd_z->color; \
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} \
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if (__rd_y_orig_color == RBTREE_BLACK) \
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rbtree_delete_fixup (root_ptr, __rd_x, __rd_xp); \
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} while (0)
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#define rbtree_next(node, out) \
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do { \
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(out) = NULL; \
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if (node) { \
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if ((node)->right) { \
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struct rb_node_link* __n = (node)->right; \
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while (__n->left) \
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__n = __n->left; \
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(out) = __n; \
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} else { \
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struct rb_node_link* __n = (node); \
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struct rb_node_link* __p = (node)->parent; \
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while (__p && __n == __p->right) { \
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__n = __p; \
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__p = __p->parent; \
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} \
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(out) = __p; \
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} \
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} \
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} while (0)
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#define rbtree_prev(node, out) \
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do { \
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(out) = NULL; \
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if (node) { \
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if ((node)->left) { \
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struct rb_node_link* __n = (node)->left; \
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while (__n->right) \
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__n = __n->right; \
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(out) = __n; \
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} else { \
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struct rb_node_link* __n = (node); \
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struct rb_node_link* __p = (node)->parent; \
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while (__p && __n == __p->left) { \
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__n = __p; \
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__p = __p->parent; \
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} \
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(out) = __p; \
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} \
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} \
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} while (0)
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#endif // _KERNEL_LIBK_RBTREE_H
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