/* * Copyright (c) 2010, 2011 Richard Braun. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #ifndef _KERN_RBTREE_I_H #define _KERN_RBTREE_I_H #include /* * Red-black node structure. * * To reduce the number of branches and the instruction cache footprint, * the left and right child pointers are stored in an array, and the symmetry * of most tree operations is exploited by using left/right variables when * referring to children. * * In addition, this implementation assumes that all nodes are 4-byte aligned, * so that the least significant bit of the parent member can be used to store * the color of the node. This is true for all modern 32 and 64 bits * architectures, as long as the nodes aren't embedded in structures with * special alignment constraints such as member packing. */ struct rbtree_node { unsigned long parent; struct rbtree_node *children[2]; }; /* * Red-black tree structure. */ struct rbtree { struct rbtree_node *root; }; /* * Masks applied on the parent member of a node to obtain either the * color or the parent address. */ #define RBTREE_COLOR_MASK 0x1UL #define RBTREE_PARENT_MASK (~0x3UL) /* * Node colors. */ #define RBTREE_COLOR_RED 0 #define RBTREE_COLOR_BLACK 1 /* * Masks applied on slots to obtain either the child index or the parent * address. */ #define RBTREE_SLOT_INDEX_MASK 0x1UL #define RBTREE_SLOT_PARENT_MASK (~RBTREE_SLOT_INDEX_MASK) /* * Return true if the given pointer is suitably aligned. */ static inline int rbtree_check_alignment(const struct rbtree_node *node) { return ((unsigned long)node & (~RBTREE_PARENT_MASK)) == 0; } /* * Return true if the given index is a valid child index. */ static inline int rbtree_check_index(int index) { return index == (index & 1); } /* * Convert the result of a comparison into an index in the children array * (0 or 1). * * This function is mostly used when looking up a node. */ static inline int rbtree_d2i(int diff) { return !(diff <= 0); } /* * Return the parent of a node. */ static inline struct rbtree_node * rbtree_parent(const struct rbtree_node *node) { return (struct rbtree_node *)(node->parent & RBTREE_PARENT_MASK); } /* * Translate an insertion point into a slot. */ static inline unsigned long rbtree_slot(struct rbtree_node *parent, int index) { assert(rbtree_check_alignment(parent)); assert(rbtree_check_index(index)); return (unsigned long)parent | index; } /* * Extract the parent address from a slot. */ static inline struct rbtree_node * rbtree_slot_parent(unsigned long slot) { return (struct rbtree_node *)(slot & RBTREE_SLOT_PARENT_MASK); } /* * Extract the index from a slot. */ static inline int rbtree_slot_index(unsigned long slot) { return slot & RBTREE_SLOT_INDEX_MASK; } /* * Insert a node in a tree, rebalancing it if necessary. * * The index parameter is the index in the children array of the parent where * the new node is to be inserted. It is ignored if the parent is null. * * This function is intended to be used by the rbtree_insert() macro only. */ void rbtree_insert_rebalance(struct rbtree *tree, struct rbtree_node *parent, int index, struct rbtree_node *node); /* * Return the previous or next node relative to a location in a tree. * * The parent and index parameters define the location, which can be empty. * The direction parameter is either RBTREE_LEFT (to obtain the previous * node) or RBTREE_RIGHT (to obtain the next one). */ struct rbtree_node * rbtree_nearest(struct rbtree_node *parent, int index, int direction); /* * Return the first or last node of a tree. * * The direction parameter is either RBTREE_LEFT (to obtain the first node) * or RBTREE_RIGHT (to obtain the last one). */ struct rbtree_node * rbtree_firstlast(const struct rbtree *tree, int direction); /* * Return the node next to, or previous to the given node. * * The direction parameter is either RBTREE_LEFT (to obtain the previous node) * or RBTREE_RIGHT (to obtain the next one). */ struct rbtree_node * rbtree_walk(struct rbtree_node *node, int direction); /* * Return the left-most deepest node of a tree, which is the starting point of * the postorder traversal performed by rbtree_for_each_remove(). */ struct rbtree_node * rbtree_postwalk_deepest(const struct rbtree *tree); /* * Unlink a node from its tree and return the next (right) node in postorder. */ struct rbtree_node * rbtree_postwalk_unlink(struct rbtree_node *node); #endif /* _KERN_RBTREE_I_H */