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moving src/common to src/

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Henrik Hautakoski 2010-10-19 13:34:06 +02:00
parent 22d7238b36
commit cfb5e85699
20 changed files with 49 additions and 50 deletions
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337
src/common/rbtree.c
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@ -1,337 +0,0 @@
/* common/rbtree.c - red black tree implementation
*
* Copyright (C) 2010 Henrik Hautakoski <henrik@fiktivkod.org>
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Based on the work of Julienne Walker's rbtree implementation
* http://www.eternallyconfuzzled.com/tuts/datastructures/jsw_tut_rbtree.aspx
*/
#include "xalloc.h"
#include "debug.h"
#include "rbtree.h"
#define is_red(n) ((n) != NULL && (n)->color == RB_RED)
#define swap(n,d,q) ((n)->child[(n)->child[d] == (q)])
static rbnode* node_alloc(uint key, void *ptr, size_t len) {
rbnode *n = xmalloc(sizeof(rbnode));
n->key = key;
n->data = ptr;
n->len = len;
n->color = RB_RED;
n->child[0] = NULL;
n->child[1] = NULL;
return n;
}
/*
* Recursivly deallocate a tree.
*/
static void node_dealloc(rbnode *n, void (*action)(rbnode *)) {
if (!n)
return;
if (action) {
action(n);
} else if (n->data) {
xfree(n->data);
n->data = NULL;
}
node_dealloc(n->child[0], action);
node_dealloc(n->child[1], action);
xfree(n);
}
/*
* Recursivly walks a tree, applying action function on every node
*/
static void rbwalk(rbnode *n, void (*action)(rbnode *)) {
if (n == NULL)
return;
action(n);
rbwalk(n->child[0], action);
rbwalk(n->child[1], action);
}
static inline int datacmp(void *d1, void *d2, size_t l) {
if (d1 == NULL || d2 == NULL)
return d1 == d2;
return !memcmp(d1, d2, l);
}
/*
* Compares every node's data member with cmpdata along the
* path. comparison is done at memory level and returns the first node that match.
*/
static rbnode* rbcmp(rbnode *n, void *cmpdata, size_t len) {
rbnode *r;
if (!n)
return NULL;
dprint("CMP %s - %s\n", (char*)n->data, (char*)cmpdata);
if (datacmp(n->data, cmpdata, len))
return n;
r = rbcmp(n->child[0], cmpdata, len);
if (r == NULL)
r = rbcmp(n->child[1], cmpdata, len);
return r;
}
static inline rbnode* rotate_single(rbnode *root, unsigned char dir) {
rbnode *save = root->child[!dir];
root->child[!dir] = save->child[dir];
save->child[dir] = root;
root->color = RB_RED;
save->color = RB_BLACK;
return save;
}
static inline rbnode* rotate_double(rbnode *root, unsigned char dir) {
root->child[!dir] = rotate_single(root->child[!dir], !dir);
return rotate_single(root, dir);
}
inline int rbtree_is_empty(rbtree *tree) {
return tree == NULL || tree->root == NULL;
}
/*
* Searches a tree by key.
*/
rbnode* rbtree_search(rbtree *tree, uint key) {
rbnode *n;
if (tree == NULL || tree->root == NULL)
return NULL;
n = tree->root;
while(n) {
dprint("SEARCH: check %u\n", n->key);
if (n->key == key)
break;
n = n->child[n->key < key];
}
return n;
}
rbnode* rbtree_cmp_search(rbtree *tree, void *cmpdata, size_t len) {
if (tree == NULL)
return NULL;
return rbcmp(tree->root, cmpdata, len);
}
void rbtree_walk(rbtree *tree, void (*action)(rbnode *)) {
if (tree == NULL)
return;
rbwalk(tree->root, action);
}
void rbtree_free(rbtree *tree, void (*action)(rbnode *)) {
if (tree == NULL)
return;
node_dealloc(tree->root, action);
tree->root = NULL;
}
/*
* duplicate keys result in the tree remains unchanged
* this can cause memory leaks as data fields can (should)
* be heap allocated, and the client expects us to keep track of it.
*
* for general purposes, we should notify client about it so
* then they can choose what to do
*
* the function now returns -1 in that situation // H Hautakoski
*/
int rbtree_insert(rbtree *tree, uint key, void *data, size_t len) {
rbnode head = {0};
/* grandparent and parent */
rbnode *g, *t;
/* iterator and parent */
rbnode *p, *q;
unsigned char dir = 0, dir2, last, inserted = 0;
if (tree->root == NULL) {
tree->root = node_alloc(key, data, len);
if (tree->root == NULL)
return 0;
goto done;
}
t = &head;
g = p = NULL;
q = t->child[1] = tree->root;
/* somewhere in here, there should be dragons */
for(;;) {
if (q == NULL) {
p->child[dir] = q = node_alloc(key, data, len);
if (q == NULL)
return 0;
inserted = 1;
} else if (is_red(q->child[0]) && is_red(q->child[1])) {
/* color flip case */
q->color = RB_RED;
q->child[0]->color = RB_BLACK;
q->child[1]->color = RB_BLACK;
}
/* fix red validation */
if (is_red(q) && is_red(p)) {
dir2 = (t->child[1] == g);
if (q == p->child[last])
t->child[dir2] = rotate_single(g, !last);
else
t->child[dir2] = rotate_double(g, !last);
}
if (q->key == key)
break;
last = dir;
dir = q->key < key;
if (g)
t = g;
g = p, p = q;
q = q->child[dir];
}
tree->root = head.child[1];
done:
/* root should be black */
tree->root->color = RB_BLACK;
if (!inserted)
return -1;
return 1;
}
void* rbtree_delete(rbtree *tree, uint key) {
rbnode head = {0};
/* helpers*/
rbnode *q, *p, *g, *s;
/* found item */
rbnode *f = NULL;
/* pointer to the data member of the node we delete,
returned so it can be free'd */
void *ret = NULL;
unsigned char dir = 1, dir2, last;
if (rbtree_is_empty(tree))
return NULL;
q = &head;
g = p = NULL;
q->child[1] = tree->root;
/* more dragons (killed some of them though) */
while(q->child[dir]) {
last = dir;
g = p, p = q;
q = q->child[dir];
dir = q->key < key;
if (q->key == key)
f = q;
if (is_red(q) || is_red(q->child[dir]))
continue;
if (is_red(q->child[!dir])) {
p = p->child[last] = rotate_single(q, dir);
} else {
s = p->child[!last];
if (s == NULL)
continue;
if (!is_red(s->child[!last]) && !is_red(s->child[last])) {
p->color = RB_BLACK;
s->color = q->color = RB_RED;
} else {
dir2 = (g->child[1] == p);
if (is_red(s->child[last]))
g->child[dir2] = rotate_double(p, last);
else if (is_red(s->child[!last]))
g->child[dir2] = rotate_single(p, last);
q->color = g->child[dir2]->color = RB_RED;
g->child[dir2]->child[0]->color = RB_BLACK;
g->child[dir2]->child[1]->color = RB_BLACK;
}
}
}
tree->root = head.child[1];
if (tree->root)
tree->root->color = RB_BLACK;
/* remove if found */
if (f) {
ret = f->data;
if (f != q) {
f->key = q->key;
f->data = xmemdup(q->data, q->len);
f->len = q->len;
}
swap(p, 1, q) = swap(q, 0, NULL);
xfree(q);
}
return ret;
}