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| #include <stdio.h>
#include <stdlib.h>
#include <string.h>
#define RED 1
#define BLACK 2
typedef int KEY_TYPE;
typedef struct _rbtree_node {
unsigned char color;
struct _rbtree_node *right;
struct _rbtree_node *left;
struct _rbtree_node *parent;
KEY_TYPE key;
void *value;
} rbtree_node;
typedef struct _rbtree {
rbtree_node *root;
rbtree_node *nil;
} rbtree;
rbtree_node *rbtree_mini(rbtree *T, rbtree_node *x) {
while (x->left != T->nil) {
x = x->left;
}
return x;
}
rbtree_node *rbtree_maxi(rbtree *T, rbtree_node *x) {
while (x->right != T->nil) {
x = x->right;
}
return x;
}
rbtree_node *rbtree_successor(rbtree *T, rbtree_node *x) {
rbtree_node *y = x->parent;
if (x->right != T->nil) {
return rbtree_mini(T, x->right);
}
while ((y != T->nil) && (x == y->right)) {
x = y;
y = y->parent;
}
return y;
}
void rbtree_left_rotate(rbtree *T, rbtree_node *x) {
rbtree_node *y = x->right;
x->right = y->left;
if (y->left != T->nil) {
y->left->parent = x;
}
y->parent = x->parent;
if (x->parent == T->nil) {
T->root = y;
} else if (x == x->parent->left) {
x->parent->left = y;
} else {
x->parent->right = y;
}
y->left = x;
x->parent = y;
}
void rbtree_right_rotate(rbtree *T, rbtree_node *y) {
rbtree_node *x = y->left;
y->left = x->right;
if (x->right != T->nil) {
x->right->parent = y;
}
x->parent = y->parent;
if (y->parent == T->nil) {
T->root = x;
} else if (y == y->parent->right) {
y->parent->right = x;
} else {
y->parent->left = x;
}
x->right = y;
y->parent = x;
}
void rbtree_insert_fixup(rbtree *T, rbtree_node *z) {
while (z->parent->color == RED) {
if (z->parent == z->parent->parent->left) {
rbtree_node *y = z->parent->parent->right;
if (y->color == RED) {
z->parent->color = BLACK;
y->color = BLACK;
z->parent->parent->color = RED;
z = z->parent->parent;
} else {
if (z == z->parent->right) {
z = z->parent;
rbtree_left_rotate(T, z);
}
z->parent->color = BLACK;
z->parent->parent->color = RED;
rbtree_right_rotate(T, z->parent->parent);
}
}else {
rbtree_node *y = z->parent->parent->left;
if (y->color == RED) {
z->parent->color = BLACK;
y->color = BLACK;
z->parent->parent->color = RED;
z = z->parent->parent;
} else {
if (z == z->parent->left) {
z = z->parent;
rbtree_right_rotate(T, z);
}
z->parent->color = BLACK;
z->parent->parent->color = RED;
rbtree_left_rotate(T, z->parent->parent);
}
}
}
T->root->color = BLACK;
}
void rbtree_insert(rbtree *T, rbtree_node *z) {
rbtree_node *y = T->nil;
rbtree_node *x = T->root;
while (x != T->nil) {
y = x;
if (z->key < x->key) {
x = x->left;
} else if (z->key > x->key) {
x = x->right;
} else {
return ;
}
}
z->parent = y;
if (y == T->nil) {
T->root = z;
} else if (z->key < y->key) {
y->left = z;
} else {
y->right = z;
}
z->left = T->nil;
z->right = T->nil;
z->color = RED;
rbtree_insert_fixup(T, z);
}
void rbtree_delete_fixup(rbtree *T, rbtree_node *x) {
while ((x != T->root) && (x->color == BLACK)) {
if (x == x->parent->left) {
rbtree_node *w= x->parent->right;
if (w->color == RED) {
w->color = BLACK;
x->parent->color = RED;
rbtree_left_rotate(T, x->parent);
w = x->parent->right;
}
if ((w->left->color == BLACK) && (w->right->color == BLACK)) {
w->color = RED;
x = x->parent;
} else {
if (w->right->color == BLACK) {
w->left->color = BLACK;
w->color = RED;
rbtree_right_rotate(T, w);
w = x->parent->right;
}
w->color = x->parent->color;
x->parent->color = BLACK;
w->right->color = BLACK;
rbtree_left_rotate(T, x->parent);
x = T->root;
}
} else {
rbtree_node *w = x->parent->left;
if (w->color == RED) {
w->color = BLACK;
x->parent->color = RED;
rbtree_right_rotate(T, x->parent);
w = x->parent->left;
}
if ((w->left->color == BLACK) && (w->right->color == BLACK)) {
w->color = RED;
x = x->parent;
} else {
if (w->left->color == BLACK) {
w->right->color = BLACK;
w->color = RED;
rbtree_left_rotate(T, w);
w = x->parent->left;
}
w->color = x->parent->color;
x->parent->color = BLACK;
w->left->color = BLACK;
rbtree_right_rotate(T, x->parent);
x = T->root;
}
}
}
x->color = BLACK;
}
rbtree_node *rbtree_delete(rbtree *T, rbtree_node *z) {
rbtree_node *y = T->nil;
rbtree_node *x = T->nil;
if ((z->left == T->nil) || (z->right == T->nil)) {
y = z;
} else {
y = rbtree_successor(T, z);
}
if (y->left != T->nil) {
x = y->left;
} else if (y->right != T->nil) {
x = y->right;
}
x->parent = y->parent;
if (y->parent == T->nil) {
T->root = x;
} else if (y == y->parent->left) {
y->parent->left = x;
} else {
y->parent->right = x;
}
if (y != z) {
z->key = y->key;
z->value = y->value;
}
if (y->color == BLACK) {
rbtree_delete_fixup(T, x);
}
return y;
}
rbtree_node *rbtree_search(rbtree *T, KEY_TYPE key) {
rbtree_node *node = T->root;
while (node != T->nil) {
if (key < node->key) {
node = node->left;
} else if (key > node->key) {
node = node->right;
} else {
return node;
}
}
return T->nil;
}
void rbtree_traversal(rbtree *T, rbtree_node *node) {
if (node != T->nil) {
rbtree_traversal(T, node->left);
printf("key:%d, color:%d\n", node->key, node->color);
rbtree_traversal(T, node->right);
}
}
int main() {
int keyArray[20] = {24,25,13,35,23, 26,67,47,38,98, 20,19,17,49,12, 21,9,18,14,15};
rbtree *T = (rbtree *)malloc(sizeof(rbtree));
if (T == NULL) {
printf("malloc failed\n");
return -1;
}
T->nil = (rbtree_node*)malloc(sizeof(rbtree_node));
T->nil->color = BLACK;
T->root = T->nil;
rbtree_node *node = T->nil;
int i = 0;
for (i = 0;i < 20;i ++) {
node = (rbtree_node*)malloc(sizeof(rbtree_node));
node->key = keyArray[i];
node->value = NULL;
rbtree_insert(T, node);
}
rbtree_traversal(T, T->root);
printf("----------------------------------------\n");
for (i = 0;i < 20;i ++) {
rbtree_node *node = rbtree_search(T, keyArray[i]);
rbtree_node *cur = rbtree_delete(T, node);
free(cur);
rbtree_traversal(T, T->root);
printf("----------------------------------------\n");
}
}
|
