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actube/src/capwap/avltree.c

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/*
This file is part of libcapwap.
libcapwap 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.
libcapwap 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with Foobar. If not, see <http://www.gnu.org/licenses/>.
*/
#include <stdlib.h>
#include <stdio.h>
#include "avltree.h"
struct avltree * avltree_create(int (*cmp)(const void*,const void*),void(*del)(void*))
{
struct avltree * t = malloc(sizeof(struct avltree));
if (!t)
return 0;
t->root=0;
t->count=0;
t->cmp=cmp;
t->del=del;
return t;
}
struct avlnode * avlnode_create(void * data)
{
struct avlnode * n = malloc(sizeof(struct avlnode));
if(!n)
return 0;
n->left=n->right=0;
n->bal=0;
n->data = data;
return n;
}
void avlnode_destroy(struct avltree *t,struct avlnode *n)
{
if(t->del){
t->del(n->data);
}
free(n);
t->count--;
}
static int avltree_add0(struct avltree *t, struct avlnode ** parent, void ** data)
{
// struct avlnode * rn;
struct avlnode *tmp;
struct avlnode * n = *parent;
int rc=t->cmp(*data,n->data);
int bal;
if (rc==0){
*data=n->data;
return 2;
}
if (rc<0){
if (n->left)
{
bal = avltree_add0(t,&n->left,data);
if (bal>1)
return bal;
n->bal -=bal;
if (n->bal==0)
return 0;
if (n->bal==-2){
if (n->left->bal==-1){
n->bal=0;
n->left->bal=0;
*parent=n->left;
tmp=n->left->right;
n->left->right=n;
n->left=tmp;
return 0;
}
if (n->left->bal==1){
*parent=n->left->right;
if ((*parent)->bal==1) {
n->bal=0;
n->left->bal=-1;
}
else if ((*parent)->bal==-1){
n->bal=1;
n->left->bal=0;
}
else{
n->bal=0;
n->left->bal=0;
}
(*parent)->bal=0;
n->left->right=(*parent)->left;
(*parent)->left=n->left;
tmp = (*parent)->right;
(*parent)->right=n;
n->left=tmp;
return 0;
}
//printf("!!!!left bal = %i\n",n->left->bal);
//exit(0);
}
return bal;
}
/* n->left is 0 */
n->left=avlnode_create(*data);
if (!n->left)
return 3;
t->count++;
if(n->right==0){
n->bal=-1;
return 1;
}
n->bal=0;
return 0;
}
else{
if (n->right){
bal = avltree_add0(t,&n->right,data);
if(bal>1)
return bal;
n->bal+=bal;
if (n->bal==0)
return 0;
if (n->bal==2){
if (n->right->bal==1){
n->bal=0;
n->right->bal=0;
*parent=n->right;
tmp=n->right->left;
n->right->left=n;
n->right=tmp;
return 0;
}
else if(n->right->bal==-1){
*parent=n->right->left;
if ((*parent)->bal==-1) {
n->bal=0;
n->right->bal=1;
}
else if ((*parent)->bal==1){
n->bal=-1;
n->right->bal=0;
}
else{
n->bal=0;
n->right->bal=0;
}
(*parent)->bal=0;
n->right->left=(*parent)->right;
(*parent)->right=n->right;
tmp = (*parent)->left;
(*parent)->left=n;
n->right=tmp;
return 0;
}
//printf("!!!!iright bal = %i\n",n->left->bal);
//exit(0);
}
return bal;
}
/* n->right is 0 */
n->right=avlnode_create(*data);
if (!n->right)
return 3;
t->count++;
if(n->left==0){
n->bal=1;
return 1;
}
n->bal=0;
return 0;
}
}
void * avltree_add(struct avltree *t, void * data)
{
if (t->root==0){
t->root = avlnode_create(data);
if (t->root)
t->count++;
return t->root->data;
}
void * d = data;
int rc = avltree_add0(t,&t->root,&d);
if (rc>3)
return 0;
return d;
}
static void rot_l(struct avlnode *n, struct avlnode **parent)
{
struct avlnode *tmp;
*parent=n->right;
tmp=n->right->left;
n->right->left=n;
n->right=tmp;
}
static void rot_r(struct avlnode *n, struct avlnode **parent)
{
struct avlnode *tmp;
*parent=n->left;
tmp=n->left->right;
n->left->right=n;
n->left=tmp;
}
/*
* Delete the node withe the highest value
* returns the rebalancing factor
*/
/*
static int avltree_delete_hi(struct avlnode **parent, void **data)
{
struct avlnode * n = *parent;
if(n->right!=0){
int bal = avltree_delete_hi(&n->right,data);
n->bal-=bal;
if (n->bal==-2){
// if (rotate_r(n,parent))
// return 0;
}
return bal;
}
*parent=n->left;
*data = n->data;
if (n->left){
free(n);
return 0;
}
free(n);
return 1;
}
*/
struct avltree * trrr;
static void rot_rl(struct avlnode *n, struct avlnode **parent)
{
struct avlnode * tmp;
*parent=n->right->left;
n->right->left=(*parent)->right;
(*parent)->right=n->right;
tmp = (*parent)->left;
(*parent)->left=n;
n->right=tmp;
}
static void rot_lr(struct avlnode *n, struct avlnode **parent)
{
struct avlnode * tmp;
*parent=n->left->right;
n->left->right=(*parent)->left;
(*parent)->left=n->left;
tmp = (*parent)->right;
(*parent)->right=n;
n->left=tmp;
}
static int adj_bal_l(struct avlnode *n, struct avlnode **parent)
{
if (n->right->bal==1){
n->bal=0;
n->right->bal=0;
rot_l(n,parent);
return 1;
}
else if(n->right->bal==0){
n->bal=1;
n->right->bal=-1;
rot_l(n,parent);
return 0;
}else if(n->right->bal==-1){
// int rb;
n->bal=0;
n->right->bal=0;
// rb = n->right->left->bal;
n->right->left->bal=0;
rot_rl(n,parent);
return 1;
}
// printf("adj bal l not handled \n");
// exit(0);
return -11; /* that should never happen */
}
int adj_bal_r(struct avlnode *n, struct avlnode **parent)
{
if (n->left->bal==-1){
n->bal=0;
n->left->bal=0;
rot_r(n,parent);
return 1;
}
else if(n->left->bal==0){
n->bal=-1;
n->left->bal=1;
rot_r(n,parent);
return 0;
}
else if(n->left->bal==1){
// int rb;
n->bal=0;
n->left->bal=0;
// rb = n->left->right->bal;
n->left->right->bal=0;
rot_lr(n,parent);
return 1;
}
// printf("adj bal li left not handled \n");
// exit(0);
return -11; /* that should never happen */
}
static int avltree_del_lo(struct avlnode **parent, void **data)
{
struct avlnode * n = *parent;
if(n->left!=0){
int bal = avltree_del_lo(&n->left,data);
n->bal+=bal;
if (n->bal==1){
return 0;
}
if (n->bal!=2)
return bal;
adj_bal_l(n,parent);
return 0;
}
/* found the lowest element */
*parent=n->right;
*data = n->data;
free (n);
return 1;
if (n->right){
free(n);
return 1;
}
free(n);
return 1;
}
int avltree_del0(struct avltree *t, struct avlnode **parent, void **data)
{
struct avlnode * n = *parent;
int rc;
int bal;
rc =t->cmp(*data,n->data);
if (rc==0){
if (n->right == 0 && n->left ==0){
*parent=0;
avlnode_destroy(t,n);
return 1;
}
if (n->right && n->left==0){
*parent=n->right;
avlnode_destroy(t,n);
return 1;
}
if (n->left && n->right==0){
avlnode_destroy(t,n);
*parent=n->left;
return 1;
}
/* node has two childs */
if (t->del){
t->del(n->data);
}
t->count--;
bal = avltree_del_lo(&n->right,&n->data);
n->bal-= bal;
if (n->bal==-1)
return 0;
if (n->bal != -2)
return bal;
return adj_bal_r(n,parent);
}
if (rc<0){
if (n->left)
{
bal = avltree_del0(t,&n->left,data);
if (bal==2)
return 2;
n->bal+=bal;
if (n->bal==1)
return 0;
if (n->bal!=2)
return bal;
return adj_bal_l(n,parent);
}
return 2; /* not found */
}
else { /* rc must be > 0 */
if (n->right){
bal = avltree_del0(t,&n->right,data);
if (bal==2)
return 2;
n->bal-=bal;
if (n->bal==-1)
return 0;
if (n->bal != -2)
return bal;
return adj_bal_r(n,parent);
}
return 2; /* not found */
}
}
void * avltree_del(struct avltree *t, void *data)
{
void *d = data;
int rc = avltree_del0(t,&t->root,&d);
if (rc==2)
return 0;
return data;
}
/*
static int cmp(const void *k1,const void *k2)
{
int x1 = *((int*)k1);
int x2 = *((int*)k2);
return x1-x2;
}
*/
//int data[]={10,37,60,10,5,35,36,26,3,11,18};
//int data[] = {100,50,75};
//int data[]={100,200,150,300,400};
//int data[]={100,200,150,170,470};
//int data[]={10,20,15,17,47,50,60,70,80};
//int data[]={9,8,7,6,5,4,3,2,1,0};
//int data[]={10,37,60,10,5,35,19,26,3,11,18};
//int data[]={0,11,14,33,37,20};
//int data[]={1,2,3,4,5,6,7,8,9,10,11,12,13,14,15};
//int data[]={1,4,3,7,5,6,7,8,9,10};
//int data[]={11,4,5,6,3,4,3,2,1,0};
//int data[]={20,16,10,11,5,4,3,2,1,0};
/*
struct avlnode * ar[10000];
int tpw = 80;
static void print_tree0(struct avlnode * n,int d,int l,int r)
{
int pos = l+(r-l)/2;
ar[d*tpw+pos]=n;
if (n->right)
print_tree0(n->right,d+1,l+(r-l)/2,r);
if(n->left)
print_tree0(n->left,d+1,l,r-(r-l)/2);
}
void avltree_print(struct avlnode * n )
{
int y;
int i=0;
for(i=0; i<10000; i++)
ar[i]=0;
if (n==0){
printf("Empty Tree\n");
return ;
}
print_tree0(n,0,0,tpw);
for (i=0; i<10; i++) {
for (y=0; y<tpw; y++){
struct avlnode *r=ar[tpw*i+y];
if(r){
printf("%i(%i)",*(int*)(r->data),r->bal);
}
else{
printf(".");
}
}
printf("\n");
}
}
void walk(struct avlnode *n)
{
if (n == 0)
return;
walk(n->left);
int x = *((int*)(n->data));
printf("VAL: %i\n",x);
walk(n->right);
// x = *((int*)(n->data));
// printf("VALR: %i\n",x);
}
*/
void avltree_destroy(struct avltree *t)
{
avltree_del_all(t);
free (t);
}
//#include <time.h>
/*
//int data[]={5,1,9,7,0,10,8,0,4,3};
//int data[]={50,10,90,70,00,100,80,00,40,30,1,2,3};
int data[]={10,20,30,45,1,50,11,51,60,70,80,90,99,25,50,10,90,70,00,100,80,00,40,30,1,2,3};
int main()
{
struct avltree *t = avltree_create(cmp,0);
trrr=t;
printf("T: %p\n",t);
srand(time(NULL));
int i=0;
for (i=0; i<6; i++)
{
int r = rand()%0x3f; // % 0xiff;
// int r = rand(); //%0x3f; // % 0xiff;
// r = data[7-i];
r = data[i];
int * dr = malloc(sizeof(int));
*dr = r;
printf("Insert %i\n",*dr);
void * d = avltree_insert(t,dr);
printf("After insert %i\n",r);
print_tree(t->root);
if (d!=dr){
// printf("exists\n");
}
}
printf("Here it is\n");
print_tree(t->root);
// walk(t->root);
void * da;
int x = 110;
// void * drc = avltree_delete(t,&x);
avltree_delete_all(t);
// printf("Delete 110 rc = %p\n",drc);
print_tree(t->root);
printf("Count: %i\n",t->count);
return 0;
}
*/
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