mirror of
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439 lines
10 KiB
C
439 lines
10 KiB
C
/*
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* The Python Imaging Library
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* $Id$
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*
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* hash tables used by the image quantizer
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*
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* history:
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* 98-09-10 tjs Contributed
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* 98-12-29 fl Added to PIL 1.0b1
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*
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* Written by Toby J Sargeant <tjs@longford.cs.monash.edu.au>.
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*
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* Copyright (c) 1998 by Toby J Sargeant
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* Copyright (c) 1998 by Secret Labs AB
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*
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* See the README file for information on usage and redistribution.
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*/
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include <math.h>
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#include "QuantHash.h"
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typedef struct _HashNode {
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struct _HashNode *next;
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HashKey_t key;
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HashVal_t value;
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} HashNode;
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struct _HashTable {
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HashNode **table;
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uint32_t length;
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uint32_t count;
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HashFunc hashFunc;
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HashCmpFunc cmpFunc;
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KeyDestroyFunc keyDestroyFunc;
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ValDestroyFunc valDestroyFunc;
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void *userData;
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};
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#define MIN_LENGTH 11
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#define RESIZE_FACTOR 3
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static int _hashtable_insert_node(HashTable *,HashNode *,int,int,CollisionFunc);
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HashTable *hashtable_new(HashFunc hf,HashCmpFunc cf) {
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HashTable *h;
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h=malloc(sizeof(HashTable));
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if (!h) { return NULL; }
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h->hashFunc=hf;
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h->cmpFunc=cf;
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h->keyDestroyFunc=NULL;
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h->valDestroyFunc=NULL;
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h->length=MIN_LENGTH;
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h->count=0;
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h->userData=NULL;
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h->table=malloc(sizeof(HashNode *)*h->length);
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if (!h->table) { free(h); return NULL; }
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memset (h->table,0,sizeof(HashNode *)*h->length);
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return h;
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}
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static void _hashtable_destroy(const HashTable *h,const HashKey_t key,const HashVal_t val,void *u) {
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if (h->keyDestroyFunc) {
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h->keyDestroyFunc(h,key);
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}
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if (h->valDestroyFunc) {
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h->valDestroyFunc(h,val);
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}
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}
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static uint32_t _findPrime(uint32_t start,int dir) {
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static int unit[]={0,1,0,1,0,0,0,1,0,1,0,1,0,1,0,0};
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uint32_t t;
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while (start>1) {
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if (!unit[start&0x0f]) {
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start+=dir;
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continue;
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}
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for (t=2;t<sqrt((double)start);t++) {
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if (!start%t) break;
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}
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if (t>=sqrt((double)start)) {
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break;
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}
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start+=dir;
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}
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return start;
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}
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static void _hashtable_rehash(HashTable *h,CollisionFunc cf,uint32_t newSize) {
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HashNode **oldTable=h->table;
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uint32_t i;
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HashNode *n,*nn;
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uint32_t oldSize;
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oldSize=h->length;
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h->table=malloc(sizeof(HashNode *)*newSize);
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if (!h->table) {
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h->table=oldTable;
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return;
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}
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h->length=newSize;
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h->count=0;
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memset (h->table,0,sizeof(HashNode *)*h->length);
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for (i=0;i<oldSize;i++) {
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for (n=oldTable[i];n;n=nn) {
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nn=n->next;
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_hashtable_insert_node(h,n,0,0,cf);
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}
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}
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free(oldTable);
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}
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static void _hashtable_resize(HashTable *h) {
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uint32_t newSize;
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uint32_t oldSize;
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oldSize=h->length;
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newSize=oldSize;
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if (h->count*RESIZE_FACTOR<h->length) {
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newSize=_findPrime(h->length/2-1,-1);
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} else if (h->length*RESIZE_FACTOR<h->count) {
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newSize=_findPrime(h->length*2+1,+1);
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}
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if (newSize<MIN_LENGTH) { newSize=oldSize; }
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if (newSize!=oldSize) {
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_hashtable_rehash(h,NULL,newSize);
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}
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}
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static int _hashtable_insert_node(HashTable *h,HashNode *node,int resize,int update,CollisionFunc cf) {
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uint32_t hash=h->hashFunc(h,node->key)%h->length;
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HashNode **n,*nv;
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int i;
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for (n=&(h->table[hash]);*n;n=&((*n)->next)) {
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nv=*n;
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i=h->cmpFunc(h,nv->key,node->key);
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if (!i) {
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if (cf) {
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nv->key=node->key;
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cf(h,&(nv->key),&(nv->value),node->key,node->value);
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free(node);
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return 1;
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} else {
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if (h->valDestroyFunc) {
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h->valDestroyFunc(h,nv->value);
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}
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if (h->keyDestroyFunc) {
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h->keyDestroyFunc(h,nv->key);
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}
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nv->key=node->key;
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nv->value=node->value;
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free(node);
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return 1;
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}
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} else if (i>0) {
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break;
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}
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}
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if (!update) {
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node->next=*n;
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*n=node;
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h->count++;
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if (resize) _hashtable_resize(h);
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return 1;
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} else {
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return 0;
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}
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}
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static int _hashtable_insert(HashTable *h,HashKey_t key,HashVal_t val,int resize,int update) {
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HashNode **n,*nv;
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HashNode *t;
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int i;
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uint32_t hash=h->hashFunc(h,key)%h->length;
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for (n=&(h->table[hash]);*n;n=&((*n)->next)) {
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nv=*n;
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i=h->cmpFunc(h,nv->key,key);
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if (!i) {
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if (h->valDestroyFunc) { h->valDestroyFunc(h,nv->value); }
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nv->value=val;
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return 1;
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} else if (i>0) {
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break;
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}
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}
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if (!update) {
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t=malloc(sizeof(HashNode));
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if (!t) return 0;
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t->next=*n;
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*n=t;
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t->key=key;
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t->value=val;
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h->count++;
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if (resize) _hashtable_resize(h);
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return 1;
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} else {
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return 0;
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}
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}
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static int _hashtable_lookup_or_insert(HashTable *h,HashKey_t key,HashVal_t *retVal,HashVal_t newVal,int resize) {
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HashNode **n,*nv;
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HashNode *t;
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int i;
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uint32_t hash=h->hashFunc(h,key)%h->length;
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for (n=&(h->table[hash]);*n;n=&((*n)->next)) {
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nv=*n;
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i=h->cmpFunc(h,nv->key,key);
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if (!i) {
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*retVal=nv->value;
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return 1;
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} else if (i>0) {
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break;
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}
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}
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t=malloc(sizeof(HashNode));
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if (!t) return 0;
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t->next=*n;
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*n=t;
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t->key=key;
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t->value=newVal;
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*retVal=newVal;
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h->count++;
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if (resize) _hashtable_resize(h);
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return 1;
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}
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int hashtable_insert_or_update_computed(HashTable *h,
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HashKey_t key,
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ComputeFunc newFunc,
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ComputeFunc existsFunc) {
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HashNode **n,*nv;
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HashNode *t;
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int i;
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uint32_t hash=h->hashFunc(h,key)%h->length;
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for (n=&(h->table[hash]);*n;n=&((*n)->next)) {
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nv=*n;
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i=h->cmpFunc(h,nv->key,key);
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if (!i) {
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HashVal_t old=nv->value;
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if (existsFunc) {
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existsFunc(h,nv->key,&(nv->value));
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if (nv->value!=old) {
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if (h->valDestroyFunc) {
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h->valDestroyFunc(h,old);
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}
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}
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} else {
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return 0;
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}
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return 1;
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} else if (i>0) {
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break;
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}
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}
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t=malloc(sizeof(HashNode));
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if (!t) return 0;
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t->key=key;
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t->next=*n;
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*n=t;
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if (newFunc) {
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newFunc(h,t->key,&(t->value));
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} else {
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free(t);
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return 0;
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}
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h->count++;
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_hashtable_resize(h);
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return 1;
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}
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int hashtable_update(HashTable *h,HashKey_t key,HashVal_t val) {
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return _hashtable_insert(h,key,val,1,0);
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}
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int hashtable_insert(HashTable *h,HashKey_t key,HashVal_t val) {
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return _hashtable_insert(h,key,val,1,0);
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}
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void hashtable_foreach_update(HashTable *h,IteratorUpdateFunc i,void *u) {
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HashNode *n;
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uint32_t x;
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if (h->table) {
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for (x=0;x<h->length;x++) {
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for (n=h->table[x];n;n=n->next) {
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i(h,n->key,&(n->value),u);
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}
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}
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}
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}
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void hashtable_foreach(HashTable *h,IteratorFunc i,void *u) {
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HashNode *n;
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uint32_t x;
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if (h->table) {
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for (x=0;x<h->length;x++) {
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for (n=h->table[x];n;n=n->next) {
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i(h,n->key,n->value,u);
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}
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}
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}
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}
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void hashtable_free(HashTable *h) {
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HashNode *n,*nn;
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uint32_t i;
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if (h->table) {
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if (h->keyDestroyFunc || h->keyDestroyFunc) {
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hashtable_foreach(h,_hashtable_destroy,NULL);
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}
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for (i=0;i<h->length;i++) {
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for (n=h->table[i];n;n=nn) {
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nn=n->next;
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free(n);
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}
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}
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free(h->table);
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}
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free(h);
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}
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ValDestroyFunc hashtable_set_value_destroy_func(HashTable *h,ValDestroyFunc d) {
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ValDestroyFunc r=h->valDestroyFunc;
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h->valDestroyFunc=d;
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return r;
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}
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KeyDestroyFunc hashtable_set_key_destroy_func(HashTable *h,KeyDestroyFunc d) {
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KeyDestroyFunc r=h->keyDestroyFunc;
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h->keyDestroyFunc=d;
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return r;
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}
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static int _hashtable_remove(HashTable *h,
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const HashKey_t key,
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HashKey_t *keyRet,
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HashVal_t *valRet,
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int resize) {
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uint32_t hash=h->hashFunc(h,key)%h->length;
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HashNode *n,*p;
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int i;
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for (p=NULL,n=h->table[hash];n;p=n,n=n->next) {
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i=h->cmpFunc(h,n->key,key);
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if (!i) {
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if (p) p=n->next; else h->table[hash]=n->next;
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*keyRet=n->key;
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*valRet=n->value;
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free(n);
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h->count++;
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return 1;
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} else if (i>0) {
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break;
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}
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}
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return 0;
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}
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static int _hashtable_delete(HashTable *h,const HashKey_t key,int resize) {
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uint32_t hash=h->hashFunc(h,key)%h->length;
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HashNode *n,*p;
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int i;
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for (p=NULL,n=h->table[hash];n;p=n,n=n->next) {
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i=h->cmpFunc(h,n->key,key);
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if (!i) {
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if (p) p=n->next; else h->table[hash]=n->next;
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if (h->valDestroyFunc) { h->valDestroyFunc(h,n->value); }
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if (h->keyDestroyFunc) { h->keyDestroyFunc(h,n->key); }
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free(n);
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h->count++;
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return 1;
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} else if (i>0) {
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break;
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}
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}
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return 0;
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}
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int hashtable_remove(HashTable *h,const HashKey_t key,HashKey_t *keyRet,HashVal_t *valRet) {
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return _hashtable_remove(h,key,keyRet,valRet,1);
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}
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int hashtable_delete(HashTable *h,const HashKey_t key) {
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return _hashtable_delete(h,key,1);
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}
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void hashtable_rehash_compute(HashTable *h,CollisionFunc cf) {
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_hashtable_rehash(h,cf,h->length);
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}
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void hashtable_rehash(HashTable *h) {
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_hashtable_rehash(h,NULL,h->length);
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}
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int hashtable_lookup_or_insert(HashTable *h,HashKey_t key,HashVal_t *valp,HashVal_t val) {
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return _hashtable_lookup_or_insert(h,key,valp,val,1);
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}
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int hashtable_lookup(const HashTable *h,const HashKey_t key,HashVal_t *valp) {
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uint32_t hash=h->hashFunc(h,key)%h->length;
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HashNode *n;
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int i;
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for (n=h->table[hash];n;n=n->next) {
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i=h->cmpFunc(h,n->key,key);
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if (!i) {
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*valp=n->value;
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return 1;
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} else if (i>0) {
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break;
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}
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}
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return 0;
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}
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uint32_t hashtable_get_count(const HashTable *h) {
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return h->count;
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}
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void *hashtable_get_user_data(const HashTable *h) {
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return h->userData;
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}
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void *hashtable_set_user_data(HashTable *h,void *data) {
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void *r=h->userData;
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h->userData=data;
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return r;
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}
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