440 lines
9.6 KiB
C
440 lines
9.6 KiB
C
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#include "chash.h"
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#include <stdlib.h>
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#include <string.h>
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#include <stdio.h>
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#define I_AM_LITTLE (((union { unsigned x; unsigned char c; }){1}).c)
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static unsigned long GetStrHash( const char * c )
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{
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int place = 0;
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unsigned int hashSoFar = 0;
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if( !c ) return 0;
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do
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{
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unsigned char cc = (*c);
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unsigned long this = cc;
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this <<= (((place++)&3)<<3);
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hashSoFar += this;
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} while( *(c++) );
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return hashSoFar;
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}
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static unsigned long GeneralUsePrimes[] = { 7, 13, 37, 73, 131, 229, 337, 821,
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2477, 4594, 8941, 14797, 24953, 39041, 60811, 104729, 151909,
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259339, 435637, 699817, 988829, 1299827 };
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struct chash * GenerateHashTable( int allowMultiple )
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{
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int bucketplace = 0;
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int count = GeneralUsePrimes[bucketplace];
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struct chash * ret = malloc( sizeof( struct chash ) );
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ret->entryCount = 0;
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ret->allowMultiple = allowMultiple;
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ret->bucketCountPlace = bucketplace;
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ret->buckets = malloc( sizeof( struct chashentry ) * count );
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memset( ret->buckets, 0, sizeof( struct chashentry ) * count );
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return ret;
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}
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void ** HashTableInsert( struct chash * hash, const char * key, int dontDupKey )
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{
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int buckets = GeneralUsePrimes[hash->bucketCountPlace];
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int thisHash = GetStrHash( key ) % buckets;
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int multi = hash->allowMultiple;
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struct chashentry * thisEntry;
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struct chashentry * overextndEntry = &hash->buckets[buckets];
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int i;
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//Cannot insert null!
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if( !key )
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{
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return 0;
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}
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//Half full?
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if( hash->entryCount > (buckets>>1) )
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{
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//Resize!
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int newbucketcount = GeneralUsePrimes[hash->bucketCountPlace + 1];
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struct chashentry * newbuckets = malloc( sizeof( struct chashentry ) * newbucketcount );
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struct chashentry * oldbuckets = hash->buckets;
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overextndEntry = &newbuckets[newbucketcount];
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memset( newbuckets, 0, sizeof( struct chashentry ) * newbucketcount );
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for( i = 0; i < buckets; i++ )
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{
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struct chashentry * oe = &oldbuckets[i];
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int newhash;
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struct chashentry * ne;
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//Empty? Continue!
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if( !oe->key ) continue;
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newhash = GetStrHash( oe->key ) % newbucketcount;
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ne = &newbuckets[newhash];
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while( ne->key )
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{
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ne++;
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if( ne == overextndEntry ) ne = &newbuckets[0];
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}
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ne->key = oe->key;
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ne->value = oe->value;
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}
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//Replacing done, now update all.
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hash->buckets = newbuckets;
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free( oldbuckets );
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hash->bucketCountPlace++;
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buckets = newbucketcount;
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thisHash = GetStrHash( key ) % buckets;
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}
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thisEntry = &hash->buckets[thisHash];
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while( thisEntry->key )
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{
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//If we aren't allowing multiple entries, say so!
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if( !multi && strcmp( thisEntry->key, key ) == 0 )
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{
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return &thisEntry->value;
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}
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thisEntry++;
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if( thisEntry == overextndEntry ) thisEntry = &hash->buckets[0];
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}
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thisEntry->value = 0;
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if( dontDupKey )
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{
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thisEntry->key = key;
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}
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else
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{
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thisEntry->key = strdup( key );
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}
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thisEntry->hash = thisHash;
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hash->entryCount++;
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return &thisEntry->value;
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}
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//Re-process a range; populated is the number of elements we expect to run into.
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//If we removed some, it will be less length by that much.
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//NOTE: This function doesn't range check diddily.
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static void RedoHashRange( struct chash * hash, int start, int length, int populated )
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{
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int i;
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int buckets = GeneralUsePrimes[hash->bucketCountPlace];
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struct chashentry * thisEntry = &hash->buckets[start];
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struct chashentry * overEntry = &hash->buckets[buckets];
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struct chashentry * copyEntry;
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struct chashlist * resort = alloca( sizeof( struct chashlist ) + sizeof( struct chashentry ) * (populated) );
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resort->length = populated;
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copyEntry = &resort->items[0];
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for( i = 0; i < length; i++ )
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{
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if( thisEntry->key )
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{
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copyEntry->key = thisEntry->key;
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copyEntry->value = thisEntry->value;
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copyEntry->hash = thisEntry->hash;
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copyEntry++;
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thisEntry->key = 0;
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}
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thisEntry++;
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if( thisEntry == overEntry ) thisEntry = &hash->buckets[0];
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}
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hash->entryCount -= populated;
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copyEntry = &resort->items[0];
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for( i = 0; i < populated; i++ )
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{
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*HashTableInsert( hash, copyEntry->key, 1 ) = copyEntry->value;
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copyEntry++;
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}
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}
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int HashTableRemove( struct chash * hash, const char * key )
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{
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int buckets = GeneralUsePrimes[hash->bucketCountPlace];
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int thisHash = GetStrHash( key ) % buckets;
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int multi = hash->allowMultiple;
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struct chashentry * thisEntry = &hash->buckets[thisHash];
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struct chashentry * overEntry = &hash->buckets[buckets];
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int startentry = thisHash;
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int entriesSearched = 0;
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int removedEntries = 0;
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//Search the list for matches, search until we have an empty spot.
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while( thisEntry->key )
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{
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if( strcmp( thisEntry->key, key ) == 0 )
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{
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free( (char*)thisEntry->key );
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thisEntry->key = 0;
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removedEntries++;
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if( !multi )
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{
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break;
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}
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}
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thisEntry++;
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if( thisEntry == overEntry ) thisEntry = &hash->buckets[0];
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entriesSearched++;
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}
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if( removedEntries == 0 )
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return 0;
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hash->entryCount -= removedEntries;
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RedoHashRange( hash, startentry, entriesSearched, entriesSearched-removedEntries );
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return removedEntries;
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}
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int HashTableRemoveSpecific( struct chash * hash, const char * key, void * value )
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{
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int buckets = GeneralUsePrimes[hash->bucketCountPlace];
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int thisHash = GetStrHash( key ) % buckets;
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int multi = hash->allowMultiple;
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struct chashentry * thisEntry = &hash->buckets[thisHash];
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struct chashentry * overEntry = &hash->buckets[buckets];
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int startentry = thisHash;
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int entriesSearched = 0;
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int removedEntries = 0;
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//Search the list for matches, search until we have an empty spot.
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while( thisEntry->key )
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{
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if( strcmp( thisEntry->key, key ) == 0 && thisEntry->value == value )
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{
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free( (char*)thisEntry->key );
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thisEntry->key = 0;
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removedEntries++;
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if( !multi )
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{
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break;
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}
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}
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thisEntry++;
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if( thisEntry == overEntry ) thisEntry = &hash->buckets[0];
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entriesSearched++;
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}
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if( removedEntries == 0 )
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return 0;
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hash->entryCount -= removedEntries;
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RedoHashRange( hash, startentry, entriesSearched, entriesSearched-removedEntries );
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return removedEntries;
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}
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void HashDestroy( struct chash * hash, int deleteKeys )
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{
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int buckets = GeneralUsePrimes[hash->bucketCountPlace];
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int i;
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if( deleteKeys )
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{
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struct chashentry * start = &hash->buckets[0];
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for( i = 0; i < buckets; i++ )
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{
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free( (char*) (start++)->key );
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}
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}
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free( hash->buckets );
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free( hash );
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}
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void ** HashUpdateEntry( struct chash * hash, const char * key )
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{
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int buckets = GeneralUsePrimes[hash->bucketCountPlace];
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int thisHash = GetStrHash( key ) % buckets;
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struct chashentry * thisEntry = &hash->buckets[thisHash];
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struct chashentry * overEntry = &hash->buckets[buckets];
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while( thisEntry->key )
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{
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//We allow null keys.
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if( !key && !thisEntry->key )
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{
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return &thisEntry->value;
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}
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if( key && thisEntry->key && strcmp( thisEntry->key, key ) == 0 )
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{
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return &thisEntry->value;
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}
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thisEntry++;
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if( thisEntry == overEntry ) thisEntry = &hash->buckets[0];
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}
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return 0;
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}
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void * HashGetEntry( struct chash * hash, const char * key )
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{
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void ** v = HashUpdateEntry( hash, key );
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if( v )
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return *v;
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return 0;
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}
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struct chashlist * HashGetAllEntries( struct chash * hash, const char * key )
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{
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int retreser = 3;
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int buckets = GeneralUsePrimes[hash->bucketCountPlace];
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int thisHash = GetStrHash( key ) % buckets;
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int multi = hash->allowMultiple;
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struct chashentry * thisEntry = &hash->buckets[thisHash];
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struct chashentry * overEntry = &hash->buckets[buckets];
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struct chashlist * ret = malloc( sizeof( struct chashlist ) + sizeof( struct chashentry ) * retreser );
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ret->length = 0;
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while( thisEntry->key )
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{
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if( strcmp( thisEntry->key, key ) == 0 )
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{
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ret->items[ret->length].key = thisEntry->key;
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ret->items[ret->length].value = thisEntry->value;
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ret->items[ret->length].hash = thisEntry->hash;
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ret->length++;
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if( !multi )
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{
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return ret;
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}
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if( ret->length == retreser )
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{
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retreser *= 2;
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ret = realloc( ret, sizeof( struct chashlist ) + sizeof( struct chashentry ) * retreser );
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}
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}
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thisEntry++;
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if( thisEntry == overEntry ) thisEntry = &hash->buckets[0];
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}
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if( ret->length == 0 )
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{
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free( ret );
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return 0;
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}
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return ret;
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}
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static void merge( struct chashentry ** tmpitems, int start, int middle, int end )
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{
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int aptr = start;
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int bptr = middle;
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int i = 0;
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int count = end-start+1;
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struct chashentry * ret[count];
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if( count == 1 ) return;
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while( i < count )
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{
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if( bptr == end+1 || ( aptr != middle && strcmp( tmpitems[aptr]->key, tmpitems[bptr]->key ) < 0 ) )
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{
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ret[i++] = tmpitems[aptr];
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aptr++;
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}
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else
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{
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ret[i++] = tmpitems[bptr];
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bptr++;
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}
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}
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for( i = 0; i < count; i++ )
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{
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tmpitems[i+start] = ret[i];
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}
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}
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static void merge_sort( struct chashentry ** tmpitems, int start, int end )
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{
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int middle = (end+start)/2;
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if( end <= start )
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return;
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merge_sort( tmpitems, start, middle );
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merge_sort( tmpitems, middle+1, end );
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merge( tmpitems, start, middle+1, end );
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}
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struct chashlist * HashProduceSortedTable( struct chash * hash )
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{
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struct chashentry ** tmpitems = alloca( sizeof( struct chashlist * ) * hash->entryCount ); //temp list of pointers.
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struct chashentry * thisEntry = &hash->buckets[0];
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struct chashlist * ret = malloc( sizeof( struct chashlist ) + sizeof( struct chashentry ) * hash->entryCount );
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int i;
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int index = 0;
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int buckets = GeneralUsePrimes[hash->bucketCountPlace];
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ret->length = hash->entryCount;
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if( hash->entryCount == 0 )
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{
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return ret;
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}
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//Move the table into tmp.
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for( i = 0; i < buckets; i++, thisEntry++ )
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{
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if( !thisEntry->key ) continue;
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tmpitems[index++] = thisEntry;
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}
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//Sort tmpitems
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merge_sort( tmpitems, 0, index-1 );
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for( i = 0; i < hash->entryCount; i++ )
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{
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ret->items[i].key = (tmpitems[i])->key;
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ret->items[i].value = (tmpitems[i])->value;
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ret->items[i].hash = (tmpitems[i])->hash;
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}
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return ret;
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}
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