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https://git.code.sf.net/p/quake/quakeforge
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215 lines
6.9 KiB
C
215 lines
6.9 KiB
C
/*
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hash.h
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hash tables
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Copyright (C) 2000 Bill Currie <bill@taniwha.org>
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This program is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public License
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as published by the Free Software Foundation; either version 2
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of the License, or (at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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See the GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; if not, write to:
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Free Software Foundation, Inc.
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59 Temple Place - Suite 330
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Boston, MA 02111-1307, USA
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$Id$
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*/
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#ifndef __hash_h
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#define __hash_h
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#include <stdint.h>
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#include <stdlib.h>
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/** \defgroup hash Hash tables
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\ingroup utils
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*/
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//@{
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typedef struct hashtab_s hashtab_t;
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/** create a new hash table.
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\param tsize table size. larger values will give better distribution, but
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use more memory.
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\param gk a function that returns a string to be used as the key for
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inserting or finding the element. First parameter is a pointer
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to the element from which to extract the key, the second is
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the user data pointer.
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\param f a function to free the element. Only ever called from
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Hash_FlushTable and Hash_DelTable. The first parameter is the
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element to be freed and the second is the user data pointer.
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\param ud user data pointer. set to whatever you want, it will be passed
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to the get key and free functions as the second parameter.
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\return pointer to the hash table (to be passed to the other functions)
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or 0 on error.
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Hash_Add(), Hash_Find(), Hash_FindList() and Hash_Del() use gk and strcmp.
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multiple inserions of the same key are fine; later insertions override
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previous ones until the later one is removed (Hash_Del).
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*/
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hashtab_t *Hash_NewTable (int tsize, const char *(*gk)(void*,void*),
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void (*f)(void*,void*), void *ud);
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/** change the hash and compare functions used by the Hash_*Element functions.
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the default hash function just returns the address of the element, and the
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default compare just compares the addresses. compare is to return 0 for not
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equal and non-0 otherwise.
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With suitably crafted gh and cmp functions, Hash_*Element functions can
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be mixed with the non-element functions, but by default the results will
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be undefined.
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\param tab the table configure
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\param gh takes the same parameters as gk in Hash_NewTable
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\param cmp is element 1, element 2, userdata
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*/
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void Hash_SetHashCompare (hashtab_t *tab, uintptr_t (*gh)(void*,void*),
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int (*cmp)(void*,void*,void*));
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/** delete a hash table.
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\param tab the table to be deleted
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*/
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void Hash_DelTable (hashtab_t *tab);
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/** clean out all the entries from a hash table, starting over again.
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\param tab the table to be cleared
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*/
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void Hash_FlushTable (hashtab_t *tab);
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/** add an entry to a hash table.
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\param tab the table to be added to
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\param ele the element to add to the table
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\return 0 for success, -1 for error.
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*/
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int Hash_Add (hashtab_t *tab, void *ele);
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/** add an entry to a hash table.
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\param tab the table to be added to
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\param ele the element to add to the table
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\return 0 for success, -1 for error.
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*/
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int Hash_AddElement (hashtab_t *tab, void *ele);
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/** find an element within a hash table.
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\param tab the table to search
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\param key the key string identifying the element being searched for
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\return pointer to the element if found, otherwise 0.
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*/
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void *Hash_Find (hashtab_t *tab, const char *key);
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/** find an element within a hash table.
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\param tab the table to search
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\param ele element with info identifying the element being searched for
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\return pointer to the element if found, otherwise 0.
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*/
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void *Hash_FindElement (hashtab_t *tab, void *ele);
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/** find a list of elements within a hash table.
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\param tab the table to search
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\param key the key string identifying the elements being searched for
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\return a null terminated list of element pointers if at least one
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found, otherwise 0.
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\note it is the caller's responsibilty to free() the list.
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returned list is guaranteed to be in reverse order of insertion. ie,
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deleting items from the list in list order will delete the correct items.
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*/
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void **Hash_FindList (hashtab_t *tab, const char *key);
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/** find a list of elements within a hash table.
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\param tab the table to search
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\param ele element with info identifying the elements being searched for
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\return a null terminated list of element pointers if at least one
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found, otherwise 0.
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\note it is the caller's responsibilty to free() the list.
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returned list is guaranteed to be in reverse order of insertion. ie,
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deleting items from the list in list order will delete the correct items.
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*/
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void **Hash_FindElementList (hashtab_t *tab, void *ele);
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/** delete an element from a hash table.
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\param tab the table to remove the element from
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\param key the key string identifying the element to be deleted
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\return a pointer to the element on success, 0 if the element could not
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be found.
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Does \em NOT call the free element function. That is the caller's
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responsibility.
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*/
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void *Hash_Del (hashtab_t *tab, const char *key);
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/** delete an element from a hash table.
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\param tab the table to remove the element from
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\param ele element with info identifying the element to be deleted
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\return a pointer to the element on success, 0 if the element could not
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be found.
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Does \em NOT call the free element function. That is the caller's
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responsibility.
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*/
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void *Hash_DelElement (hashtab_t *tab, void *ele);
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/** calls the free element function for the supplied ele
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\param tab the table associated with the element (for the free function)
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\param ele the element to be freed
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\par Example:
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Hash_Free (tab, Hash_Del (tab, key));
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*/
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void Hash_Free (hashtab_t *tab, void *ele);
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/** hash a string.
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\param str the string to hash
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\return the hash value of the string.
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this is the same function as used internally.
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*/
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unsigned long Hash_String (const char *str);
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/** hash a buffer.
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\param buf the buffer to hash
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\param len the size of the buffer
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\return the hash value of the string.
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*/
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unsigned long Hash_Buffer (const void *buf, int len);
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/** get the size of the table
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\param tab the table in question
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\return the number of elements in the table.
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*/
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size_t Hash_NumElements (hashtab_t *tab);
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/** list of all elements in the table.
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\param tab the table to list
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\return a null terminated list of element pointers for all elements
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in the table
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\note it is the caller's responsibilty to free() the list.
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returned list is guaranteed to be in reverse order of insertion for
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elements with the same key. ie, deleting items from the list in list order
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will delete the correct items.
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*/
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void **Hash_GetList (hashtab_t *tab);
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/** dump statistics about the hash table
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\param tab the table to dump
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*/
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void Hash_Stats (hashtab_t *tab);
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//@}
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#endif // __hash_h
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