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/******************************************************************
* $Id: hashtable.h,v 1.1 2004/10/29 09:28:25 snowdrop Exp $
*
* CSOAP Project: A http client/server library in C
* Copyright (C) 2003-2004 Ferhat Ayaz
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library 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
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*
* Email: ferhatayaz@yahoo.com
******************************************************************/
#ifndef UTILS_HASHTABLE_H
#define UTILS_HASHTABLE_H
/* These structs should not be accessed directly from user code.
* All access should be via the public functions declared below. */
typedef struct _hashpair {
const void *key;
void *value;
struct _hashpair *next;
} hashpair_t;
typedef struct {
long numOfBuckets;
long numOfElements;
hashpair_t **bucketArray;
float idealRatio, lowerRehashThreshold, upperRehashThreshold;
int (*keycmp)(const void *key1, const void *key2);
int (*valuecmp)(const void *value1, const void *value2);
unsigned long (*hashFunction)(const void *key);
void (*keyDeallocator)(void *key);
void (*valueDeallocator)(void *value);
} hashtable_t;
/*--------------------------------------------------------------------------*\
* NAME:
* hashtable_create() - creates a new HashTable
* DESCRIPTION:
* Creates a new HashTable. When finished with this HashTable, it
* should be explicitly destroyed by calling the hashtable_destroy()
* function.
* EFFICIENCY:
* O(1)
* ARGUMENTS:
* numOfBuckets - the number of buckets to start the HashTable out with.
* Must be greater than zero, and should be prime.
* Ideally, the number of buckets should between 1/5
* and 1 times the expected number of elements in the
* HashTable. Values much more or less than this will
* result in wasted memory or decreased performance
* respectively. The number of buckets in a HashTable
* can be re-calculated to an appropriate number by
* calling the hashtable_rehash() function once the
* HashTable has been populated. The number of buckets
* in a HashTable may also be re-calculated
* automatically if the ratio of elements to buckets
* passes the thresholds set by hashtable_set_ideal_ration().
* RETURNS:
* HashTable - a new Hashtable, or NULL on error
\*--------------------------------------------------------------------------*/
hashtable_t *hashtable_create(long numOfBuckets);
/*--------------------------------------------------------------------------*\
* NAME:
* hashtable_destroy() - destroys an existing HashTable
* DESCRIPTION:
* Destroys an existing HashTable.
* EFFICIENCY:
* O(n)
* ARGUMENTS:
* hashTable - the HashTable to destroy
* RETURNS:
* <nothing>
\*--------------------------------------------------------------------------*/
void hashtable_destroy(hashtable_t *hashTable);
/*--------------------------------------------------------------------------*\
* NAME:
* hashtable_contains_key() - checks the existence of a key in a HashTable
* DESCRIPTION:
* Determines whether or not the specified HashTable contains the
* specified key. Uses the comparison function specified by
* hashtable_set_key_comparision_function().
* EFFICIENCY:
* O(1), assuming a good hash function and element-to-bucket ratio
* ARGUMENTS:
* hashTable - the HashTable to search
* key - the key to search for
* RETURNS:
* bool - whether or not the specified HashTable contains the
* specified key.
\*--------------------------------------------------------------------------*/
int hashtable_contains_key(const hashtable_t *hashTable, const void *key);
/*--------------------------------------------------------------------------*\
* NAME:
* hashtable_contains_value()
* - checks the existence of a value in a HashTable
* DESCRIPTION:
* Determines whether or not the specified HashTable contains the
* specified value. Unlike hashtable_contains_key(), this function is
* not very efficient, since it has to scan linearly looking for a
* match. Uses the comparison function specified by
* hashtable_set_value_comparision_function().
* EFFICIENCY:
* O(n)
* ARGUMENTS:
* hashTable - the HashTable to search
* value - the value to search for
* RETURNS:
* bool - whether or not the specified HashTable contains the
* specified value.
\*--------------------------------------------------------------------------*/
int hashtable_contains_value(const hashtable_t *hashTable, const void *value);
/*--------------------------------------------------------------------------*\
* NAME:
* hashtable_put() - adds a key/value pair to a HashTable
* DESCRIPTION:
* Adds the specified key/value pair to the specified HashTable. If
* the key already exists in the HashTable (determined by the comparison
* function specified by hashtable_set_key_comparision_function()), its value
* is replaced by the new value. May trigger an auto-rehash (see
* hashtable_set_ideal_ration()). It is illegal to specify NULL as the
* key or value.
* EFFICIENCY:
* O(1), assuming a good hash function and element-to-bucket ratio
* ARGUMENTS:
* hashTable - the HashTable to add to
* key - the key to add or whose value to replace
* value - the value associated with the key
* RETURNS:
* err - 0 if successful, -1 if an error was encountered
\*--------------------------------------------------------------------------*/
int hashtable_put(hashtable_t *hashTable, const void *key, void *value);
/*--------------------------------------------------------------------------*\
* NAME:
* hashtable_get() - retrieves the value of a key in a HashTable
* DESCRIPTION:
* Retrieves the value of the specified key in the specified HashTable.
* Uses the comparison function specified by
* hashtable_set_key_comparision_function().
* EFFICIENCY:
* O(1), assuming a good hash function and element-to-bucket ratio
* ARGUMENTS:
* hashTable - the HashTable to search
* key - the key whose value is desired
* RETURNS:
* void * - the value of the specified key, or NULL if the key
* doesn't exist in the HashTable
\*--------------------------------------------------------------------------*/
void *hashtable_get(const hashtable_t *hashTable, const void *key);
/*--------------------------------------------------------------------------*\
* NAME:
* hashtable_remove() - removes a key/value pair from a HashTable
* DESCRIPTION:
* Removes the key/value pair identified by the specified key from the
* specified HashTable if the key exists in the HashTable. May trigger
* an auto-rehash (see hashtable_set_ideal_ration()).
* EFFICIENCY:
* O(1), assuming a good hash function and element-to-bucket ratio
* ARGUMENTS:
* hashTable - the HashTable to remove the key/value pair from
* key - the key specifying the key/value pair to be removed
* RETURNS:
* <nothing>
\*--------------------------------------------------------------------------*/
void hashtable_remove(hashtable_t *hashTable, const void *key);
/*--------------------------------------------------------------------------*\
* NAME:
* hashtable_remove_all() - removes all key/value pairs from a HashTable
* DESCRIPTION:
* Removes all key/value pairs from the specified HashTable. May trigger
* an auto-rehash (see hashtable_set_ideal_ration()).
* EFFICIENCY:
* O(n)
* ARGUMENTS:
* hashTable - the HashTable to remove all key/value pairs from
* RETURNS:
* <nothing>
\*--------------------------------------------------------------------------*/
void hashtable_remove_all(hashtable_t *hashTable);
/*--------------------------------------------------------------------------*\
* NAME:
* hashtable_is_empty() - determines if a HashTable is empty
* DESCRIPTION:
* Determines whether or not the specified HashTable contains any
* key/value pairs.
* EFFICIENCY:
* O(1)
* ARGUMENTS:
* hashTable - the HashTable to check
* RETURNS:
* bool - whether or not the specified HashTable contains any
* key/value pairs
\*--------------------------------------------------------------------------*/
int hashtable_is_empty(const hashtable_t *hashTable);
/*--------------------------------------------------------------------------*\
* NAME:
* hashtable_size() - returns the number of elements in a HashTable
* DESCRIPTION:
* Returns the number of key/value pairs that are present in the
* specified HashTable.
* EFFICIENCY:
* O(1)
* ARGUMENTS:
* hashTable - the HashTable whose size is requested
* RETURNS:
* long - the number of key/value pairs that are present in
* the specified HashTable
\*--------------------------------------------------------------------------*/
long hashtable_size(const hashtable_t *hashTable);
/*--------------------------------------------------------------------------*\
* NAME:
* hashtable_getNumBuckets() - returns the number of buckets in a HashTable
* DESCRIPTION:
* Returns the number of buckets that are in the specified HashTable.
* This may change dynamically throughout the life of a HashTable if
* automatic or manual rehashing is performed.
* EFFICIENCY:
* O(1)
* ARGUMENTS:
* hashTable - the HashTable whose number of buckets is requested
* RETURNS:
* long - the number of buckets that are in the specified
* HashTable
\*--------------------------------------------------------------------------*/
long hashtable_get_num_buckets(const hashtable_t *hashTable);
/*--------------------------------------------------------------------------*\
* NAME:
* hashtable_set_key_comparision_function()
* - specifies the function used to compare keys in a HashTable
* DESCRIPTION:
* Specifies the function used to compare keys in the specified
* HashTable. The specified function should return zero if the two
* keys are considered equal, and non-zero otherwise. The default
* function is one that simply compares pointers.
* ARGUMENTS:
* hashTable - the HashTable whose key comparison function is being
* specified
* keycmp - a function which returns zero if the two arguments
* passed to it are considered "equal" keys and non-zero
* otherwise
* RETURNS:
* <nothing>
\*--------------------------------------------------------------------------*/
void hashtable_set_key_comparision_function(hashtable_t *hashTable,
int (*keycmp)(const void *key1, const void *key2));
/*--------------------------------------------------------------------------*\
* NAME:
* hashtable_set_value_comparision_function()
* - specifies the function used to compare values in a HashTable
* DESCRIPTION:
* Specifies the function used to compare values in the specified
* HashTable. The specified function should return zero if the two
* values are considered equal, and non-zero otherwise. The default
* function is one that simply compares pointers.
* ARGUMENTS:
* hashTable - the HashTable whose value comparison function is being
* specified
* valuecmp - a function which returns zero if the two arguments
* passed to it are considered "equal" values and non-zero
* otherwise
* RETURNS:
* <nothing>
\*--------------------------------------------------------------------------*/
void hashtable_set_value_comparision_function(hashtable_t *hashTable,
int (*valuecmp)(const void *value1, const void *value2));
/*--------------------------------------------------------------------------*\
* NAME:
* hashtable_set_hashfunction()
* - specifies the hash function used by a HashTable
* DESCRIPTION:
* Specifies the function used to determine the hash value for a key
* in the specified HashTable (before modulation). An ideal hash
* function is one which is easy to compute and approximates a
* "random" function. The default function is one that works
* relatively well for pointers. If the HashTable keys are to be
* strings (which is probably the case), then this default function
* will not suffice, in which case consider using the provided
* hashtable_string_hash_function() function.
* ARGUMENTS:
* hashTable - the HashTable whose hash function is being specified
* hashFunction - a function which returns an appropriate hash code
* for a given key
* RETURNS:
* <nothing>
\*--------------------------------------------------------------------------*/
void hashtable_set_hashfunction(hashtable_t *hashTable,
unsigned long (*hashFunction)(const void *key));
/*--------------------------------------------------------------------------*\
* NAME:
* hashtable_rehash() - reorganizes a HashTable to be more efficient
* DESCRIPTION:
* Reorganizes a HashTable to be more efficient. If a number of
* buckets is specified, the HashTable is rehashed to that number of
* buckets. If 0 is specified, the HashTable is rehashed to a number
* of buckets which is automatically calculated to be a prime number
* that achieves (as closely as possible) the ideal element-to-bucket
* ratio specified by the hashtable_set_ideal_ration() function.
* EFFICIENCY:
* O(n)
* ARGUMENTS:
* hashTable - the HashTable to be reorganized
* numOfBuckets - the number of buckets to rehash the HashTable to.
* Should be prime. Ideally, the number of buckets
* should be between 1/5 and 1 times the expected
* number of elements in the HashTable. Values much
* more or less than this will result in wasted memory
* or decreased performance respectively. If 0 is
* specified, an appropriate number of buckets is
* automatically calculated.
* RETURNS:
* <nothing>
\*--------------------------------------------------------------------------*/
void hashtable_rehash(hashtable_t *hashTable, long numOfBuckets);
/*--------------------------------------------------------------------------*\
* NAME:
* hashtable_set_ideal_ration()
* - sets the ideal element-to-bucket ratio of a HashTable
* DESCRIPTION:
* Sets the ideal element-to-bucket ratio, as well as the lower and
* upper auto-rehash thresholds, of the specified HashTable. Note
* that this function doesn't actually perform a rehash.
*
* The default values for these properties are 3.0, 0.0 and 15.0
* respectively. This is likely fine for most situations, so there
* is probably no need to call this function.
* ARGUMENTS:
* hashTable - a HashTable
* idealRatio - the ideal element-to-bucket ratio. When a rehash
* occurs (either manually via a call to the
* hashtable_rehash() function or automatically due the
* the triggering of one of the thresholds below), the
* number of buckets in the HashTable will be
* recalculated to be a prime number that achieves (as
* closely as possible) this ideal ratio. Must be a
* positive number.
* lowerRehashThreshold
* - the element-to-bucket ratio that is considered
* unacceptably low (i.e., too few elements per bucket).
* If the actual ratio falls below this number, a
* rehash will automatically be performed. Must be
* lower than the value of idealRatio. If no ratio
* is considered unacceptably low, a value of 0.0 can
* be specified.
* upperRehashThreshold
* - the element-to-bucket ratio that is considered
* unacceptably high (i.e., too many elements per bucket).
* If the actual ratio rises above this number, a
* rehash will automatically be performed. Must be
* higher than idealRatio. However, if no ratio
* is considered unacceptably high, a value of 0.0 can
* be specified.
* RETURNS:
* <nothing>
\*--------------------------------------------------------------------------*/
void hashtable_set_ideal_ration(hashtable_t *hashTable, float idealRatio,
float lowerRehashThreshold,
float upperRehashThreshold);
/*--------------------------------------------------------------------------*\
* NAME:
* hashtable_set_deallocation_function()
* - sets the key and value deallocation functions of a HashTable
* DESCRIPTION:
* Sets the key and value deallocation functions of the specified
* HashTable. This determines what happens to a key or a value when it
* is removed from the HashTable. If the deallocation function is NULL
* (the default if this function is never called), its reference is
* simply dropped and it is up to the calling program to perform the
* proper memory management. If the deallocation function is non-NULL,
* it is called to free the memory used by the object. E.g., for simple
* objects, an appropriate deallocation function may be free().
*
* This affects the behaviour of the hashtable_destroy(), hashtable_put(),
* hashtable_remove() and hashtable_remove_all() functions.
* ARGUMENTS:
* hashTable - a HashTable
* keyDeallocator
* - if non-NULL, the function to be called when a key is
* removed from the HashTable.
* valueDeallocator
* - if non-NULL, the function to be called when a value is
* removed from the HashTable.
* RETURNS:
* <nothing>
\*--------------------------------------------------------------------------*/
void hashtable_set_deallocation_function(hashtable_t *hashTable,
void (*keyDeallocator)(void *key),
void (*valueDeallocator)(void *value));
/*--------------------------------------------------------------------------*\
* NAME:
* hashtable_string_hash_function() - a good hash function for strings
* DESCRIPTION:
* A hash function that is appropriate for hashing strings. Note that
* this is not the default hash function. To make it the default hash
* function, call hashtable_set_hashfunction(hashtable_string_hash_function).
* ARGUMENTS:
* key - the key to be hashed
* RETURNS:
* long - the unmodulated hash value of the key
\*--------------------------------------------------------------------------*/
unsigned long hashtable_string_hash_function(const void *key);
#endif /* UTILS_HASHTABLE_H */
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