/*
* Copyright (c) 2020 Red Hat, Inc.
*
* This program 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 2
* of the License, or (at your option) any later version.
*
* This program 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 this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
* 02110-1301, USA.
*
* $Id: //eng/vdo-releases/aluminum/src/c++/vdo/base/pointerMap.h#1 $
*/
#ifndef POINTER_MAP_H
#define POINTER_MAP_H
#include "common.h"
/**
* PointerMap associates pointer values (void *
) with the data
* referenced by pointer keys (void *
). NULL
pointer
* values are not supported. A NULL
key value is supported when
* the instance's key comparator and hasher functions support it.
*
* The map is implemented as hash table, which should provide constant-time
* insert, query, and remove operations, although the insert may occasionally
* grow the table, which is linear in the number of entries in the map. The
* table will grow as needed to hold new entries, but will not shrink as
* entries are removed.
*
* The key and value pointers passed to the map are retained and used by the
* map, but are not owned by the map. Freeing the map does not attempt to free
* the pointers. The client is entirely responsible for the memory managment
* of the keys and values. The current interface and implementation assume
* that keys will be properties of the values, or that keys will not be memory
* managed, or that keys will not need to be freed as a result of being
* replaced when a key is re-mapped.
**/
typedef struct pointerMap PointerMap;
/**
* The prototype of functions that compare the referents of two pointer keys
* for equality. If two keys are equal, then both keys must have the same the
* hash code associated with them by the hasher function defined below.
* @param thisKey The first element to compare
* @param thatKey The second element to compare
*
* @return true
if and only if the referents of the two
* key pointers are to be treated as the same key by the map
**/
typedef bool PointerKeyComparator(const void *thisKey, const void *thatKey);
/**
* The prototype of functions that get or calculate a hash code associated
* with the referent of pointer key. The hash code must be uniformly
* distributed over all uint32_t values. The hash code associated with a given
* key must not change while the key is in the map. If the comparator function
* says two keys are equal, then this function must return the same hash code
* for both keys. This function may be called many times for a key while an
* entry is stored for it in the map.
*
* @param key The pointer key to hash
*
* @return the hash code for the key
**/
typedef uint32_t PointerKeyHasher(const void *key);
/**
* Allocate and initialize a PointerMap.
*
* @param [in] initialCapacity The number of entries the map should
* initially be capable of holding (zero tells
* the map to use its own small default)
* @param [in] initialLoad The load factor of the map, expressed as an
* integer percentage (typically in the range
* 50 to 90, with zero telling the map to use
* its own default)
* @param [in] comparator The function to use to compare the referents
* of two pointer keys for equality
* @param [in] hasher The function to use obtain the hash code
* associated with each pointer key
* @param [out] mapPtr A pointer to hold the new PointerMap
*
* @return UDS_SUCCESS or an error code
**/
int makePointerMap(size_t initialCapacity,
unsigned int initialLoad,
PointerKeyComparator comparator,
PointerKeyHasher hasher,
PointerMap **mapPtr)
__attribute__((warn_unused_result));
/**
* Free a PointerMap and null out the reference to it. NOTE: The map does not
* own the pointer keys and values stored in the map and they are not freed by
* this call.
*
* @param [in,out] mapPtr The reference to the PointerMap to free
**/
void freePointerMap(PointerMap **mapPtr);
/**
* Get the number of entries stored in a PointerMap.
*
* @param map The PointerMap to query
*
* @return the number of entries in the map
**/
size_t pointerMapSize(const PointerMap *map);
/**
* Retrieve the value associated with a given key from the PointerMap.
*
* @param map The PointerMap to query
* @param key The key to look up (may be NULL
if the
* comparator and hasher functions support it)
*
* @return the value associated with the given key, or NULL
* if the key is not mapped to any value
**/
void *pointerMapGet(PointerMap *map, const void *key);
/**
* Try to associate a value (a pointer) with an integer in a PointerMap.
* If the map already contains a mapping for the provided key, the old value is
* only replaced with the specified value if update is true. In either case
* the old value is returned. If the map does not already contain a value for
* the specified key, the new value is added regardless of the value of update.
*
* If the value stored in the map is updated, then the key stored in the map
* will also be updated with the key provided by this call. The old key will
* not be returned due to the memory managment assumptions described in the
* interface header comment.
*
* @param [in] map The PointerMap to attempt to modify
* @param [in] key The key with which to associate the new value
* (may be NULL
if the comparator and
* hasher functions support it)
* @param [in] newValue The value to be associated with the key
* @param [in] update Whether to overwrite an existing value
* @param [out] oldValuePtr A pointer in which to store either the old value
* (if the key was already mapped) or
* NULL
if the map did not contain the
* key; NULL
may be provided if the
* caller does not need to know the old value
*
* @return UDS_SUCCESS or an error code
**/
int pointerMapPut(PointerMap *map,
const void *key,
void *newValue,
bool update,
void **oldValuePtr)
__attribute__((warn_unused_result));
/**
* Remove the mapping for a given key from the PointerMap.
*
* @param map The PointerMap from which to remove the mapping
* @param key The key whose mapping is to be removed (may be NULL
* if the comparator and hasher functions support it)
*
* @return the value that was associated with the key, or
* NULL
if it was not mapped
**/
void *pointerMapRemove(PointerMap *map, const void *key);
#endif /* POINTER_MAP_H */