/** * mds — A micro-display server * Copyright © 2014, 2015 Mattias Andrée (maandree@member.fsf.org) * * 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 3 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, see . */ #ifndef MDS_LIBMDSSERVER_HASH_LIST_H #define MDS_LIBMDSSERVER_HASH_LIST_H #include "macros.h" #include #include #include #include #include /** * The default initial capacity */ #ifndef HASH_LIST_DEFAULT_INITIAL_CAPACITY # define HASH_LIST_DEFAULT_INITIAL_CAPACITY 128 #endif #define HASH_LIST_HASH(key) (this->hasher != NULL ? this->hasher(key) : (size_t)key) #define HASH_LIST_T_VERSION 0 /** * Create a subclass of hash_list * * @param T The replacement text for `hash_list` * @param KEY_T The datatype of the keys * @param CKEY_T `const` version of `KEY_T` * @param VALUE_T The datatype of the values */ #define CREATE_HASH_LIST_SUBCLASS(T, KEY_T, CKEY_T, VALUE_T)\ \ \ /** * Slot for a value in a hash list */\ struct T##_entry;\ \ /** * Slot for a value in a hash list */\ struct T;\ \ \ \ /** * The datatype of the value */\ typedef VALUE_T T##_value_t;\ \ /** * Function-type for the function responsible for freeing the key and value of an entry * * @param entry The entry, will never be `NULL`, any only used entries will be passed */\ typedef void T##_entry_free_func(struct T##_entry* entry);\ \ /** * Function-type for the function responsible for hashing keys * * @param key The key, will never be `NULL` * @return The hash of the key */\ typedef size_t T##_key_hash_func(CKEY_T key);\ \ \ \ /** * Comparing keys * * @param key_a The first key, will never be `NULL` * @param key_b The second key, will never be `NULL` * @return Whether the keys are equal */\ static inline int T##_key_comparer(CKEY_T key_a, CKEY_T key_b);\ \ /** * Determine the marshal-size of an entry's key and value * * @param entry The entry, will never be `NULL`, any only used entries will be passed * @return The marshal-size of the entry's key and value */\ static inline size_t T##_submarshal_size(const struct T##_entry* entry);\ \ /** * Marshal an entry's key and value * * @param entry The entry, will never be `NULL`, any only used entries will be passed * @return The marshal-size of the entry's key and value */\ static inline size_t T##_submarshal(const struct T##_entry* entry, char* restrict data);\ \ /** * Unmarshal an entry's key and value * * @param entry The entry, will never be `NULL`, any only used entries will be passed * @return The number of read bytes, zero on error */\ static inline size_t T##_subunmarshal(struct T##_entry* entry, char* restrict data);\ \ \ \ /** * Slot for a value in a hash list */\ typedef struct T##_entry\ {\ /** * The key of the entry, `NULL` if the slot is unused */\ KEY_T key;\ \ /** * Hash of `key`, undefined but initialised if the slot is unused */\ size_t key_hash;\ \ /** * The value of the entry */\ T##_value_t value;\ \ } T##_entry_t;\ \ \ /** * The data structure of the hash list */\ typedef struct T\ {\ /** * The number of allocated slots */\ size_t allocated;\ \ /** * The number of unused slot that * has previously be used */\ size_t unused;\ \ /** * The number of slots that have * been used, even if no longer used */\ size_t used;\ \ /** * The slots */\ T##_entry_t* slots;\ \ /** * Function used to free keys and values of entries * * The freeing is not used if this function pointer is `NULL` * * Be aware, this variable cannot be marshalled */\ T##_entry_free_func* freer;\ \ /** * Function used to calculate the hash of a key * * If this function pointer is `NULL`, the identity hash is used * * Be aware, this variable cannot be marshalled */\ T##_key_hash_func* hasher;\ \ } T##_t;\ \ \ \ /** * Create a hash list * * @param this Memory slot in which to store the new hash list * @param capacity The minimum initial capacity of the hash list, 0 for default * @return Non-zero on error, `errno` will have been set accordingly */\ static inline int __attribute__((unused))\ T##_create(T##_t* restrict this, size_t capacity)\ {\ if (capacity == 0)\ capacity = HASH_LIST_DEFAULT_INITIAL_CAPACITY;\ \ this->freer = NULL;\ this->hasher = NULL;\ this->allocated = 0;\ this->unused = 0;\ this->used = 0;\ \ this->slots = malloc(capacity * sizeof(T##_t));\ if (this->slots == NULL)\ return -1;\ \ this->allocated = capacity;\ return 0;\ }\ \ \ /** * Release all resources in a hash list * * @param this The hash list */\ static inline void __attribute__((unused))\ T##_destroy(T##_t* restrict this)\ {\ size_t i, n;\ if (this->freer != NULL)\ for (i = 0, n = this->used; i < n; i++)\ if (this->slots[i].key)\ this->freer(this->slots + i);\ this->used = 0;\ this->unused = 0;\ this->allocated = 0;\ free(this->slots);\ this->slots = NULL;\ }\ \ \ /** * Clone a hash list * * @param this The hash list to clone * @param out Memory slot in which to store the new hash list * @return Non-zero on error, `errno` will have been set accordingly */\ static inline int __attribute__((unused))\ T##_clone(const T##_t* restrict this, T##_t* restrict out)\ {\ if (T##_create(out, this->allocated) < 0)\ return -1;\ out->used = this->used;\ out->unused = this->unused;\ memcpy(out->slots, this->slots, this->used * sizeof(T##_entry_t));\ }\ \ \ /** * Pack the list so that there are no reusable * positions, and reduce the capacity to the * smallest capacity that can be used. * This method has linear time complexity and * constant memory complexity. * * @param this The list * @return Non-zero on error, `errno` will have * been set accordingly. Errors are non-fatal. */\ static inline int __attribute__((unused))\ T##_pack(T##_t* restrict this)\ {\ size_t i, j, n;\ T##_entry_t* slots = this->slots;\ \ if (this->unused > 0)\ {\ for (i = 0, j = 0, n = this->used; i < n; i++)\ if (slots[i].key != NULL)\ slots[j++] = slots[i];\ \ this->used -= this->unused;\ this->unused = 0;\ }\ \ if (this->used < this->allocated)\ {\ slots = realloc(slots, this->used * sizeof(T##_entry_t));\ if (slots == NULL)\ return -1;\ this->slots = slots;\ this->allocated = this->used;\ }\ \ return 0;\ }\ \ \ /** * Look up a value in a hash list * * @param this The hash list * @param key The key associated with the value, must not be `NULL` * @param value Output parameter for the value * @return Whether the key was found, error is impossible */\ static inline int __attribute__((unused))\ T##_get(const T##_t* restrict this, CKEY_T key, T##_value_t* restrict value)\ {\ size_t i, n, hash = HASH_LIST_HASH(key);\ for (i = 0, n = this->used; i < n; i++)\ if ((this->slots[i].key_hash == hash) && this->slots[i].key)\ if (T##_key_comparer(this->slots[i].key, key))\ return *value = this->slots[i].value, 1;\ return 0;\ }\ \ \ /** * Remove an entry from a hash list * * @param this The hash list * @param key The key of the entry to remove, must not be `NULL` */\ static inline void __attribute__((unused))\ T##_remove(T##_t* restrict this, CKEY_T key)\ {\ size_t i, n, hash = HASH_LIST_HASH(key);\ T##_entry_t* slots = this->slots;\ for (i = 0, n = this->used; i < n; i++)\ if ((slots[i].key_hash == hash) && (slots[i].key != NULL))\ if (T##_key_comparer(slots[i].key, key))\ {\ if (this->freer != NULL)\ this->freer(slots + i);\ slots[i].key = NULL;\ this->unused++;\ if ((this->unused >> 1) >= this->used)\ T##_pack(this);\ return;\ }\ }\ \ \ /** * Add an entry to a hash list * * @param this The hash list * @param key The key of the entry to add, must not be `NULL` * @param value Pointer to the value of the entry to add, * `NULL` if the entry should be removed instead * @return Non-zero on error, `errno` will have been set accordingly */\ static inline int __attribute__((unused))\ T##_put(T##_t* restrict this, KEY_T key, const T##_value_t* restrict value)\ {\ size_t i, n, empty, hash;\ T##_entry_t* slots = this->slots;\ \ /* Remove entry if no value is passed */\ if (value == NULL)\ {\ T##_remove(this, key);\ return 0;\ }\ \ /* Find an unused slot or the current slot */\ empty = this->used, hash = HASH_LIST_HASH(key);\ for (i = 0, n = this->used; i < n; i++)\ if (slots[i].key == NULL)\ empty = i;\ else if (slots[i].key_hash == hash)\ if (T##_key_comparer(slots[i].key, key))\ {\ if (this->freer != NULL)\ this->freer(slots + i);\ goto put;\ }\ \ /* Grow slot allocation is required */\ if (empty == this->allocated)\ {\ if (empty >= SIZE_MAX >> 1)\ return errno = ENOMEM, -1;\ slots = realloc(slots, (empty << 1) * sizeof(T##_entry_t));\ if (slots == NULL)\ return -1;\ this->slots = slots;\ this->allocated <<= 1;\ }\ \ /* Store entry */\ i = empty;\ put:\ slots[i].key = key;\ slots[i].key_hash = hash;\ slots[i].value = *value;\ return 0;\ }\ \ \ /** * Calculate the buffer size need to marshal a hash list * * @param this The hash table * @return The number of bytes to allocate to the output buffer */\ static inline size_t __attribute__((unused))\ T##_marshal_size(const T##_t* restrict this)\ {\ size_t i, n = this->used;\ size_t rc = sizeof(int) + 3 * sizeof(size_t);\ for (i = 0; i < n; i++)\ if (this->slots[i].key != NULL)\ rc += T##_submarshal_size(this->slots + i);\ return rc + n * sizeof(char) + (n - this->unused) * sizeof(size_t);\ }\ \ \ /** * Marshals a hash list * * @param this The hash list * @param data Output buffer for the marshalled data */\ static inline void __attribute__((unused))\ T##_marshal(const T##_t* restrict this, char* restrict data)\ {\ size_t wrote, i, n = this->used;\ \ buf_set_next(data, int, HASH_LIST_T_VERSION);\ buf_set_next(data, size_t, this->allocated);\ buf_set_next(data, size_t, this->unused);\ buf_set_next(data, size_t, this->used);\ \ for (i = 0; i < n; i++)\ if (this->slots[i].key != NULL)\ {\ buf_set_next(data, char, 1);\ buf_set_next(data, size_t, this->slots[i].key_hash);\ wrote = T##_submarshal(this->slots + i, data);\ data += wrote / sizeof(char);\ }\ else\ buf_set_next(data, char, 0);\ }\ \ \ /** * Unmarshals a hash list * * @param this Memory slot in which to store the new hash list * @param data In buffer with the marshalled data * @return Non-zero on error, `errno` will be set accordingly. * Destroy the table on error. */\ static inline int __attribute__((unused))\ T##_unmarshal(T##_t* restrict this, char* restrict data)\ {\ size_t i, n, got;\ char used;\ \ this->freer = NULL;\ this->hasher = NULL;\ \ /* buf_get(data, int, 0, HASH_LIST_T_VERSION); */\ buf_next(data, int, 1);\ \ buf_get_next(data, size_t, this->allocated);\ buf_get_next(data, size_t, this->unused);\ buf_get_next(data, size_t, this->used);\ \ this->slots = calloc(this->allocated, sizeof(T##_entry_t));\ if (this->slots == NULL)\ return -1;\ \ for (i = 0, n = this->used; i < n; i++)\ {\ buf_get_next(data, char, used);\ if (used == 0)\ continue;\ buf_set_next(data, size_t, this->slots[i].key_hash);\ got = T##_subunmarshal(this->slots + i, data);\ if (got == 0)\ return -1;\ data += got / sizeof(char);\ }\ \ return 0;\ } /** * Wrapper for `for` keyword that iterates over entry element in a hash list * * @param this:hash_list_t The hash lsit * @param i:size_t The variable to store the buckey index in at each iteration * @param entry:hash_list_enty_t* The variable to store the entry in at each iteration */ #define foreach_hash_list_entry(this, i, entry) \ for (i = 0; i < (this).used; i++) \ if (entry = (this).slots, entry->keys != NULL) #endif