usr.sbin/nscd/hashtable.h

   1 /*-
   2  * Copyright (c) 2005 Michael Bushkov <bushman@rsu.ru>
   3  * All rights reserved.
   4  *
   5  * Redistribution and use in source and binary forms, with or without
   6  * modification, are permitted provided that the following conditions
   7  * are met:
   8  * 1. Redistributions of source code must retain the above copyright
   9  *    notice, this list of conditions and the following disclaimer.
  10  * 2. Redistributions in binary form must reproduce the above copyright
  11  *    notice, this list of conditions and the following disclaimer in the
  12  *    documentation and/or other materials provided with the distribution.
  13  *
  14  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
  15  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  16  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
  17  * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
  18  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
  19  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
  20  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
  21  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
  22  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
  23  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
  24  * SUCH DAMAGE.
  25  *
  26  * $FreeBSD: src/usr.sbin/nscd/hashtable.h,v 1.3 2008/10/12 00:44:27 delphij Exp $
  27  */
  28
  29 #ifndef __CACHELIB_HASHTABLE_H__
  30 #define __CACHELIB_HASHTABLE_H__
  31
  32 #include <search.h>
  33 #include <string.h>
  34
  35 #define HASHTABLE_INITIAL_ENTRIES_CAPACITY 8
  36 typedef int hashtable_index_t;
  37
  38 /*
  39  * This file contains queue.h-like macro definitions for hash tables.
  40  * Hash table is organized as an array of the specified size of the user
  41  * defined (with HASTABLE_ENTRY_HEAD) structures. Each hash table
  42  * entry (user defined structure) stores its elements in the sorted array.
  43  * You can place elements into the hash table, retrieve elements with
  44  * specified key, traverse through all elements, and delete them.
  45  * New elements are placed into the hash table by using the compare and
  46  * hashing functions, provided by the user.
  47  */
  48
  49 /*
  50  * Defines the hash table entry structure, that uses specified type of
  51  * elements.
  52  */
  53 #define HASHTABLE_ENTRY_HEAD(name, type) struct name {                  \
  54         type    *values;                                                \
  55         size_t capacity;                                                \
  56         size_t size;                                                    \
  57 }
  58
  59 /*
  60  * Defines the hash table structure, which uses the specified type of entries.
  61  * The only restriction for entries is that is that they should have the field,
  62  * defined with HASHTABLE_ENTRY_HEAD macro.
  63  */
  64 #define HASHTABLE_HEAD(name, entry) struct name {                       \
  65         struct entry    *entries;                                       \
  66         size_t          entries_size;                                   \
  67 }
  68
  69 #define HASHTABLE_ENTRIES_COUNT(table) ((table)->entries_size)
  70
  71 /*
  72  * Unlike most of queue.h data types, hash tables can not be initialized
  73  * statically - so there is no HASHTABLE_HEAD_INITIALIZED macro.
  74  */
  75 #define HASHTABLE_INIT(table, type, field, _entries_size)               \
  76         do {                                                            \
  77                 hashtable_index_t var;                                  \
  78                 (table)->entries = (void *)calloc(1,                    \
  79                         sizeof(*(table)->entries) * (_entries_size));   \
  80                 (table)->entries_size = (_entries_size);                \
  81                 for (var = 0; var < HASHTABLE_ENTRIES_COUNT(table); ++var) {\
  82                         (table)->entries[var].field.capacity =          \
  83                                 HASHTABLE_INITIAL_ENTRIES_CAPACITY;     \
  84                         (table)->entries[var].field.size = 0;           \
  85                         (table)->entries[var].field.values = (type *)malloc(\
  86                                 sizeof(type) *                          \
  87                                 HASHTABLE_INITIAL_ENTRIES_CAPACITY);    \
  88                         assert((table)->entries[var].field.values != NULL);\
  89                 }                                                       \
  90         } while (0)
  91
  92 /*
  93  * All initialized hashtables should be destroyed with this macro.
  94  */
  95 #define HASHTABLE_DESTROY(table, field)                                 \
  96         do {                                                            \
  97                 hashtable_index_t var;                                  \
  98                 for (var = 0; var < HASHTABLE_ENTRIES_COUNT(table); ++var) {\
  99                         free((table)->entries[var].field.values);       \
 100                 }                                                       \
 101         } while (0)
 102
 103 #define HASHTABLE_GET_ENTRY(table, hash)        (&((table)->entries[hash]))
 104
 105 /*
 106  * Traverses through all hash table entries
 107  */
 108 #define HASHTABLE_FOREACH(table, var)                                   \
 109         for ((var) = &((table)->entries[0]);                            \
 110                 (var) < &((table)->entries[HASHTABLE_ENTRIES_COUNT(table)]);\
 111                 ++(var))
 112
 113 /*
 114  * Traverses through all elements of the specified hash table entry
 115  */
 116 #define HASHTABLE_ENTRY_FOREACH(entry, field, var)                      \
 117         for ((var) = &((entry)->field.values[0]);                       \
 118                 (var) < &((entry)->field.values[(entry)->field.size]);  \
 119                 ++(var))
 120
 121 #define HASHTABLE_ENTRY_CLEAR(entry, field)                             \
 122         ((entry)->field.size = 0)
 123
 124 #define HASHTABLE_ENTRY_SIZE(entry, field)                              \
 125         ((entry)->field.size)
 126
 127 #define HASHTABLE_ENTRY_CAPACITY(entry, field)                          \
 128         ((entry)->field.capacity)
 129
 130 #define HASHTABLE_ENTRY_CAPACITY_INCREASE(entry, field, type)           \
 131         (entry)->field.capacity *= 2;                                   \
 132         (entry)->field.values = (type *)realloc((entry)->field.values,  \
 133                 (entry)->field.capacity * sizeof(type));
 134
 135 #define HASHTABLE_ENTRY_CAPACITY_DECREASE(entry, field, type)           \
 136         (entry)->field.capacity /= 2;                                   \
 137         (entry)->field.values = (type *)realloc((entry)->field.values,  \
 138                 (entry)->field.capacity * sizeof(type));
 139
 140 /*
 141  * Generates prototypes for the hash table functions
 142  */
 143 #define HASHTABLE_PROTOTYPE(name, entry_, type)                         \
 144 hashtable_index_t name##_CALCULATE_HASH(struct name *, type *);         \
 145 void name##_ENTRY_STORE(struct entry_*, type *);                        \
 146 type *name##_ENTRY_FIND(struct entry_*, type *);                        \
 147 type *name##_ENTRY_FIND_SPECIAL(struct entry_ *, type *,                \
 148         int (*) (const void *, const void *));                          \
 149 void name##_ENTRY_REMOVE(struct entry_*, type *);
 150
 151 /*
 152  * Generates implementations of the hash table functions
 153  */
 154 #define HASHTABLE_GENERATE(name, entry_, type, field, HASH, CMP)        \
 155 hashtable_index_t name##_CALCULATE_HASH(struct name *table, type *data) \
 156 {                                                                       \
 157                                                                         \
 158         return HASH(data, table->entries_size);                         \
 159 }                                                                       \
 160                                                                         \
 161 void name##_ENTRY_STORE(struct entry_ *the_entry, type *data)           \
 162 {                                                                       \
 163                                                                         \
 164         if (the_entry->field.size == the_entry->field.capacity)         \
 165                 HASHTABLE_ENTRY_CAPACITY_INCREASE(the_entry, field, type);\
 166                                                                         \
 167         memcpy(&(the_entry->field.values[the_entry->field.size++]),     \
 168                 data,                                                   \
 169                 sizeof(type));                                          \
 170         qsort(the_entry->field.values, the_entry->field.size,           \
 171                 sizeof(type), CMP);                                     \
 172 }                                                                       \
 173                                                                         \
 174 type *name##_ENTRY_FIND(struct entry_ *the_entry, type *key)            \
 175 {                                                                       \
 176                                                                         \
 177         return ((type *)bsearch(key, the_entry->field.values,           \
 178                 the_entry->field.size, sizeof(type), CMP));             \
 179 }                                                                       \
 180                                                                         \
 181 type *name##_ENTRY_FIND_SPECIAL(struct entry_ *the_entry, type *key,    \
 182         int (*compar) (const void *, const void *))                     \
 183 {                                                                       \
 184         return ((type *)bsearch(key, the_entry->field.values,           \
 185                 the_entry->field.size, sizeof(type), compar));          \
 186 }                                                                       \
 187                                                                         \
 188 void name##_ENTRY_REMOVE(struct entry_ *the_entry, type *del_elm)       \
 189 {                                                                       \
 190                                                                         \
 191         memmove(del_elm, del_elm + 1,                                   \
 192                 (&the_entry->field.values[--the_entry->field.size] - del_elm) *\
 193                 sizeof(type));                                          \
 194 }
 195
 196 /*
 197  * Macro definitions below wrap the functions, generaed with
 198  * HASHTABLE_GENERATE macro. You should use them and avoid using generated
 199  * functions directly.
 200  */
 201 #define HASHTABLE_CALCULATE_HASH(name, table, data)                     \
 202         (name##_CALCULATE_HASH((table), data))
 203
 204 #define HASHTABLE_ENTRY_STORE(name, entry, data)                        \
 205         name##_ENTRY_STORE((entry), data)
 206
 207 #define HASHTABLE_ENTRY_FIND(name, entry, key)                          \
 208         (name##_ENTRY_FIND((entry), (key)))
 209
 210 #define HASHTABLE_ENTRY_FIND_SPECIAL(name, entry, key, cmp)             \
 211         (name##_ENTRY_FIND_SPECIAL((entry), (key), (cmp)))
 212
 213 #define HASHTABLE_ENTRY_REMOVE(name, entry, del_elm)                    \
 214         name##_ENTRY_REMOVE((entry), (del_elm))
 215
 216 #endif