/* hash.h -- decls for hash table Copyright (C) 1995 Free Software Foundation, Inc. Written by Greg McGary 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, 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ /* * This version has been modified by Akim Demaille * so that * - hash_free_item takes as argument the free function to be applied * to the items. * - hash_free takes a function pointer supposed to be the free * function to be used, instead of an integer which was saying if * free should have been called or not. * - hash_out made to print a hash_table. */ #ifndef HASHTAB_H_ # define HASHTAB_H_ # ifndef PARAMS # if defined (__GNUC__) || (defined (__STDC__) && __STDC__) # define PARAMS(args) args # else # define PARAMS(args) () # endif /* GCC. */ # endif /* Not PARAMS. */ typedef unsigned long (*hash_func_t) PARAMS((void const *key)); typedef int (*hash_cmp_func_t) PARAMS((void const *x, void const *y)); typedef int (*hash_select_func_t) PARAMS ((void const *item)); typedef void (*hash_map_func_t) PARAMS((void const *item)); typedef void (*hash_maparg_func_t) PARAMS((void const *item, void const * arg)); struct hash_table_s { void **ht_vec; unsigned long ht_size; /* total number of slots (power of 2) */ unsigned long ht_capacity; /* usable slots, limited by loading-factor */ unsigned long ht_fill; /* items in table */ unsigned long ht_collisions; /* # of failed calls to comparison function */ unsigned long ht_lookups; /* # of queries */ unsigned int ht_rehashes; /* # of times we've expanded table */ hash_func_t ht_hash_1; /* primary hash function */ hash_func_t ht_hash_2; /* secondary hash function */ hash_cmp_func_t ht_compare; /* comparison function */ }; typedef int (*qsort_cmp_t) PARAMS((void const *, void const *)); void hash_init PARAMS((struct hash_table_s *ht, unsigned long size, hash_func_t hash_1, hash_func_t hash_2, hash_cmp_func_t hash_cmp)); void hash_load PARAMS((struct hash_table_s *ht, void *item_table, unsigned long cardinality, unsigned long size)); void **hash_find_slot PARAMS((struct hash_table_s *ht, void const *key)); void *hash_find_item PARAMS((struct hash_table_s *ht, void const *key)); void *hash_insert PARAMS((struct hash_table_s *ht, void *item)); void *hash_insert_at PARAMS((struct hash_table_s *ht, void *item, void const *slot)); void *hash_delete PARAMS((struct hash_table_s *ht, void const *item)); void *hash_delete_at PARAMS((struct hash_table_s *ht, void const *slot)); void hash_delete_items PARAMS((struct hash_table_s *ht)); void hash_free_items PARAMS((struct hash_table_s *ht, hash_map_func_t free_fn)); void hash_free PARAMS((struct hash_table_s *ht, hash_map_func_t free_fn)); void hash_map PARAMS((struct hash_table_s *ht, hash_map_func_t map)); void hash_maparg PARAMS((struct hash_table_s *ht, hash_maparg_func_t map, void const *arg, qsort_cmp_t compare)); void hash_print_stats PARAMS((struct hash_table_s *ht, FILE *out_FILE)); void **hash_dump PARAMS((struct hash_table_s *ht, void **vector_0, qsort_cmp_t compare)); void **hash_dump_select PARAMS((struct hash_table_s *ht, void **vector_0, hash_select_func_t select_fn, qsort_cmp_t compare)); extern void *hash_deleted_item; # define HASH_VACANT(item) ((item) == 0 || (void *) (item) == hash_deleted_item) /* hash and comparison macros for string keys. */ # define STRING_HASH_1(_key_, _result_) do { \ unsigned char const *kk = (unsigned char const *) (_key_) - 1; \ while (*++kk) \ (_result_) += (*kk << (kk[1] & 0xf)); \ } while (0) # define return_STRING_HASH_1(_key_) do { \ unsigned long result = 0; \ STRING_HASH_1 ((_key_), result); \ return result; \ } while (0) # define STRING_HASH_2(_key_, _result_) do { \ unsigned char const *kk = (unsigned char const *) (_key_) - 1; \ while (*++kk) \ (_result_) += (*kk << (kk[1] & 0x7)); \ } while (0) # define return_STRING_HASH_2(_key_) do { \ unsigned long result = 0; \ STRING_HASH_2 ((_key_), result); \ return result; \ } while (0) # define STRING_COMPARE(_x_, _y_, _result_) do { \ unsigned char const *xx = (unsigned char const *) (_x_) - 1; \ unsigned char const *yy = (unsigned char const *) (_y_) - 1; \ do { \ if (*++xx == '\0') { \ yy++; \ break; \ } \ } while (*xx == *++yy); \ (_result_) = *xx - *yy; \ } while (0) # define return_STRING_COMPARE(_x_, _y_) do { \ int result; \ STRING_COMPARE (_x_, _y_, result); \ return result; \ } while (0) /* hash and comparison macros for string keys, case insensitive. */ # define STRING_CASE_HASH_1(_key_, _result_) do { \ unsigned char const *kk = (unsigned char const *) (_key_) - 1; \ while (*++kk) \ (_result_) += (tolower (*kk) << (tolower (kk[1]) & 0xf)); \ } while (0) # define return_STRING_CASE_HASH_1(_key_) do { \ unsigned long result = 0; \ STRING_CASE_HASH_1 ((_key_), result); \ return result; \ } while (0) # define STRING_CASE_HASH_2(_key_, _result_) do { \ unsigned char const *kk = (unsigned char const *) (_key_) - 1; \ while (*++kk) \ (_result_) += (tolower(*kk) << (tolower(kk[1]) & 0x7)); \ } while (0) # define return_STRING_CASE_HASH_2(_key_) do { \ unsigned long result = 0; \ STRING_HASH_2 ((_key_), result); \ return result; \ } while (0) # define STRING_CASE_COMPARE(_x_, _y_, _result_) do { \ unsigned char const *xx = (unsigned char const *) (_x_) - 1; \ unsigned char const *yy = (unsigned char const *) (_y_) - 1; \ do { \ if (*++xx == '\0') { \ yy++; \ break; \ } \ yy++; \ } while (tolower (*xx) == tolower (*yy)); \ (_result_) = tolower(*xx) - tolower(*yy); \ } while (0) # define return_STRING_CASE_COMPARE(_x_, _y_) do { \ int result; \ STRING_CASE_COMPARE (_x_, _y_, result); \ return result; \ } while (0) /* hash and comparison macros for integer keys. */ # define INTEGER_HASH_1(_key_, _result_) do { \ (_result_) += ((unsigned long)(_key_)); \ } while (0) # define return_INTEGER_HASH_1(_key_) do { \ unsigned long result = 0; \ INTEGER_HASH_1 ((_key_), result); \ return result; \ } while (0) # define INTEGER_HASH_2(_key_, _result_) do { \ (_result_) += ~((unsigned long)(_key_)); \ } while (0) # define return_INTEGER_HASH_2(_key_) do { \ unsigned long result = 0; \ INTEGER_HASH_2 ((_key_), result); \ return result; \ } while (0) # define INTEGER_COMPARE(_x_, _y_, _result_) do { \ (_result_) = _x_ - _y_; \ } while (0) # define return_INTEGER_COMPARE(_x_, _y_) do { \ int result; \ INTEGER_COMPARE (_x_, _y_, result); \ return result; \ } while (0) /* hash and comparison macros for address keys. */ # define ADDRESS_HASH_1(_key_, _result_) INTEGER_HASH_1 (((unsigned long)(_key_)) >> 3, (_result_)) # define ADDRESS_HASH_2(_key_, _result_) INTEGER_HASH_2 (((unsigned long)(_key_)) >> 3, (_result_)) # define ADDRESS_COMPARE(_x_, _y_, _result_) INTEGER_COMPARE ((_x_), (_y_), (_result_)) # define return_ADDRESS_HASH_1(_key_) return_INTEGER_HASH_1 (((unsigned long)(_key_)) >> 3) # define return_ADDRESS_HASH_2(_key_) return_INTEGER_HASH_2 (((unsigned long)(_key_)) >> 3) # define return_ADDRESS_COMPARE(_x_, _y_) return_INTEGER_COMPARE ((_x_), (_y_)) #endif /* not _HASHTAB_H_ */