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* lib/hash.c, lib/hash.h: Replace with Fileutils 4.1's version.

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* configure.in: Check for the declarations of free and malloc.
* src/muscle_tab.c: Adjust.
This commit is contained in:
Akim Demaille
2002-02-05 10:00:47 +00:00
parent 5ece6d436f
commit beda758b1f
6 changed files with 1081 additions and 387 deletions
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7
ChangeLog
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@@ -1,3 +1,10 @@
2002-02-05 Akim Demaille <akim@epita.fr>
* lib/hash.c, lib/hash.h: Replace with Fileutils 4.1's version.
* configure.in: Check for the declarations of free and malloc.
* src/muscle_tab.c: Adjust.
2002-02-05 Akim Demaille <akim@epita.fr> 2002-02-05 Akim Demaille <akim@epita.fr>
* src/muscle_tab.c (muscle_init): Don't default to NULL muscle * src/muscle_tab.c (muscle_init): Don't default to NULL muscle

2
configure.in
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@@ -90,7 +90,7 @@ AC_FUNC_OBSTACK
AC_FUNC_ERROR_AT_LINE AC_FUNC_ERROR_AT_LINE
AC_FUNC_STRNLEN AC_FUNC_STRNLEN
AC_CHECK_FUNCS(mkstemp setlocale) AC_CHECK_FUNCS(mkstemp setlocale)
AC_CHECK_DECLS([stpcpy, strchr, strspn, strnlen, memchr, memrchr]) AC_CHECK_DECLS([free, stpcpy, strchr, strspn, strnlen, malloc, memchr, memrchr])
AC_REPLACE_FUNCS(stpcpy strchr strspn memchr memrchr) AC_REPLACE_FUNCS(stpcpy strchr strspn memchr memrchr)
jm_FUNC_MALLOC jm_FUNC_MALLOC
jm_FUNC_REALLOC jm_FUNC_REALLOC

1196
lib/hash.c
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File diff suppressed because it is too large Load Diff

207
lib/hash.h
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@@ -1,6 +1,6 @@
/* hash.h -- decls for hash table /* hash - hashing table processing.
Copyright 1995, 2001 Free Software Foundation, Inc. Copyright (C) 1998, 1999 Free Software Foundation, Inc.
Written by Greg McGary <gkm@gnu.ai.mit.edu> Written by Jim Meyering <meyering@ascend.com>, 1998.
This program is free software; you can redistribute it and/or modify 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 it under the terms of the GNU General Public License as published by
@@ -13,141 +13,108 @@
GNU General Public License for more details. GNU General Public License for more details.
You should have received a copy of the GNU General Public License You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software along with this program; if not, write to the Free Software Foundation,
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
#ifndef _hash_h_ /* A generic hash table package. */
#define _hash_h_
#include <stdio.h> /* Make sure USE_OBSTACK is defined to 1 if you want the allocator to use
obstacks instead of malloc, and recompile `hash.c' with same setting. */
#ifndef PARAMS #ifndef PARAMS
# if defined PROTOTYPES || defined __STDC__ # if PROTOTYPES || __STDC__
# define PARAMS(Args) Args # define PARAMS(Args) Args
# else # else
# define PARAMS(Args) () # define PARAMS(Args) ()
# endif # endif
#endif #endif
typedef unsigned long (*hash_func_t) PARAMS((void const *key)); typedef unsigned (*Hash_hasher) PARAMS ((const void *, unsigned));
typedef int (*hash_cmp_func_t) PARAMS((void const *x, void const *y)); typedef bool (*Hash_comparator) PARAMS ((const void *, const void *));
typedef void (*hash_map_func_t) PARAMS((void const *item)); typedef void (*Hash_data_freer) PARAMS ((void *));
typedef bool (*Hash_processor) PARAMS ((void *, void *));
struct hash_entry
{
void *data;
struct hash_entry *next;
};
struct hash_tuning
{
/* This structure is mainly used for `hash_initialize', see the block
documentation of `hash_reset_tuning' for more complete comments. */
float shrink_threshold; /* ratio of used buckets to trigger a shrink */
float shrink_factor; /* ratio of new smaller size to original size */
float growth_threshold; /* ratio of used buckets to trigger a growth */
float growth_factor; /* ratio of new bigger size to original size */
bool is_n_buckets; /* if CANDIDATE really means table size */
};
typedef struct hash_tuning Hash_tuning;
struct hash_table struct hash_table
{ {
void **ht_vec; /* The array of buckets starts at BUCKET and extends to BUCKET_LIMIT-1,
unsigned long ht_size; /* total number of slots (power of 2) */ for a possibility of N_BUCKETS. Among those, N_BUCKETS_USED buckets
unsigned long ht_capacity; /* usable slots, limited by loading-factor */ are not empty, there are N_ENTRIES active entries in the table. */
unsigned long ht_fill; /* items in table */ struct hash_entry *bucket;
unsigned long ht_collisions; /* # of failed calls to comparison function */ struct hash_entry *bucket_limit;
unsigned long ht_lookups; /* # of queries */ unsigned n_buckets;
unsigned int ht_rehashes; /* # of times we've expanded table */ unsigned n_buckets_used;
hash_func_t ht_hash_1; /* primary hash function */ unsigned n_entries;
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 *)); /* Tuning arguments, kept in a physicaly separate structure. */
const Hash_tuning *tuning;
void hash_init PARAMS((struct hash_table *ht, unsigned long size, /* Three functions are given to `hash_initialize', see the documentation
hash_func_t hash_1, hash_func_t hash_2, hash_cmp_func_t hash_cmp)); block for this function. In a word, HASHER randomizes a user entry
void hash_load PARAMS((struct hash_table *ht, void *item_table, into a number up from 0 up to some maximum minus 1; COMPARATOR returns
unsigned long cardinality, unsigned long size)); true if two user entries compare equally; and DATA_FREER is the cleanup
void **hash_find_slot PARAMS((struct hash_table *ht, void const *key)); function for a user entry. */
void *hash_find_item PARAMS((struct hash_table *ht, void const *key)); Hash_hasher hasher;
const void *hash_insert PARAMS((struct hash_table *ht, void *item)); Hash_comparator comparator;
const void *hash_insert_at PARAMS((struct hash_table *ht, void *item, void const *slot)); Hash_data_freer data_freer;
const void *hash_delete PARAMS((struct hash_table *ht, void const *item));
const void *hash_delete_at PARAMS((struct hash_table *ht, void const *slot));
void hash_delete_items PARAMS((struct hash_table *ht));
void hash_free_items PARAMS((struct hash_table *ht));
void hash_free PARAMS((struct hash_table *ht, int free_items));
void hash_map PARAMS((struct hash_table *ht, hash_map_func_t map));
void hash_print_stats PARAMS((struct hash_table *ht, FILE *out_FILE));
void **hash_dump PARAMS((struct hash_table *ht, void **vector_0, qsort_cmp_t compare));
extern void *hash_deleted_item; /* A linked list of freed struct hash_entry structs. */
#define HASH_VACANT(item) \ struct hash_entry *free_entry_list;
((item) == 0 || (const void *) (item) == hash_deleted_item)
#if USE_OBSTACK
/* hash and comparison macros for string keys. */ /* Whenever obstacks are used, it is possible to allocate all overflowed
entries into a single stack, so they all can be freed in a single
operation. It is not clear if the speedup is worth the trouble. */
struct obstack entry_stack;
#endif
};
#define STRING_HASH_1(_key_, _result_) { \ typedef struct hash_table Hash_table;
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 { \ /* Information and lookup. */
unsigned char const *kk = (unsigned char const *) (_key_) - 1; \ unsigned hash_get_n_buckets PARAMS ((const Hash_table *));
while (*++kk) \ unsigned hash_get_n_buckets_used PARAMS ((const Hash_table *));
(_result_) += (*kk << (kk[1] & 0x7)); \ unsigned hash_get_n_entries PARAMS ((const Hash_table *));
} while (0) unsigned hash_get_max_bucket_length PARAMS ((const Hash_table *));
#define return_STRING_HASH_2(_key_) do { \ bool hash_table_ok PARAMS ((const Hash_table *));
unsigned long result = 0; \ void hash_print_statistics PARAMS ((const Hash_table *, FILE *));
STRING_HASH_2 ((_key_), result); \ void *hash_lookup PARAMS ((const Hash_table *, const void *));
return result; \
} while (0)
#define STRING_COMPARE(_x_, _y_, _result_) do { \ /* Walking. */
unsigned char const *xx = (unsigned char const *) (_x_) - 1; \ void *hash_get_first PARAMS ((const Hash_table *));
unsigned char const *yy = (unsigned char const *) (_y_) - 1; \ void *hash_get_next PARAMS ((const Hash_table *, const void *));
do { \ unsigned hash_get_entries PARAMS ((const Hash_table *, void **, unsigned));
if (*++xx == '\0') { \ unsigned hash_do_for_each PARAMS ((const Hash_table *, Hash_processor, void *));
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 integer keys. */ /* Allocation and clean-up. */
unsigned hash_string PARAMS ((const char *, unsigned));
void hash_reset_tuning PARAMS ((Hash_tuning *));
Hash_table *hash_initialize PARAMS ((unsigned, const Hash_tuning *,
Hash_hasher, Hash_comparator,
Hash_data_freer));
void hash_clear PARAMS ((Hash_table *));
void hash_free PARAMS ((Hash_table *));
#define INTEGER_HASH_1(_key_, _result_) do { \ /* Insertion and deletion. */
(_result_) += ((unsigned long)(_key_)); \ bool hash_rehash PARAMS ((Hash_table *, unsigned));
} while (0) void *hash_insert PARAMS ((Hash_table *, const void *));
#define return_INTEGER_HASH_1(_key_) do { \ void *hash_delete PARAMS ((Hash_table *, const void *));
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 _hash_h_ */

3
src/closure.c
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@@ -195,9 +195,6 @@ closure (short *core, int n)
/* Index over CORE. */ /* Index over CORE. */
int c; int c;
/* Index over RULESET. */
int r;
/* A bit index over RULESET. */ /* A bit index over RULESET. */
int ruleno; int ruleno;

53
src/muscle_tab.c
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@@ -1,5 +1,5 @@
/* Macro table manager for Bison, /* Macro table manager for Bison,
Copyright 2001 Free Software Foundation, Inc. Copyright (C) 2001, 2002 Free Software Foundation, Inc.
This file is part of Bison, the GNU Compiler Compiler. This file is part of Bison, the GNU Compiler Compiler.
@@ -24,31 +24,31 @@
#include "muscle_tab.h" #include "muscle_tab.h"
#include "getargs.h" #include "getargs.h"
struct hash_table muscle_table; /* Initial capacity of muscles hash table. */
#define HT_INITIAL_CAPACITY 257
static unsigned long struct hash_table *muscle_table = NULL;
mhash1 (const void *item)
static bool
hash_compare_muscles (void const *x, void const *y)
{ {
return_STRING_HASH_1 (((const muscle_entry_t *) item)->key); const muscle_entry_t *m1 = x;
const muscle_entry_t *m2 = y;
return strcmp (m1->key, m2->key) ? FALSE : TRUE;
} }
static unsigned long static unsigned int
mhash2 (const void *item) hash_muscle (const void *x, unsigned int tablesize)
{ {
return_STRING_HASH_2 (((const muscle_entry_t *) item)->key); const muscle_entry_t *m = x;
} return hash_string (m->key, tablesize);
static int
mcmp (const void *x, const void *y)
{
return strcmp (((const muscle_entry_t*) x)->key,
((const muscle_entry_t *) y)->key);
} }
void void
muscle_init (void) muscle_init (void)
{ {
hash_init (&muscle_table, MTABSIZE, &mhash1, &mhash2, &mcmp); muscle_table = hash_initialize (HT_INITIAL_CAPACITY, NULL, hash_muscle,
hash_compare_muscles, NULL);
/* Version and input file. */ /* Version and input file. */
muscle_insert ("version", VERSION); muscle_insert ("version", VERSION);
@@ -72,16 +72,23 @@ muscle_init (void)
void void
muscle_insert (const char *key, const char *value) muscle_insert (const char *key, const char *value)
{ {
muscle_entry_t *pair = XMALLOC (muscle_entry_t, 1); muscle_entry_t pair = { key, NULL };
pair->key = key; muscle_entry_t *entry = hash_lookup (muscle_table, &pair);
pair->value = value;
hash_insert (&muscle_table, pair); if (!entry)
{
/* First insertion in the hash. */
entry = XMALLOC (muscle_entry_t, 1);
entry->key = key;
hash_insert (muscle_table, entry);
}
entry->value = value;
} }
const char* const char*
muscle_find (const char *key) muscle_find (const char *key)
{ {
muscle_entry_t pair = { key, 0 }; muscle_entry_t pair = { key, NULL };
muscle_entry_t *result = hash_find_item (&muscle_table, &pair); muscle_entry_t *result = hash_lookup (muscle_table, &pair);
return result ? result->value : 0; return result ? result->value : NULL;
} }