X-Git-Url: http://erislabs.net/gitweb/?a=blobdiff_plain;ds=inline;f=lib%2Fhash.c;h=7d76d45f71250c5d6b92a816fc69b1e23c4ce5a3;hb=fa3486514bd8f15f8eb4c49821d0356b52e5a335;hp=26e7b6175e1156636511f3f8c5a384c838170db4;hpb=4a105521356c59c1a9af6d8ee5830402416ac2f9;p=gnulib.git
diff --git a/lib/hash.c b/lib/hash.c
index 26e7b6175..7d76d45f7 100644
--- a/lib/hash.c
+++ b/lib/hash.c
@@ -1,11 +1,14 @@
/* hash - hashing table processing.
- Copyright (C) 1998, 1999, 2000, 2001, 2002 Free Software Foundation, Inc.
+
+ Copyright (C) 1998, 1999, 2000, 2001, 2002, 2003, 2004, 2006, 2007 Free
+ Software Foundation, Inc.
+
Written by Jim Meyering, 1992.
- 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
- the Free Software Foundation; either version 2, or (at your option)
- any later version.
+ 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
@@ -13,40 +16,21 @@
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. */
+ along with this program. If not, see . */
/* A generic hash table package. */
/* Define USE_OBSTACK to 1 if you want the allocator to use obstacks instead
of malloc. If you change USE_OBSTACK, you have to recompile! */
-#if HAVE_CONFIG_H
-# include
-#endif
-#if HAVE_STDLIB_H
-# include
-#endif
-#if HAVE_STDBOOL_H
-# include
-#else
-typedef enum {false = 0, true = 1} bool;
-#endif
-#include
+#include
-#ifndef HAVE_DECL_FREE
-"this configure-time declaration test was not run"
-#endif
-#if !HAVE_DECL_FREE
-void free ();
-#endif
+#include "hash.h"
+#include "xalloc.h"
-#ifndef HAVE_DECL_MALLOC
-"this configure-time declaration test was not run"
-#endif
-#if !HAVE_DECL_MALLOC
-char *malloc ();
-#endif
+#include
+#include
+#include
#if USE_OBSTACK
# include "obstack.h"
@@ -58,7 +42,9 @@ char *malloc ();
# endif
#endif
-#include "hash.h"
+#ifndef SIZE_MAX
+# define SIZE_MAX ((size_t) -1)
+#endif
struct hash_table
{
@@ -66,10 +52,10 @@ struct hash_table
for a possibility of N_BUCKETS. Among those, N_BUCKETS_USED buckets
are not empty, there are N_ENTRIES active entries in the table. */
struct hash_entry *bucket;
- struct hash_entry *bucket_limit;
- unsigned n_buckets;
- unsigned n_buckets_used;
- unsigned n_entries;
+ struct hash_entry const *bucket_limit;
+ size_t n_buckets;
+ size_t n_buckets_used;
+ size_t n_entries;
/* Tuning arguments, kept in a physicaly separate structure. */
const Hash_tuning *tuning;
@@ -157,7 +143,7 @@ static const Hash_tuning default_tuning =
number of buckets (used plus unused), or the maximum number of slots, are
the same quantity. */
-unsigned
+size_t
hash_get_n_buckets (const Hash_table *table)
{
return table->n_buckets;
@@ -165,7 +151,7 @@ hash_get_n_buckets (const Hash_table *table)
/* Return the number of slots in use (non-empty buckets). */
-unsigned
+size_t
hash_get_n_buckets_used (const Hash_table *table)
{
return table->n_buckets_used;
@@ -173,7 +159,7 @@ hash_get_n_buckets_used (const Hash_table *table)
/* Return the number of active entries. */
-unsigned
+size_t
hash_get_n_entries (const Hash_table *table)
{
return table->n_entries;
@@ -181,18 +167,18 @@ hash_get_n_entries (const Hash_table *table)
/* Return the length of the longest chain (bucket). */
-unsigned
+size_t
hash_get_max_bucket_length (const Hash_table *table)
{
- struct hash_entry *bucket;
- unsigned max_bucket_length = 0;
+ struct hash_entry const *bucket;
+ size_t max_bucket_length = 0;
for (bucket = table->bucket; bucket < table->bucket_limit; bucket++)
{
if (bucket->data)
{
- struct hash_entry *cursor = bucket;
- unsigned bucket_length = 1;
+ struct hash_entry const *cursor = bucket;
+ size_t bucket_length = 1;
while (cursor = cursor->next, cursor)
bucket_length++;
@@ -211,15 +197,15 @@ hash_get_max_bucket_length (const Hash_table *table)
bool
hash_table_ok (const Hash_table *table)
{
- struct hash_entry *bucket;
- unsigned n_buckets_used = 0;
- unsigned n_entries = 0;
+ struct hash_entry const *bucket;
+ size_t n_buckets_used = 0;
+ size_t n_entries = 0;
for (bucket = table->bucket; bucket < table->bucket_limit; bucket++)
{
if (bucket->data)
{
- struct hash_entry *cursor = bucket;
+ struct hash_entry const *cursor = bucket;
/* Count bucket head. */
n_buckets_used++;
@@ -240,16 +226,18 @@ hash_table_ok (const Hash_table *table)
void
hash_print_statistics (const Hash_table *table, FILE *stream)
{
- unsigned n_entries = hash_get_n_entries (table);
- unsigned n_buckets = hash_get_n_buckets (table);
- unsigned n_buckets_used = hash_get_n_buckets_used (table);
- unsigned max_bucket_length = hash_get_max_bucket_length (table);
-
- fprintf (stream, "# entries: %u\n", n_entries);
- fprintf (stream, "# buckets: %u\n", n_buckets);
- fprintf (stream, "# buckets used: %u (%.2f%%)\n", n_buckets_used,
+ size_t n_entries = hash_get_n_entries (table);
+ size_t n_buckets = hash_get_n_buckets (table);
+ size_t n_buckets_used = hash_get_n_buckets_used (table);
+ size_t max_bucket_length = hash_get_max_bucket_length (table);
+
+ fprintf (stream, "# entries: %lu\n", (unsigned long int) n_entries);
+ fprintf (stream, "# buckets: %lu\n", (unsigned long int) n_buckets);
+ fprintf (stream, "# buckets used: %lu (%.2f%%)\n",
+ (unsigned long int) n_buckets_used,
(100.0 * n_buckets_used) / n_buckets);
- fprintf (stream, "max bucket length: %u\n", max_bucket_length);
+ fprintf (stream, "max bucket length: %lu\n",
+ (unsigned long int) max_bucket_length);
}
/* If ENTRY matches an entry already in the hash table, return the
@@ -258,9 +246,9 @@ hash_print_statistics (const Hash_table *table, FILE *stream)
void *
hash_lookup (const Hash_table *table, const void *entry)
{
- struct hash_entry *bucket
+ struct hash_entry const *bucket
= table->bucket + table->hasher (entry, table->n_buckets);
- struct hash_entry *cursor;
+ struct hash_entry const *cursor;
if (! (bucket < table->bucket_limit))
abort ();
@@ -287,7 +275,7 @@ hash_lookup (const Hash_table *table, const void *entry)
void *
hash_get_first (const Hash_table *table)
{
- struct hash_entry *bucket;
+ struct hash_entry const *bucket;
if (table->n_entries == 0)
return NULL;
@@ -306,9 +294,9 @@ hash_get_first (const Hash_table *table)
void *
hash_get_next (const Hash_table *table, const void *entry)
{
- struct hash_entry *bucket
+ struct hash_entry const *bucket
= table->bucket + table->hasher (entry, table->n_buckets);
- struct hash_entry *cursor;
+ struct hash_entry const *cursor;
if (! (bucket < table->bucket_limit))
abort ();
@@ -331,13 +319,13 @@ hash_get_next (const Hash_table *table, const void *entry)
return the number of pointers copied. Do not copy more than BUFFER_SIZE
pointers. */
-unsigned
+size_t
hash_get_entries (const Hash_table *table, void **buffer,
- unsigned buffer_size)
+ size_t buffer_size)
{
- unsigned counter = 0;
- struct hash_entry *bucket;
- struct hash_entry *cursor;
+ size_t counter = 0;
+ struct hash_entry const *bucket;
+ struct hash_entry const *cursor;
for (bucket = table->bucket; bucket < table->bucket_limit; bucket++)
{
@@ -363,13 +351,13 @@ hash_get_entries (const Hash_table *table, void **buffer,
as received. The walking continue for as long as the PROCESSOR function
returns nonzero. When it returns zero, the walking is interrupted. */
-unsigned
+size_t
hash_do_for_each (const Hash_table *table, Hash_processor processor,
void *processor_data)
{
- unsigned counter = 0;
- struct hash_entry *bucket;
- struct hash_entry *cursor;
+ size_t counter = 0;
+ struct hash_entry const *bucket;
+ struct hash_entry const *cursor;
for (bucket = table->bucket; bucket < table->bucket_limit; bucket++)
{
@@ -400,21 +388,19 @@ hash_do_for_each (const Hash_table *table, Hash_processor processor,
algorithms tend to be domain-specific, so what's good for [diffutils'] io.c
may not be good for your application." */
-unsigned
-hash_string (const char *string, unsigned n_buckets)
+size_t
+hash_string (const char *string, size_t n_buckets)
{
-# ifndef CHAR_BIT
-# define CHAR_BIT 8
-# endif
# define ROTATE_LEFT(Value, Shift) \
- ((Value) << (Shift) | (Value) >> ((sizeof (unsigned) * CHAR_BIT) - (Shift)))
+ ((Value) << (Shift) | (Value) >> ((sizeof (size_t) * CHAR_BIT) - (Shift)))
# define HASH_ONE_CHAR(Value, Byte) \
((Byte) + ROTATE_LEFT (Value, 7))
- unsigned value = 0;
+ size_t value = 0;
+ unsigned char ch;
- for (; *string; string++)
- value = HASH_ONE_CHAR (value, *(const unsigned char *) string);
+ for (; (ch = *string); string++)
+ value = HASH_ONE_CHAR (value, ch);
return value % n_buckets;
# undef ROTATE_LEFT
@@ -428,14 +414,14 @@ hash_string (const char *string, unsigned n_buckets)
very old Cyber `snoop', itself written in typical Greg Mansfield style.
(By the way, what happened to this excellent man? Is he still alive?) */
-unsigned
-hash_string (const char *string, unsigned n_buckets)
+size_t
+hash_string (const char *string, size_t n_buckets)
{
- unsigned value = 0;
+ size_t value = 0;
+ unsigned char ch;
- while (*string)
- value = ((value * 31 + (int) *(const unsigned char *) string++)
- % n_buckets);
+ for (; (ch = *string); string++)
+ value = (value * 31 + ch) % n_buckets;
return value;
}
@@ -445,10 +431,10 @@ hash_string (const char *string, unsigned n_buckets)
number at least equal to 11. */
static bool
-is_prime (unsigned long candidate)
+is_prime (size_t candidate)
{
- unsigned long divisor = 3;
- unsigned long square = divisor * divisor;
+ size_t divisor = 3;
+ size_t square = divisor * divisor;
while (square < candidate && (candidate % divisor))
{
@@ -463,8 +449,8 @@ is_prime (unsigned long candidate)
/* Round a given CANDIDATE number up to the nearest prime, and return that
prime. Primes lower than 10 are merely skipped. */
-static unsigned long
-next_prime (unsigned long candidate)
+static size_t
+next_prime (size_t candidate)
{
/* Skip small primes. */
if (candidate < 10)
@@ -496,14 +482,20 @@ check_tuning (Hash_table *table)
{
const Hash_tuning *tuning = table->tuning;
- if (tuning->growth_threshold > 0.0
- && tuning->growth_threshold < 1.0
- && tuning->growth_factor > 1.0
- && tuning->shrink_threshold >= 0.0
- && tuning->shrink_threshold < 1.0
- && tuning->shrink_factor > tuning->shrink_threshold
- && tuning->shrink_factor <= 1.0
- && tuning->shrink_threshold < tuning->growth_threshold)
+ /* Be a bit stricter than mathematics would require, so that
+ rounding errors in size calculations do not cause allocations to
+ fail to grow or shrink as they should. The smallest allocation
+ is 11 (due to next_prime's algorithm), so an epsilon of 0.1
+ should be good enough. */
+ float epsilon = 0.1f;
+
+ if (epsilon < tuning->growth_threshold
+ && tuning->growth_threshold < 1 - epsilon
+ && 1 + epsilon < tuning->growth_factor
+ && 0 <= tuning->shrink_threshold
+ && tuning->shrink_threshold + epsilon < tuning->shrink_factor
+ && tuning->shrink_factor <= 1
+ && tuning->shrink_threshold + epsilon < tuning->growth_threshold)
return true;
table->tuning = &default_tuning;
@@ -542,17 +534,16 @@ check_tuning (Hash_table *table)
values. */
Hash_table *
-hash_initialize (unsigned candidate, const Hash_tuning *tuning,
+hash_initialize (size_t candidate, const Hash_tuning *tuning,
Hash_hasher hasher, Hash_comparator comparator,
Hash_data_freer data_freer)
{
Hash_table *table;
- struct hash_entry *bucket;
if (hasher == NULL || comparator == NULL)
return NULL;
- table = (Hash_table *) malloc (sizeof (Hash_table));
+ table = malloc (sizeof *table);
if (table == NULL)
return NULL;
@@ -566,28 +557,27 @@ hash_initialize (unsigned candidate, const Hash_tuning *tuning,
if the user provides invalid tuning options, we silently revert to
using the defaults, and ignore further request to change the tuning
options. */
- free (table);
- return NULL;
+ goto fail;
}
- table->n_buckets
- = next_prime (tuning->is_n_buckets ? candidate
- : (unsigned) (candidate / tuning->growth_threshold));
-
- table->bucket = (struct hash_entry *)
- malloc (table->n_buckets * sizeof (struct hash_entry));
- if (table->bucket == NULL)
+ if (!tuning->is_n_buckets)
{
- free (table);
- return NULL;
+ float new_candidate = candidate / tuning->growth_threshold;
+ if (SIZE_MAX <= new_candidate)
+ goto fail;
+ candidate = new_candidate;
}
- table->bucket_limit = table->bucket + table->n_buckets;
- for (bucket = table->bucket; bucket < table->bucket_limit; bucket++)
- {
- bucket->data = NULL;
- bucket->next = NULL;
- }
+ if (xalloc_oversized (candidate, sizeof *table->bucket))
+ goto fail;
+ table->n_buckets = next_prime (candidate);
+ if (xalloc_oversized (table->n_buckets, sizeof *table->bucket))
+ goto fail;
+
+ table->bucket = calloc (table->n_buckets, sizeof *table->bucket);
+ if (table->bucket == NULL)
+ goto fail;
+ table->bucket_limit = table->bucket + table->n_buckets;
table->n_buckets_used = 0;
table->n_entries = 0;
@@ -600,6 +590,10 @@ hash_initialize (unsigned candidate, const Hash_tuning *tuning,
obstack_init (&table->entry_stack);
#endif
return table;
+
+ fail:
+ free (table);
+ return NULL;
}
/* Make all buckets empty, placing any chained entries on the free list.
@@ -719,10 +713,9 @@ allocate_entry (Hash_table *table)
else
{
#if USE_OBSTACK
- new = (struct hash_entry *)
- obstack_alloc (&table->entry_stack, sizeof (struct hash_entry));
+ new = obstack_alloc (&table->entry_stack, sizeof *new);
#else
- new = (struct hash_entry *) malloc (sizeof (struct hash_entry));
+ new = malloc (sizeof *new);
#endif
}
@@ -822,7 +815,7 @@ hash_find_entry (Hash_table *table, const void *entry,
exact number of buckets desired. */
bool
-hash_rehash (Hash_table *table, unsigned candidate)
+hash_rehash (Hash_table *table, size_t candidate)
{
Hash_table *new_table;
struct hash_entry *bucket;
@@ -963,11 +956,14 @@ hash_insert (Hash_table *table, const void *entry)
> table->tuning->growth_threshold * table->n_buckets)
{
const Hash_tuning *tuning = table->tuning;
- unsigned candidate
- = (unsigned) (tuning->is_n_buckets
- ? (table->n_buckets * tuning->growth_factor)
- : (table->n_buckets * tuning->growth_factor
- * tuning->growth_threshold));
+ float candidate =
+ (tuning->is_n_buckets
+ ? (table->n_buckets * tuning->growth_factor)
+ : (table->n_buckets * tuning->growth_factor
+ * tuning->growth_threshold));
+
+ if (SIZE_MAX <= candidate)
+ return NULL;
/* If the rehash fails, arrange to return NULL. */
if (!hash_rehash (table, candidate))
@@ -1010,11 +1006,11 @@ hash_delete (Hash_table *table, const void *entry)
< table->tuning->shrink_threshold * table->n_buckets)
{
const Hash_tuning *tuning = table->tuning;
- unsigned candidate
- = (unsigned) (tuning->is_n_buckets
- ? table->n_buckets * tuning->shrink_factor
- : (table->n_buckets * tuning->shrink_factor
- * tuning->growth_threshold));
+ size_t candidate =
+ (tuning->is_n_buckets
+ ? table->n_buckets * tuning->shrink_factor
+ : (table->n_buckets * tuning->shrink_factor
+ * tuning->growth_threshold));
hash_rehash (table, candidate);
}
@@ -1031,18 +1027,18 @@ hash_delete (Hash_table *table, const void *entry)
void
hash_print (const Hash_table *table)
{
- struct hash_entry *bucket;
+ struct hash_entry const *bucket;
for (bucket = table->bucket; bucket < table->bucket_limit; bucket++)
{
struct hash_entry *cursor;
if (bucket)
- printf ("%d:\n", bucket - table->bucket);
+ printf ("%lu:\n", (unsigned long int) (bucket - table->bucket));
for (cursor = bucket; cursor; cursor = cursor->next)
{
- char *s = (char *) cursor->data;
+ char const *s = cursor->data;
/* FIXME */
if (s)
printf (" %s\n", s);