1*045e0ed3SDavid van Moolenbroek /* $NetBSD: hash.c,v 1.5 2007/03/03 00:09:30 simonb Exp $ */
2*045e0ed3SDavid van Moolenbroek
3*045e0ed3SDavid van Moolenbroek /*
4*045e0ed3SDavid van Moolenbroek * Copyright (c) 1988, 1989, 1990 The Regents of the University of California.
5*045e0ed3SDavid van Moolenbroek * All rights reserved.
6*045e0ed3SDavid van Moolenbroek *
7*045e0ed3SDavid van Moolenbroek * This code is derived from software contributed to Berkeley by
8*045e0ed3SDavid van Moolenbroek * Adam de Boor.
9*045e0ed3SDavid van Moolenbroek *
10*045e0ed3SDavid van Moolenbroek * Redistribution and use in source and binary forms, with or without
11*045e0ed3SDavid van Moolenbroek * modification, are permitted provided that the following conditions
12*045e0ed3SDavid van Moolenbroek * are met:
13*045e0ed3SDavid van Moolenbroek * 1. Redistributions of source code must retain the above copyright
14*045e0ed3SDavid van Moolenbroek * notice, this list of conditions and the following disclaimer.
15*045e0ed3SDavid van Moolenbroek * 2. Redistributions in binary form must reproduce the above copyright
16*045e0ed3SDavid van Moolenbroek * notice, this list of conditions and the following disclaimer in the
17*045e0ed3SDavid van Moolenbroek * documentation and/or other materials provided with the distribution.
18*045e0ed3SDavid van Moolenbroek * 3. Neither the name of the University nor the names of its contributors
19*045e0ed3SDavid van Moolenbroek * may be used to endorse or promote products derived from this software
20*045e0ed3SDavid van Moolenbroek * without specific prior written permission.
21*045e0ed3SDavid van Moolenbroek *
22*045e0ed3SDavid van Moolenbroek * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
23*045e0ed3SDavid van Moolenbroek * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
24*045e0ed3SDavid van Moolenbroek * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
25*045e0ed3SDavid van Moolenbroek * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
26*045e0ed3SDavid van Moolenbroek * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
27*045e0ed3SDavid van Moolenbroek * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
28*045e0ed3SDavid van Moolenbroek * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
29*045e0ed3SDavid van Moolenbroek * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
30*045e0ed3SDavid van Moolenbroek * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
31*045e0ed3SDavid van Moolenbroek * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
32*045e0ed3SDavid van Moolenbroek * SUCH DAMAGE.
33*045e0ed3SDavid van Moolenbroek */
34*045e0ed3SDavid van Moolenbroek
35*045e0ed3SDavid van Moolenbroek /*
36*045e0ed3SDavid van Moolenbroek * Copyright (c) 1988, 1989 by Adam de Boor
37*045e0ed3SDavid van Moolenbroek * Copyright (c) 1989 by Berkeley Softworks
38*045e0ed3SDavid van Moolenbroek * All rights reserved.
39*045e0ed3SDavid van Moolenbroek *
40*045e0ed3SDavid van Moolenbroek * This code is derived from software contributed to Berkeley by
41*045e0ed3SDavid van Moolenbroek * Adam de Boor.
42*045e0ed3SDavid van Moolenbroek *
43*045e0ed3SDavid van Moolenbroek * Redistribution and use in source and binary forms, with or without
44*045e0ed3SDavid van Moolenbroek * modification, are permitted provided that the following conditions
45*045e0ed3SDavid van Moolenbroek * are met:
46*045e0ed3SDavid van Moolenbroek * 1. Redistributions of source code must retain the above copyright
47*045e0ed3SDavid van Moolenbroek * notice, this list of conditions and the following disclaimer.
48*045e0ed3SDavid van Moolenbroek * 2. Redistributions in binary form must reproduce the above copyright
49*045e0ed3SDavid van Moolenbroek * notice, this list of conditions and the following disclaimer in the
50*045e0ed3SDavid van Moolenbroek * documentation and/or other materials provided with the distribution.
51*045e0ed3SDavid van Moolenbroek * 3. All advertising materials mentioning features or use of this software
52*045e0ed3SDavid van Moolenbroek * must display the following acknowledgement:
53*045e0ed3SDavid van Moolenbroek * This product includes software developed by the University of
54*045e0ed3SDavid van Moolenbroek * California, Berkeley and its contributors.
55*045e0ed3SDavid van Moolenbroek * 4. Neither the name of the University nor the names of its contributors
56*045e0ed3SDavid van Moolenbroek * may be used to endorse or promote products derived from this software
57*045e0ed3SDavid van Moolenbroek * without specific prior written permission.
58*045e0ed3SDavid van Moolenbroek *
59*045e0ed3SDavid van Moolenbroek * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
60*045e0ed3SDavid van Moolenbroek * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
61*045e0ed3SDavid van Moolenbroek * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
62*045e0ed3SDavid van Moolenbroek * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
63*045e0ed3SDavid van Moolenbroek * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
64*045e0ed3SDavid van Moolenbroek * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
65*045e0ed3SDavid van Moolenbroek * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
66*045e0ed3SDavid van Moolenbroek * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
67*045e0ed3SDavid van Moolenbroek * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
68*045e0ed3SDavid van Moolenbroek * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
69*045e0ed3SDavid van Moolenbroek * SUCH DAMAGE.
70*045e0ed3SDavid van Moolenbroek */
71*045e0ed3SDavid van Moolenbroek
72*045e0ed3SDavid van Moolenbroek #ifdef MAKE_BOOTSTRAP
73*045e0ed3SDavid van Moolenbroek static char rcsid[] = "$NetBSD: hash.c,v 1.5 2007/03/03 00:09:30 simonb Exp $";
74*045e0ed3SDavid van Moolenbroek #else
75*045e0ed3SDavid van Moolenbroek #include <sys/cdefs.h>
76*045e0ed3SDavid van Moolenbroek #ifndef lint
77*045e0ed3SDavid van Moolenbroek #if 0
78*045e0ed3SDavid van Moolenbroek static char sccsid[] = "@(#)hash.c 8.1 (Berkeley) 6/6/93";
79*045e0ed3SDavid van Moolenbroek #else
80*045e0ed3SDavid van Moolenbroek __RCSID("$NetBSD: hash.c,v 1.5 2007/03/03 00:09:30 simonb Exp $");
81*045e0ed3SDavid van Moolenbroek #endif
82*045e0ed3SDavid van Moolenbroek #endif /* not lint */
83*045e0ed3SDavid van Moolenbroek #endif
84*045e0ed3SDavid van Moolenbroek
85*045e0ed3SDavid van Moolenbroek #include <sys/types.h>
86*045e0ed3SDavid van Moolenbroek
87*045e0ed3SDavid van Moolenbroek #include <stdlib.h>
88*045e0ed3SDavid van Moolenbroek #include <string.h>
89*045e0ed3SDavid van Moolenbroek #include <unistd.h>
90*045e0ed3SDavid van Moolenbroek #include <err.h>
91*045e0ed3SDavid van Moolenbroek #include <util.h>
92*045e0ed3SDavid van Moolenbroek
93*045e0ed3SDavid van Moolenbroek /* hash.c --
94*045e0ed3SDavid van Moolenbroek *
95*045e0ed3SDavid van Moolenbroek * This module contains routines to manipulate a hash table.
96*045e0ed3SDavid van Moolenbroek * See hash.h for a definition of the structure of the hash
97*045e0ed3SDavid van Moolenbroek * table. Hash tables grow automatically as the amount of
98*045e0ed3SDavid van Moolenbroek * information increases.
99*045e0ed3SDavid van Moolenbroek */
100*045e0ed3SDavid van Moolenbroek #include "hash.h"
101*045e0ed3SDavid van Moolenbroek
102*045e0ed3SDavid van Moolenbroek /*
103*045e0ed3SDavid van Moolenbroek * Forward references to local procedures that are used before they're
104*045e0ed3SDavid van Moolenbroek * defined:
105*045e0ed3SDavid van Moolenbroek */
106*045e0ed3SDavid van Moolenbroek
107*045e0ed3SDavid van Moolenbroek static void RebuildTable(Hash_Table *);
108*045e0ed3SDavid van Moolenbroek
109*045e0ed3SDavid van Moolenbroek /*
110*045e0ed3SDavid van Moolenbroek * The following defines the ratio of # entries to # buckets
111*045e0ed3SDavid van Moolenbroek * at which we rebuild the table to make it larger.
112*045e0ed3SDavid van Moolenbroek */
113*045e0ed3SDavid van Moolenbroek
114*045e0ed3SDavid van Moolenbroek #define rebuildLimit 8
115*045e0ed3SDavid van Moolenbroek
116*045e0ed3SDavid van Moolenbroek /*
117*045e0ed3SDavid van Moolenbroek *---------------------------------------------------------
118*045e0ed3SDavid van Moolenbroek *
119*045e0ed3SDavid van Moolenbroek * Hash_InitTable --
120*045e0ed3SDavid van Moolenbroek *
121*045e0ed3SDavid van Moolenbroek * This routine just sets up the hash table.
122*045e0ed3SDavid van Moolenbroek *
123*045e0ed3SDavid van Moolenbroek * Input:
124*045e0ed3SDavid van Moolenbroek * t Structure to use to hold table.
125*045e0ed3SDavid van Moolenbroek * numBuckets How many buckets to create for starters. This number
126*045e0ed3SDavid van Moolenbroek * is rounded up to a power of two. If <= 0, a reasonable
127*045e0ed3SDavid van Moolenbroek * default is chosen. The table will grow in size later
128*045e0ed3SDavid van Moolenbroek * as needed.
129*045e0ed3SDavid van Moolenbroek *
130*045e0ed3SDavid van Moolenbroek * Results:
131*045e0ed3SDavid van Moolenbroek * None.
132*045e0ed3SDavid van Moolenbroek *
133*045e0ed3SDavid van Moolenbroek * Side Effects:
134*045e0ed3SDavid van Moolenbroek * Memory is allocated for the initial bucket area.
135*045e0ed3SDavid van Moolenbroek *
136*045e0ed3SDavid van Moolenbroek *---------------------------------------------------------
137*045e0ed3SDavid van Moolenbroek */
138*045e0ed3SDavid van Moolenbroek
139*045e0ed3SDavid van Moolenbroek void
Hash_InitTable(Hash_Table * t,int numBuckets)140*045e0ed3SDavid van Moolenbroek Hash_InitTable(Hash_Table *t, int numBuckets)
141*045e0ed3SDavid van Moolenbroek {
142*045e0ed3SDavid van Moolenbroek int i;
143*045e0ed3SDavid van Moolenbroek struct Hash_Entry **hp;
144*045e0ed3SDavid van Moolenbroek
145*045e0ed3SDavid van Moolenbroek /*
146*045e0ed3SDavid van Moolenbroek * Round up the size to a power of two.
147*045e0ed3SDavid van Moolenbroek */
148*045e0ed3SDavid van Moolenbroek if (numBuckets <= 0)
149*045e0ed3SDavid van Moolenbroek i = 16;
150*045e0ed3SDavid van Moolenbroek else {
151*045e0ed3SDavid van Moolenbroek for (i = 2; i < numBuckets; i <<= 1)
152*045e0ed3SDavid van Moolenbroek continue;
153*045e0ed3SDavid van Moolenbroek }
154*045e0ed3SDavid van Moolenbroek t->numEntries = 0;
155*045e0ed3SDavid van Moolenbroek t->size = i;
156*045e0ed3SDavid van Moolenbroek t->mask = i - 1;
157*045e0ed3SDavid van Moolenbroek t->bucketPtr = hp = (struct Hash_Entry **)emalloc(sizeof(*hp) * i);
158*045e0ed3SDavid van Moolenbroek while (--i >= 0)
159*045e0ed3SDavid van Moolenbroek *hp++ = NULL;
160*045e0ed3SDavid van Moolenbroek }
161*045e0ed3SDavid van Moolenbroek
162*045e0ed3SDavid van Moolenbroek /*
163*045e0ed3SDavid van Moolenbroek *---------------------------------------------------------
164*045e0ed3SDavid van Moolenbroek *
165*045e0ed3SDavid van Moolenbroek * Hash_DeleteTable --
166*045e0ed3SDavid van Moolenbroek *
167*045e0ed3SDavid van Moolenbroek * This routine removes everything from a hash table
168*045e0ed3SDavid van Moolenbroek * and frees up the memory space it occupied (except for
169*045e0ed3SDavid van Moolenbroek * the space in the Hash_Table structure).
170*045e0ed3SDavid van Moolenbroek *
171*045e0ed3SDavid van Moolenbroek * Results:
172*045e0ed3SDavid van Moolenbroek * None.
173*045e0ed3SDavid van Moolenbroek *
174*045e0ed3SDavid van Moolenbroek * Side Effects:
175*045e0ed3SDavid van Moolenbroek * Lots of memory is freed up.
176*045e0ed3SDavid van Moolenbroek *
177*045e0ed3SDavid van Moolenbroek *---------------------------------------------------------
178*045e0ed3SDavid van Moolenbroek */
179*045e0ed3SDavid van Moolenbroek
180*045e0ed3SDavid van Moolenbroek void
Hash_DeleteTable(Hash_Table * t)181*045e0ed3SDavid van Moolenbroek Hash_DeleteTable(Hash_Table *t)
182*045e0ed3SDavid van Moolenbroek {
183*045e0ed3SDavid van Moolenbroek struct Hash_Entry **hp, *h, *nexth;
184*045e0ed3SDavid van Moolenbroek int i;
185*045e0ed3SDavid van Moolenbroek
186*045e0ed3SDavid van Moolenbroek nexth = NULL;
187*045e0ed3SDavid van Moolenbroek for (hp = t->bucketPtr, i = t->size; --i >= 0;) {
188*045e0ed3SDavid van Moolenbroek for (h = *hp++; h != NULL; h = nexth) {
189*045e0ed3SDavid van Moolenbroek nexth = h->next;
190*045e0ed3SDavid van Moolenbroek free(h);
191*045e0ed3SDavid van Moolenbroek }
192*045e0ed3SDavid van Moolenbroek }
193*045e0ed3SDavid van Moolenbroek free(t->bucketPtr);
194*045e0ed3SDavid van Moolenbroek
195*045e0ed3SDavid van Moolenbroek /*
196*045e0ed3SDavid van Moolenbroek * Set up the hash table to cause memory faults on any future access
197*045e0ed3SDavid van Moolenbroek * attempts until re-initialization.
198*045e0ed3SDavid van Moolenbroek */
199*045e0ed3SDavid van Moolenbroek t->bucketPtr = NULL;
200*045e0ed3SDavid van Moolenbroek }
201*045e0ed3SDavid van Moolenbroek
202*045e0ed3SDavid van Moolenbroek /*
203*045e0ed3SDavid van Moolenbroek *---------------------------------------------------------
204*045e0ed3SDavid van Moolenbroek *
205*045e0ed3SDavid van Moolenbroek * Hash_FindEntry --
206*045e0ed3SDavid van Moolenbroek *
207*045e0ed3SDavid van Moolenbroek * Searches a hash table for an entry corresponding to key.
208*045e0ed3SDavid van Moolenbroek *
209*045e0ed3SDavid van Moolenbroek * Input:
210*045e0ed3SDavid van Moolenbroek * t Hash table to search.
211*045e0ed3SDavid van Moolenbroek * key A hash key.
212*045e0ed3SDavid van Moolenbroek *
213*045e0ed3SDavid van Moolenbroek * Results:
214*045e0ed3SDavid van Moolenbroek * The return value is a pointer to the entry for key,
215*045e0ed3SDavid van Moolenbroek * if key was present in the table. If key was not
216*045e0ed3SDavid van Moolenbroek * present, NULL is returned.
217*045e0ed3SDavid van Moolenbroek *
218*045e0ed3SDavid van Moolenbroek * Side Effects:
219*045e0ed3SDavid van Moolenbroek * None.
220*045e0ed3SDavid van Moolenbroek *
221*045e0ed3SDavid van Moolenbroek *---------------------------------------------------------
222*045e0ed3SDavid van Moolenbroek */
223*045e0ed3SDavid van Moolenbroek
224*045e0ed3SDavid van Moolenbroek Hash_Entry *
Hash_FindEntry(Hash_Table * t,char * key)225*045e0ed3SDavid van Moolenbroek Hash_FindEntry(Hash_Table *t, char *key)
226*045e0ed3SDavid van Moolenbroek {
227*045e0ed3SDavid van Moolenbroek Hash_Entry *e;
228*045e0ed3SDavid van Moolenbroek unsigned h;
229*045e0ed3SDavid van Moolenbroek char *p;
230*045e0ed3SDavid van Moolenbroek
231*045e0ed3SDavid van Moolenbroek for (h = 0, p = key; *p;)
232*045e0ed3SDavid van Moolenbroek h = (h << 5) - h + *p++;
233*045e0ed3SDavid van Moolenbroek p = key;
234*045e0ed3SDavid van Moolenbroek for (e = t->bucketPtr[h & t->mask]; e != NULL; e = e->next)
235*045e0ed3SDavid van Moolenbroek if (e->namehash == h && strcmp(e->name, p) == 0)
236*045e0ed3SDavid van Moolenbroek return (e);
237*045e0ed3SDavid van Moolenbroek return (NULL);
238*045e0ed3SDavid van Moolenbroek }
239*045e0ed3SDavid van Moolenbroek
240*045e0ed3SDavid van Moolenbroek /*
241*045e0ed3SDavid van Moolenbroek *---------------------------------------------------------
242*045e0ed3SDavid van Moolenbroek *
243*045e0ed3SDavid van Moolenbroek * Hash_CreateEntry --
244*045e0ed3SDavid van Moolenbroek *
245*045e0ed3SDavid van Moolenbroek * Searches a hash table for an entry corresponding to
246*045e0ed3SDavid van Moolenbroek * key. If no entry is found, then one is created.
247*045e0ed3SDavid van Moolenbroek *
248*045e0ed3SDavid van Moolenbroek * Input:
249*045e0ed3SDavid van Moolenbroek * t Hash table to search.
250*045e0ed3SDavid van Moolenbroek * key A hash key.
251*045e0ed3SDavid van Moolenbroek * newPtr Filled in with 1 if new entry created, 0 otherwise.
252*045e0ed3SDavid van Moolenbroek *
253*045e0ed3SDavid van Moolenbroek * Results:
254*045e0ed3SDavid van Moolenbroek * The return value is a pointer to the entry. If *newPtr
255*045e0ed3SDavid van Moolenbroek * isn't NULL, then *newPtr is filled in with TRUE if a
256*045e0ed3SDavid van Moolenbroek * new entry was created, and FALSE if an entry already existed
257*045e0ed3SDavid van Moolenbroek * with the given key.
258*045e0ed3SDavid van Moolenbroek *
259*045e0ed3SDavid van Moolenbroek * Side Effects:
260*045e0ed3SDavid van Moolenbroek * Memory may be allocated, and the hash buckets may be modified.
261*045e0ed3SDavid van Moolenbroek *---------------------------------------------------------
262*045e0ed3SDavid van Moolenbroek */
263*045e0ed3SDavid van Moolenbroek
264*045e0ed3SDavid van Moolenbroek Hash_Entry *
Hash_CreateEntry(Hash_Table * t,char * key,int * newPtr)265*045e0ed3SDavid van Moolenbroek Hash_CreateEntry(Hash_Table *t, char *key, int *newPtr)
266*045e0ed3SDavid van Moolenbroek {
267*045e0ed3SDavid van Moolenbroek Hash_Entry *e;
268*045e0ed3SDavid van Moolenbroek unsigned h;
269*045e0ed3SDavid van Moolenbroek char *p;
270*045e0ed3SDavid van Moolenbroek int keylen;
271*045e0ed3SDavid van Moolenbroek struct Hash_Entry **hp;
272*045e0ed3SDavid van Moolenbroek
273*045e0ed3SDavid van Moolenbroek /*
274*045e0ed3SDavid van Moolenbroek * Hash the key. As a side effect, save the length (strlen) of the
275*045e0ed3SDavid van Moolenbroek * key in case we need to create the entry.
276*045e0ed3SDavid van Moolenbroek */
277*045e0ed3SDavid van Moolenbroek for (h = 0, p = key; *p;)
278*045e0ed3SDavid van Moolenbroek h = (h << 5) - h + *p++;
279*045e0ed3SDavid van Moolenbroek keylen = p - key;
280*045e0ed3SDavid van Moolenbroek p = key;
281*045e0ed3SDavid van Moolenbroek for (e = t->bucketPtr[h & t->mask]; e != NULL; e = e->next) {
282*045e0ed3SDavid van Moolenbroek if (e->namehash == h && strcmp(e->name, p) == 0) {
283*045e0ed3SDavid van Moolenbroek if (newPtr != NULL)
284*045e0ed3SDavid van Moolenbroek *newPtr = 0;
285*045e0ed3SDavid van Moolenbroek return (e);
286*045e0ed3SDavid van Moolenbroek }
287*045e0ed3SDavid van Moolenbroek }
288*045e0ed3SDavid van Moolenbroek
289*045e0ed3SDavid van Moolenbroek /*
290*045e0ed3SDavid van Moolenbroek * The desired entry isn't there. Before allocating a new entry,
291*045e0ed3SDavid van Moolenbroek * expand the table if necessary (and this changes the resulting
292*045e0ed3SDavid van Moolenbroek * bucket chain).
293*045e0ed3SDavid van Moolenbroek */
294*045e0ed3SDavid van Moolenbroek if (t->numEntries >= rebuildLimit * t->size)
295*045e0ed3SDavid van Moolenbroek RebuildTable(t);
296*045e0ed3SDavid van Moolenbroek e = (Hash_Entry *) emalloc(sizeof(*e) + keylen);
297*045e0ed3SDavid van Moolenbroek hp = &t->bucketPtr[h & t->mask];
298*045e0ed3SDavid van Moolenbroek e->next = *hp;
299*045e0ed3SDavid van Moolenbroek *hp = e;
300*045e0ed3SDavid van Moolenbroek e->clientData = NULL;
301*045e0ed3SDavid van Moolenbroek e->namehash = h;
302*045e0ed3SDavid van Moolenbroek (void) strcpy(e->name, p);
303*045e0ed3SDavid van Moolenbroek t->numEntries++;
304*045e0ed3SDavid van Moolenbroek
305*045e0ed3SDavid van Moolenbroek if (newPtr != NULL)
306*045e0ed3SDavid van Moolenbroek *newPtr = 1;
307*045e0ed3SDavid van Moolenbroek return (e);
308*045e0ed3SDavid van Moolenbroek }
309*045e0ed3SDavid van Moolenbroek
310*045e0ed3SDavid van Moolenbroek /*
311*045e0ed3SDavid van Moolenbroek *---------------------------------------------------------
312*045e0ed3SDavid van Moolenbroek *
313*045e0ed3SDavid van Moolenbroek * Hash_DeleteEntry --
314*045e0ed3SDavid van Moolenbroek *
315*045e0ed3SDavid van Moolenbroek * Delete the given hash table entry and free memory associated with
316*045e0ed3SDavid van Moolenbroek * it.
317*045e0ed3SDavid van Moolenbroek *
318*045e0ed3SDavid van Moolenbroek * Results:
319*045e0ed3SDavid van Moolenbroek * None.
320*045e0ed3SDavid van Moolenbroek *
321*045e0ed3SDavid van Moolenbroek * Side Effects:
322*045e0ed3SDavid van Moolenbroek * Hash chain that entry lives in is modified and memory is freed.
323*045e0ed3SDavid van Moolenbroek *
324*045e0ed3SDavid van Moolenbroek *---------------------------------------------------------
325*045e0ed3SDavid van Moolenbroek */
326*045e0ed3SDavid van Moolenbroek
327*045e0ed3SDavid van Moolenbroek void
Hash_DeleteEntry(Hash_Table * t,Hash_Entry * e)328*045e0ed3SDavid van Moolenbroek Hash_DeleteEntry(Hash_Table *t, Hash_Entry *e)
329*045e0ed3SDavid van Moolenbroek {
330*045e0ed3SDavid van Moolenbroek Hash_Entry **hp, *p;
331*045e0ed3SDavid van Moolenbroek
332*045e0ed3SDavid van Moolenbroek if (e == NULL)
333*045e0ed3SDavid van Moolenbroek return;
334*045e0ed3SDavid van Moolenbroek for (hp = &t->bucketPtr[e->namehash & t->mask];
335*045e0ed3SDavid van Moolenbroek (p = *hp) != NULL; hp = &p->next) {
336*045e0ed3SDavid van Moolenbroek if (p == e) {
337*045e0ed3SDavid van Moolenbroek *hp = p->next;
338*045e0ed3SDavid van Moolenbroek free(p);
339*045e0ed3SDavid van Moolenbroek t->numEntries--;
340*045e0ed3SDavid van Moolenbroek return;
341*045e0ed3SDavid van Moolenbroek }
342*045e0ed3SDavid van Moolenbroek }
343*045e0ed3SDavid van Moolenbroek (void)write(2, "bad call to Hash_DeleteEntry\n", 29);
344*045e0ed3SDavid van Moolenbroek abort();
345*045e0ed3SDavid van Moolenbroek }
346*045e0ed3SDavid van Moolenbroek
347*045e0ed3SDavid van Moolenbroek /*
348*045e0ed3SDavid van Moolenbroek *---------------------------------------------------------
349*045e0ed3SDavid van Moolenbroek *
350*045e0ed3SDavid van Moolenbroek * Hash_EnumFirst --
351*045e0ed3SDavid van Moolenbroek * This procedure sets things up for a complete search
352*045e0ed3SDavid van Moolenbroek * of all entries recorded in the hash table.
353*045e0ed3SDavid van Moolenbroek *
354*045e0ed3SDavid van Moolenbroek * Input:
355*045e0ed3SDavid van Moolenbroek * t Table to be searched.
356*045e0ed3SDavid van Moolenbroek * searchPtr Area in which to keep state about search.
357*045e0ed3SDavid van Moolenbroek *
358*045e0ed3SDavid van Moolenbroek * Results:
359*045e0ed3SDavid van Moolenbroek * The return value is the address of the first entry in
360*045e0ed3SDavid van Moolenbroek * the hash table, or NULL if the table is empty.
361*045e0ed3SDavid van Moolenbroek *
362*045e0ed3SDavid van Moolenbroek * Side Effects:
363*045e0ed3SDavid van Moolenbroek * The information in searchPtr is initialized so that successive
364*045e0ed3SDavid van Moolenbroek * calls to Hash_Next will return successive HashEntry's
365*045e0ed3SDavid van Moolenbroek * from the table.
366*045e0ed3SDavid van Moolenbroek *
367*045e0ed3SDavid van Moolenbroek *---------------------------------------------------------
368*045e0ed3SDavid van Moolenbroek */
369*045e0ed3SDavid van Moolenbroek
370*045e0ed3SDavid van Moolenbroek Hash_Entry *
Hash_EnumFirst(Hash_Table * t,Hash_Search * searchPtr)371*045e0ed3SDavid van Moolenbroek Hash_EnumFirst(Hash_Table *t, Hash_Search *searchPtr)
372*045e0ed3SDavid van Moolenbroek {
373*045e0ed3SDavid van Moolenbroek
374*045e0ed3SDavid van Moolenbroek searchPtr->tablePtr = t;
375*045e0ed3SDavid van Moolenbroek searchPtr->nextIndex = 0;
376*045e0ed3SDavid van Moolenbroek searchPtr->hashEntryPtr = NULL;
377*045e0ed3SDavid van Moolenbroek return Hash_EnumNext(searchPtr);
378*045e0ed3SDavid van Moolenbroek }
379*045e0ed3SDavid van Moolenbroek
380*045e0ed3SDavid van Moolenbroek /*
381*045e0ed3SDavid van Moolenbroek *---------------------------------------------------------
382*045e0ed3SDavid van Moolenbroek *
383*045e0ed3SDavid van Moolenbroek * Hash_EnumNext --
384*045e0ed3SDavid van Moolenbroek * This procedure returns successive entries in the hash table.
385*045e0ed3SDavid van Moolenbroek *
386*045e0ed3SDavid van Moolenbroek * Results:
387*045e0ed3SDavid van Moolenbroek * The return value is a pointer to the next HashEntry
388*045e0ed3SDavid van Moolenbroek * in the table, or NULL when the end of the table is
389*045e0ed3SDavid van Moolenbroek * reached.
390*045e0ed3SDavid van Moolenbroek *
391*045e0ed3SDavid van Moolenbroek * Side Effects:
392*045e0ed3SDavid van Moolenbroek * The information in searchPtr is modified to advance to the
393*045e0ed3SDavid van Moolenbroek * next entry.
394*045e0ed3SDavid van Moolenbroek *
395*045e0ed3SDavid van Moolenbroek *---------------------------------------------------------
396*045e0ed3SDavid van Moolenbroek */
397*045e0ed3SDavid van Moolenbroek
398*045e0ed3SDavid van Moolenbroek Hash_Entry *
Hash_EnumNext(Hash_Search * searchPtr)399*045e0ed3SDavid van Moolenbroek Hash_EnumNext(Hash_Search *searchPtr)
400*045e0ed3SDavid van Moolenbroek {
401*045e0ed3SDavid van Moolenbroek Hash_Entry *e;
402*045e0ed3SDavid van Moolenbroek Hash_Table *t = searchPtr->tablePtr;
403*045e0ed3SDavid van Moolenbroek
404*045e0ed3SDavid van Moolenbroek /*
405*045e0ed3SDavid van Moolenbroek * The hashEntryPtr field points to the most recently returned
406*045e0ed3SDavid van Moolenbroek * entry, or is nil if we are starting up. If not nil, we have
407*045e0ed3SDavid van Moolenbroek * to start at the next one in the chain.
408*045e0ed3SDavid van Moolenbroek */
409*045e0ed3SDavid van Moolenbroek e = searchPtr->hashEntryPtr;
410*045e0ed3SDavid van Moolenbroek if (e != NULL)
411*045e0ed3SDavid van Moolenbroek e = e->next;
412*045e0ed3SDavid van Moolenbroek /*
413*045e0ed3SDavid van Moolenbroek * If the chain ran out, or if we are starting up, we need to
414*045e0ed3SDavid van Moolenbroek * find the next nonempty chain.
415*045e0ed3SDavid van Moolenbroek */
416*045e0ed3SDavid van Moolenbroek while (e == NULL) {
417*045e0ed3SDavid van Moolenbroek if (searchPtr->nextIndex >= t->size)
418*045e0ed3SDavid van Moolenbroek return (NULL);
419*045e0ed3SDavid van Moolenbroek e = t->bucketPtr[searchPtr->nextIndex++];
420*045e0ed3SDavid van Moolenbroek }
421*045e0ed3SDavid van Moolenbroek searchPtr->hashEntryPtr = e;
422*045e0ed3SDavid van Moolenbroek return (e);
423*045e0ed3SDavid van Moolenbroek }
424*045e0ed3SDavid van Moolenbroek
425*045e0ed3SDavid van Moolenbroek /*
426*045e0ed3SDavid van Moolenbroek *---------------------------------------------------------
427*045e0ed3SDavid van Moolenbroek *
428*045e0ed3SDavid van Moolenbroek * RebuildTable --
429*045e0ed3SDavid van Moolenbroek * This local routine makes a new hash table that
430*045e0ed3SDavid van Moolenbroek * is larger than the old one.
431*045e0ed3SDavid van Moolenbroek *
432*045e0ed3SDavid van Moolenbroek * Results:
433*045e0ed3SDavid van Moolenbroek * None.
434*045e0ed3SDavid van Moolenbroek *
435*045e0ed3SDavid van Moolenbroek * Side Effects:
436*045e0ed3SDavid van Moolenbroek * The entire hash table is moved, so any bucket numbers
437*045e0ed3SDavid van Moolenbroek * from the old table are invalid.
438*045e0ed3SDavid van Moolenbroek *
439*045e0ed3SDavid van Moolenbroek *---------------------------------------------------------
440*045e0ed3SDavid van Moolenbroek */
441*045e0ed3SDavid van Moolenbroek
442*045e0ed3SDavid van Moolenbroek static void
RebuildTable(Hash_Table * t)443*045e0ed3SDavid van Moolenbroek RebuildTable(Hash_Table *t)
444*045e0ed3SDavid van Moolenbroek {
445*045e0ed3SDavid van Moolenbroek Hash_Entry *e, *next, **hp, **xp;
446*045e0ed3SDavid van Moolenbroek int i, mask;
447*045e0ed3SDavid van Moolenbroek Hash_Entry **oldhp;
448*045e0ed3SDavid van Moolenbroek int oldsize;
449*045e0ed3SDavid van Moolenbroek
450*045e0ed3SDavid van Moolenbroek next = NULL;
451*045e0ed3SDavid van Moolenbroek oldhp = t->bucketPtr;
452*045e0ed3SDavid van Moolenbroek oldsize = i = t->size;
453*045e0ed3SDavid van Moolenbroek i <<= 1;
454*045e0ed3SDavid van Moolenbroek t->size = i;
455*045e0ed3SDavid van Moolenbroek t->mask = mask = i - 1;
456*045e0ed3SDavid van Moolenbroek t->bucketPtr = hp = (struct Hash_Entry **) emalloc(sizeof(*hp) * i);
457*045e0ed3SDavid van Moolenbroek while (--i >= 0)
458*045e0ed3SDavid van Moolenbroek *hp++ = NULL;
459*045e0ed3SDavid van Moolenbroek for (hp = oldhp, i = oldsize; --i >= 0;) {
460*045e0ed3SDavid van Moolenbroek for (e = *hp++; e != NULL; e = next) {
461*045e0ed3SDavid van Moolenbroek next = e->next;
462*045e0ed3SDavid van Moolenbroek xp = &t->bucketPtr[e->namehash & mask];
463*045e0ed3SDavid van Moolenbroek e->next = *xp;
464*045e0ed3SDavid van Moolenbroek *xp = e;
465*045e0ed3SDavid van Moolenbroek }
466*045e0ed3SDavid van Moolenbroek }
467*045e0ed3SDavid van Moolenbroek free(oldhp);
468*045e0ed3SDavid van Moolenbroek }
469