xref: /freebsd/contrib/tcsh/sh.hist.c (revision eb69d1f144a6fcc765d1b9d44a5ae8082353e70b)
1 /* $Header: /p/tcsh/cvsroot/tcsh/sh.hist.c,v 3.61 2015/06/06 21:19:08 christos Exp $ */
2 /*
3  * sh.hist.c: Shell history expansions and substitutions
4  */
5 /*-
6  * Copyright (c) 1980, 1991 The Regents of the University of California.
7  * All rights reserved.
8  *
9  * Redistribution and use in source and binary forms, with or without
10  * modification, are permitted provided that the following conditions
11  * are met:
12  * 1. Redistributions of source code must retain the above copyright
13  *    notice, this list of conditions and the following disclaimer.
14  * 2. Redistributions in binary form must reproduce the above copyright
15  *    notice, this list of conditions and the following disclaimer in the
16  *    documentation and/or other materials provided with the distribution.
17  * 3. Neither the name of the University nor the names of its contributors
18  *    may be used to endorse or promote products derived from this software
19  *    without specific prior written permission.
20  *
21  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
22  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
23  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
24  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
25  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
26  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
27  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
28  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
29  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
30  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
31  * SUCH DAMAGE.
32  */
33 #include "sh.h"
34 
35 RCSID("$tcsh: sh.hist.c,v 3.61 2015/06/06 21:19:08 christos Exp $")
36 
37 #include <stdio.h>	/* for rename(2), grr. */
38 #include <assert.h>
39 #include "tc.h"
40 #include "dotlock.h"
41 
42 extern int histvalid;
43 extern struct Strbuf histline;
44 Char HistLit = 0;
45 
46 static	int	heq	(const struct wordent *, const struct wordent *);
47 static	void	hfree	(struct Hist *);
48 
49 #define HIST_ONLY	0x01
50 #define HIST_SAVE	0x02
51 #define HIST_LOAD	0x04
52 #define HIST_REV	0x08
53 #define HIST_CLEAR	0x10
54 #define HIST_MERGE	0x20
55 #define HIST_TIME	0x40
56 
57 /*
58  * C shell
59  */
60 
61 /* Static functions don't show up in gprof summaries.  So eliminate "static"
62  * modifier from some frequently called functions. */
63 #ifdef PROF
64 #define PG_STATIC
65 #else
66 #define PG_STATIC static
67 #endif
68 
69 /* #define DEBUG_HIST 1 */
70 
71 static const int fastMergeErase = 1;
72 static unsigned histCount = 0;		/* number elements on history list */
73 static int histlen = 0;
74 static struct Hist *histTail = NULL;     /* last element on history list */
75 static struct Hist *histMerg = NULL;	 /* last element merged by Htime */
76 
77 static void insertHistHashTable(struct Hist *, unsigned);
78 
79 /* Insert new element (hp) in history list after specified predecessor (pp). */
80 static void
81 hinsert(struct Hist *hp, struct Hist *pp)
82 {
83     struct Hist *fp = pp->Hnext;        /* following element, if any */
84     hp->Hnext = fp, hp->Hprev = pp;
85     pp->Hnext = hp;
86     if (fp)
87         fp->Hprev = hp;
88     else
89         histTail = hp;                  /* meaning hp->Hnext == NULL */
90     histCount++;
91 }
92 
93 /* Remove the entry from the history list. */
94 static void
95 hremove(struct Hist *hp)
96 {
97     struct Hist *pp = hp->Hprev;
98     assert(pp);                         /* elements always have a previous */
99     pp->Hnext = hp->Hnext;
100     if (hp->Hnext)
101         hp->Hnext->Hprev = pp;
102     else
103         histTail = pp;                  /* we must have been last */
104     if (hp == histMerg)			/* deleting this hint from list */
105 	histMerg = NULL;
106     assert(histCount > 0);
107     histCount--;
108 }
109 
110 /* Prune length of history list to specified size by history variable. */
111 PG_STATIC void
112 discardExcess(int hlen)
113 {
114     struct Hist *hp, *np;
115     if (histTail == NULL) {
116         assert(histCount == 0);
117         return;                         /* no entries on history list */
118     }
119     /* Prune dummy entries from the front, then old entries from the back. If
120      * the list is still too long scan the whole list as before.  But only do a
121      * full scan if the list is more than 6% (1/16th) too long. */
122     while (histCount > (unsigned)hlen && (np = Histlist.Hnext)) {
123         if (eventno - np->Href >= hlen || hlen == 0)
124             hremove(np), hfree(np);
125         else
126             break;
127     }
128     while (histCount > (unsigned)hlen && (np = histTail) != &Histlist) {
129         if (eventno - np->Href >= hlen || hlen == 0)
130             hremove(np), hfree(np);
131         else
132             break;
133     }
134     if (histCount - (hlen >> 4) <= (unsigned)hlen)
135 	return;				/* don't bother doing the full scan */
136     for (hp = &Histlist; histCount > (unsigned)hlen &&
137 	(np = hp->Hnext) != NULL;)
138         if (eventno - np->Href >= hlen || hlen == 0)
139             hremove(np), hfree(np);
140         else
141             hp = np;
142 }
143 
144 /* Add the command "sp" to the history list. */
145 void
146 savehist(
147   struct wordent *sp,
148   int mflg)				/* true if -m (merge) specified */
149 {
150     /* throw away null lines */
151     if (sp && sp->next->word[0] == '\n')
152 	return;
153     if (sp)
154         (void) enthist(++eventno, sp, 1, mflg, histlen);
155     discardExcess(histlen);
156 }
157 
158 #define USE_JENKINS_HASH 1
159 /* #define USE_ONE_AT_A_TIME 1 */
160 #undef PRIME_LENGTH			/* no need for good HTL */
161 
162 #ifdef USE_JENKINS_HASH
163 #define hashFcnName "lookup3"
164 /* From:
165    lookup3.c, by Bob Jenkins, May 2006, Public Domain.
166    "...  You can use this free for any purpose.  It's in
167     the public domain.  It has no warranty."
168    http://burtleburtle.net/bob/hash/index.html
169  */
170 
171 #define rot(x,k) (((x)<<(k)) | ((x)>>(32-(k))))
172 #define mix(a,b,c) \
173 { \
174   a -= c;  a ^= rot(c, 4);  c += b; \
175   b -= a;  b ^= rot(a, 6);  a += c; \
176   c -= b;  c ^= rot(b, 8);  b += a; \
177   a -= c;  a ^= rot(c,16);  c += b; \
178   b -= a;  b ^= rot(a,19);  a += c; \
179   c -= b;  c ^= rot(b, 4);  b += a; \
180 }
181 #define final(a,b,c) \
182 { \
183   c ^= b; c -= rot(b,14); \
184   a ^= c; a -= rot(c,11); \
185   b ^= a; b -= rot(a,25); \
186   c ^= b; c -= rot(b,16); \
187   a ^= c; a -= rot(c, 4); \
188   b ^= a; b -= rot(a,14); \
189   c ^= b; c -= rot(b,24); \
190 }
191 
192 struct hashValue		  /* State used to hash a wordend word list. */
193 {
194     uint32_t a, b, c;
195 };
196 
197 /* Set up the internal state */
198 static void
199 initializeHash(struct hashValue *h)
200 {
201     h->a = h->b = h->c = 0xdeadbeef;
202 }
203 
204 /* This does a partial hash of the Chars in a single word.  For efficiency we
205  * include 3 versions of the code to pack Chars into 32-bit words for the
206  * mixing function. */
207 static void
208 addWordToHash(struct hashValue *h, const Char *word)
209 {
210     uint32_t a = h->a, b = h->b, c = h->c;
211 #ifdef SHORT_STRINGS
212 #ifdef WIDE_STRINGS
213     assert(sizeof(Char) >= 4);
214     while (1) {
215 	unsigned k;
216 	if ((k = (uChar)*word++) == 0) break; a += k;
217 	if ((k = (uChar)*word++) == 0) break; b += k;
218 	if ((k = (uChar)*word++) == 0) break; c += k;
219 	mix(a, b, c);
220     }
221 #else
222     assert(sizeof(Char) == 2);
223     while (1) {
224 	unsigned k;
225 	if ((k = (uChar)*word++) == 0) break; a += k;
226 	if ((k = (uChar)*word++) == 0) break; a += k << 16;
227 	if ((k = (uChar)*word++) == 0) break; b += k;
228 	if ((k = (uChar)*word++) == 0) break; b += k << 16;
229 	if ((k = (uChar)*word++) == 0) break; c += k;
230 	if ((k = (uChar)*word++) == 0) break; c += k << 16;
231 	mix(a, b, c);
232     }
233 #endif
234 #else
235     assert(sizeof(Char) == 1);
236     while (1) {
237 	unsigned k;
238 	if ((k = *word++) == 0) break; a += k;
239 	if ((k = *word++) == 0) break; a += k << 8;
240 	if ((k = *word++) == 0) break; a += k << 16;
241 	if ((k = *word++) == 0) break; a += k << 24;
242 	if ((k = *word++) == 0) break; b += k;
243 	if ((k = *word++) == 0) break; b += k << 8;
244 	if ((k = *word++) == 0) break; b += k << 16;
245 	if ((k = *word++) == 0) break; b += k << 24;
246 	if ((k = *word++) == 0) break; c += k;
247 	if ((k = *word++) == 0) break; c += k << 8;
248 	if ((k = *word++) == 0) break; c += k << 16;
249 	if ((k = *word++) == 0) break; c += k << 24;
250 	mix(a, b, c);
251     }
252 #endif
253     h->a = a, h->b = b, h->c = c;
254 }
255 
256 static void
257 addCharToHash(struct hashValue *h, Char ch)
258 {
259     /* The compiler (gcc -O2) seems to do a good job optimizing this without
260      * explicitly extracting into local variables. */
261     h->a += (uChar)ch;
262     mix(h->a, h->b, h->c);
263 }
264 
265 static uint32_t
266 finalizeHash(struct hashValue *h)
267 {
268     uint32_t a = h->a, b = h->b, c = h->c;
269     final(a, b, c);
270     return c;
271 }
272 
273 #elif USE_ONE_AT_A_TIME
274 #define hashFcnName "one-at-a-time"
275 /* This one is also from Bob Jenkins, but is slower but simpler than lookup3.
276    "...  The code given here are all public domain."
277    http://burtleburtle.net/bob/hash/doobs.html */
278 
279 #if 0
280 ub4
281 one_at_a_time(char *key, ub4 len)
282 {
283   ub4   hash, i;
284   for (hash=0, i=0; i<len; ++i)
285   {
286     hash += key[i];
287     hash += (hash << 10);
288     hash ^= (hash >> 6);
289   }
290   hash += (hash << 3);
291   hash ^= (hash >> 11);
292   hash += (hash << 15);
293   return (hash & mask);
294 }
295 #endif
296 
297 struct hashValue { uint32_t h; };
298 static void
299 initializeHash(struct hashValue *h)
300 {
301     h->h = 0;
302 }
303 
304 static void
305 addWordToHash(struct hashValue *h, const Char *word)
306 {
307     unsigned k;
308     uint32_t hash = h->h;
309     while (k = (uChar)*word++)
310 	hash += k, hash += hash << 10, hash ^= hash >> 6;
311     h->h = hash;
312 }
313 
314 static void
315 addCharToHash(struct hashValue *h, Char c)
316 {
317     Char b[2] = { c, 0 };
318     addWordToHash(h, b);
319 }
320 
321 static uint32_t
322 finalizeHash(struct hashValue *h)
323 {
324     unsigned hash = h->h;
325     hash += (hash << 3);
326     hash ^= (hash >> 11);
327     hash += (hash << 15);
328     return hash;
329 }
330 
331 #else
332 #define hashFcnName "add-mul"
333 /* Simple multipy and add hash. */
334 #define PRIME_LENGTH 1			/* need "good" HTL */
335 struct hashValue { uint32_t h; };
336 static void
337 initializeHash(struct hashValue *h)
338 {
339     h->h = 0xe13e2345;
340 }
341 
342 static void
343 addWordToHash(struct hashValue *h, const Char *word)
344 {
345     unsigned k;
346     uint32_t hash = h->h;
347     while (k = (uChar)*word++)
348 	hash = hash * 0x9e4167b9 + k;
349     h->h = hash;
350 }
351 
352 static void
353 addCharToHash(struct hashValue *h, Char c)
354 {
355     h->h = h->h * 0x9e4167b9 + (uChar)c;
356 }
357 
358 static uint32_t
359 finalizeHash(struct hashValue *h)
360 {
361     return h->h;
362 }
363 #endif
364 
365 static unsigned
366 hashhist(struct wordent *h0)
367 {
368     struct hashValue s;
369     struct wordent *firstWord = h0->next;
370     struct wordent *h = firstWord;
371     unsigned hash = 0;
372 
373     initializeHash(&s);
374     for (; h != h0; h = h->next) {
375         if (h->word[0] == '\n')
376             break;                      /* don't hash newline */
377         if (h != firstWord)
378             addCharToHash(&s, ' ');	/* space between words */
379 	addWordToHash(&s, h->word);
380     }
381     hash = finalizeHash(&s);
382     /* Zero means no hash value, so never return zero as a hash value. */
383     return hash ? hash : 0x7fffffff;	/* prime! */
384 }
385 
386 #if 0
387 unsigned
388 hashStr(Char *str)
389 {
390     struct hashValue s;
391     initializeHash(&s);
392     addWordToHash(&s, str);
393     return finalizeHash(&s);
394 }
395 #endif
396 
397 #ifdef PRIME_LENGTH			/* need good HTL */
398 #define hash2tableIndex(hash, len) ((hash) % len)
399 #else
400 #define hash2tableIndex(hash, len) ((hash) & (len-1))
401 #endif
402 
403 /* This code can be enabled to test the above hash functions for speed and
404  * collision avoidance.  The testing is enabled by "occasional" calls to
405  * displayHistStats(), see which. */
406 #ifdef DEBUG_HIST
407 
408 #ifdef BSDTIMES
409 static double
410 doTiming(int start) {
411     static struct timeval beginTime;
412     if (start) {
413 	gettimeofday(&beginTime, NULL);
414 	return 0.0;
415     } else {
416 	struct timeval now;
417 	gettimeofday(&now, NULL);
418 	return (now.tv_sec-beginTime.tv_sec) +
419 	    (now.tv_usec-beginTime.tv_usec)/1e6;
420     }
421 }
422 #else
423 static double
424 doTiming(int start) {
425     USE(start);
426     return 0.0;
427 }
428 #endif
429 
430 static void
431 generateHashes(int nChars, unsigned nWords, unsigned samples, unsigned *hashes,
432     unsigned length)
433 {
434     if (nChars < 1)
435 	return;
436     nWords = (nWords < 1) ? 1 : (nWords > 4) ? 4 : nWords;
437     Char *number = xmalloc((nChars+nWords)*sizeof(Char));
438     struct wordent word[4];
439     struct wordent base = { NULL, &word[0], &word[0] };
440     word[0].word = number, word[0].next = &base, word[0].prev = &base;
441     unsigned w = 0;			/* word number */
442     /* Generate multiple words of length 2, 3, 5, then all the rest. */
443     unsigned wBoundaries[4] = { 2-1, 2+3-1, 2+3+5-1, 0 };
444     /* Ensure the last word has at least 4 Chars in it. */
445     while (nWords >= 2 && nChars < (wBoundaries[nWords-2]+1) + 4)
446 	nWords--;
447     wBoundaries[nWords-1] = 0xffffffff;	/* don't end word past this point */
448     unsigned i;
449     for (i = 0; i<nChars; i++) {
450 	/* In deference to the gawd awful add-mul hash, we won't use the worse
451 	 * case here (setting all Chars to 1), but assume mostly (or at least
452 	 * initially) ASCII data. */
453 	number[i+w] = '!';		/* 0x21 = 33 */
454 
455 	if (i == wBoundaries[w]) {	/* end a word here and move to next */
456 	    w++;			/* next word */
457 	    number[i+w] = 0;		/* terminate */
458 	    word[w].word = &number[i+w+1];
459 	    word[w].next = &base, word[w].prev = &word[w-1];
460 	    word[w-1].next = &word[w], base.prev = &word[w];
461 	}
462     }
463     /* w is the index of the last word actually created. */
464     number[nChars + w] = 0;		/* terminate last word */
465     unsigned timeLimit = !samples;
466     if (samples == 0)
467 	samples = 1000000000;
468     doTiming(1);
469     double sec;
470     for (i = 0; i < samples; i++) {
471 	/* increment 4 digit base 255 number; last characters vary fastest */
472 	unsigned j = nChars-1 + w;
473 	while (1) {
474 	    if (++number[j] != 0)
475 		break;
476 	    /* else reset this digit and proceed to next one */
477 	    number[j] = 1;
478 	    if (&number[j] <= word[w].word)
479 		break;			/* stop at beginning of last word */
480 	    j--;
481 	}
482 	if (word[w].word[0] == '\n')
483 	    word[w].word[0]++;		/* suppress newline character */
484 	unsigned hash = hashhist(&base);
485 	hashes[hash2tableIndex(hash, length)]++;
486 	if (timeLimit && (i & 0x3ffff) == 0x3ffff) {
487 	    sec = doTiming(0);
488 	    if (sec > 10)
489 		break;
490 	}
491     }
492     if (i >= samples)
493 	sec = doTiming(0);
494     else
495 	samples = i;			/* number we actually did */
496     if (sec > 0.01) {
497 	xprintf("Hash %d (%d Char %u words) with %s: %d nsec/hash, %d mcps\n",
498 		samples, nChars, w+1, hashFcnName, (int)((sec/samples)*1e9),
499 		(int)((double)samples*nChars/sec/1e6));
500     }
501 }
502 #endif /* DEBUG_HIST */
503 
504 #ifdef DEBUG_HIST
505 static void
506 testHash(void)
507 {
508     static const Char STRtestHashTimings[] =
509 	{ 't','e','s','t','H','a','s','h','T','i','m','i','n','g','s', 0 };
510     struct varent *vp = adrof(STRtestHashTimings);
511     if (vp && vp->vec) {
512 	unsigned hashes[4];		/* dummy place to put hashes */
513 	Char **vals = vp->vec;
514 	while (*vals) {
515 	    int length = getn(*vals);
516 	    unsigned words =
517 		(length < 5) ? 1 : (length < 25) ? 2 : (length < 75) ? 3 : 4;
518 	    if (length > 0)
519 		generateHashes(length, words, 0, hashes, 4);
520 	    vals++;
521 	}
522     }
523     unsigned length = 1024;
524 #ifdef PRIME_LENGTH			/* need good HTL */
525     length = 1021;
526 #endif
527     unsigned *hashes = xmalloc(length*sizeof(unsigned));
528     memset(hashes, 0, length*sizeof(unsigned));
529     /* Compute collision statistics for half full hashes modulo "length". */
530     generateHashes(4, 1, length/2, hashes, length);
531     /* Evaluate collisions by comparing occupancy rates (mean value 0.5).
532      * One bin for each number of hits. */
533     unsigned bins[155];
534     memset(bins, 0, sizeof(bins));
535     unsigned highest = 0;
536     unsigned i;
537     for (i = 0; i<length; i++) {
538 	unsigned hits = hashes[i];
539 	if (hits >= sizeof(bins)/sizeof(bins[0])) /* clip */
540 	    hits = highest = sizeof(bins)/sizeof(bins[0]) - 1;
541 	if (hits > highest)
542 	    highest = hits;
543 	bins[hits]++;
544     }
545     xprintf("Occupancy of %d buckets by %d hashes %d Chars %d word with %s\n",
546 	    length, length/2, 4, 1, hashFcnName);
547     for (i = 0; i <= highest; i++) {
548 	xprintf(" %d buckets (%d%%) with %d hits\n",
549 		bins[i], bins[i]*100/length, i);
550     }
551     /* Count run lengths to evaluate linear rehashing effectiveness.  Estimate
552      * a little corrupted by edge effects. */
553     memset(bins, 0, sizeof(bins));
554     highest = 0;
555     for (i = 0; hashes[i] == 0; i++);	/* find first occupied bucket */
556     unsigned run = 0;
557     unsigned rehashed = 0;
558     for (; i<length; i++) {
559 	unsigned hits = hashes[i];
560 	if (hits == 0 && rehashed > 0)
561 	    hits = 1 && rehashed--;
562 	else if (hits > 1)
563 	    rehashed += hits-1;
564 	if (hits)
565 	    run++;
566 	else {
567 	    /* a real free slot, count it */
568 	    if (run >= sizeof(bins)/sizeof(bins[0])) /* clip */
569 		run = highest = sizeof(bins)/sizeof(bins[0]) - 1;
570 	    if (run > highest)
571 		highest = run;
572 	    bins[run]++;
573 	    run = 0;
574 	}
575     }
576     /* Ignore the partial run at end as we ignored the beginning. */
577     double merit = 0.0, entries = 0;
578     for (i = 0; i <= highest; i++) {
579 	entries += bins[i]*i;		/* total hashed objects */
580 	merit += bins[i]*i*i;
581     }
582     xprintf("Rehash collision figure of merit %u (ideal=100), run lengths:\n",
583 	    (int)(100.0*merit/entries));
584     for (i = 0; i <= highest; i++) {
585 	if (bins[i] != 0)
586 	    xprintf(" %d runs of length %d buckets\n", bins[i], i);
587     }
588     xfree(hashes);
589 }
590 #endif /* DEBUG_HIST */
591 
592 /* Compares two word lists for equality. */
593 static int
594 heq(const struct wordent *a0, const struct wordent *b0)
595 {
596     const struct wordent *a = a0->next, *b = b0->next;
597 
598     for (;;) {
599 	if (Strcmp(a->word, b->word) != 0)
600 	    return 0;
601 	a = a->next;
602 	b = b->next;
603 	if (a == a0)
604 	    return (b == b0) ? 1 : 0;
605 	if (b == b0)
606 	    return 0;
607     }
608 }
609 
610 /* Renumber entries following p, which we will be deleting. */
611 PG_STATIC void
612 renumberHist(struct Hist *p)
613 {
614     int n = p->Href;
615     while ((p = p->Hnext))
616         p->Href = n--;
617 }
618 
619 /* The hash table is implemented as an array of pointers to Hist entries.  Each
620  * entry is located in the table using hash2tableIndex() and checking the
621  * following entries in case of a collision (linear rehash).  Free entries in
622  * the table are zero (0, NULL, emptyHTE).  Deleted entries that cannot yet be
623  * freed are set to one (deletedHTE).  The Hist.Hhash member is non-zero iff
624  * the entry is in the hash table.  When the hash table get too full, it is
625  * reallocated to be approximately twice the history length (see
626  * getHashTableSize). */
627 static struct Hist **histHashTable = NULL;
628 static unsigned histHashTableLength = 0; /* number of Hist pointers in table */
629 
630 static struct Hist * const emptyHTE = NULL;
631 static struct Hist * const deletedHTE = (struct Hist *)1;
632 
633 static struct {
634     unsigned insertCount;
635     unsigned removeCount;
636     unsigned rehashes;
637     int deleted;
638 } hashStats;
639 
640 #ifdef DEBUG_HIST
641 void
642 checkHistHashTable(int print)
643 {
644     unsigned occupied = 0;
645     unsigned deleted = 0;
646     unsigned i;
647     for (i = 0; i<histHashTableLength; i++)
648 	if (histHashTable[i] == emptyHTE)
649 	    continue;
650 	else if (histHashTable[i] == deletedHTE)
651 	    deleted++;
652 	else
653 	    occupied++;
654     if (print)
655 	xprintf("  found len %u occupied %u deleted %u\n",
656 		histHashTableLength, occupied, deleted);
657     assert(deleted == hashStats.deleted);
658 }
659 
660 static int doneTest = 0;
661 
662 /* Main entry point for displaying history statistics and hash function
663  * behavior. */
664 void
665 displayHistStats(const char *reason)
666 {
667     /* Just hash statistics for now. */
668     xprintf("%s history hash table len %u count %u (deleted %d)\n", reason,
669 	    histHashTableLength, histCount, hashStats.deleted);
670     xprintf("  inserts %u rehashes %u%% each\n",
671 	    hashStats.insertCount,
672 	    (hashStats.insertCount
673 	     ? 100*hashStats.rehashes/hashStats.insertCount : 0));
674     xprintf("  removes %u net %u\n",
675 	    hashStats.removeCount,
676 	    hashStats.insertCount - hashStats.removeCount);
677     assert(hashStats.insertCount >= hashStats.removeCount);
678     checkHistHashTable(1);
679     memset(&hashStats, 0, sizeof(hashStats));
680     if (!doneTest) {
681 	testHash();
682 	doneTest = 1;
683     }
684 }
685 #else
686 void
687 displayHistStats(const char *reason)
688 {
689     USE(reason);
690 }
691 #endif
692 
693 static void
694 discardHistHashTable(void)
695 {
696     if (histHashTable == NULL)
697         return;
698     displayHistStats("Discarding");
699     xfree(histHashTable);
700     histHashTable = NULL;
701 }
702 
703 /* Computes a new hash table size, when the current one is too small. */
704 static unsigned
705 getHashTableSize(int hlen)
706 {
707     unsigned target = hlen * 2;
708     unsigned e = 5;
709     unsigned size;
710     while ((size = 1<<e) < target)
711 	e++;
712 #ifdef PRIME_LENGTH			/* need good HTL */
713     /* Not all prime, but most are and none have factors smaller than 11. */
714     return size+15;
715 #else
716     assert((size & (size-1)) == 0);	/* must be a power of two */
717     return size;
718 #endif
719 }
720 
721 /* Create the hash table or resize, if necessary. */
722 static void
723 createHistHashTable(int hlen)
724 {
725     if (hlen == 0) {
726 	discardHistHashTable();
727         return;
728     }
729     if (hlen < 0) {
730 	if (histlen <= 0)
731 	    return;			/* no need for hash table */
732 	hlen = histlen;
733     }
734     if (histHashTable != NULL) {
735 	if (histCount < histHashTableLength * 3 / 4)
736 	    return;			/* good enough for now */
737 	discardHistHashTable();		/* too small */
738     }
739     histHashTableLength = getHashTableSize(
740 	hlen > (int)histCount ? hlen : (int)histCount);
741     histHashTable = xmalloc(histHashTableLength * sizeof(struct Hist *));
742     memset(histHashTable, 0, histHashTableLength * sizeof(struct Hist *));
743     assert(histHashTable[0] == emptyHTE);
744 
745     /* Now insert all the entries on the history list into the hash table. */
746     {
747         struct Hist *hp;
748         for (hp = &Histlist; (hp = hp->Hnext) != NULL;) {
749             unsigned lpHash = hashhist(&hp->Hlex);
750             assert(!hp->Hhash || hp->Hhash == lpHash);
751             hp->Hhash = 0;              /* force insert to new hash table */
752             insertHistHashTable(hp, lpHash);
753         }
754     }
755 }
756 
757 /* Insert np into the hash table.  We assume that np is already on the
758  * Histlist.  The specified hashval matches the new Hist entry but has not yet
759  * been assigned to Hhash (or the element is already on the hash table). */
760 static void
761 insertHistHashTable(struct Hist *np, unsigned hashval)
762 {
763     unsigned rehashes = 0;
764     unsigned hi = 0;
765     if (!histHashTable)
766 	return;
767     if (np->Hhash != 0) {
768         /* already in hash table */
769         assert(hashval == np->Hhash);
770         return;
771     }
772     assert(np != deletedHTE);
773     /* Find a free (empty or deleted) slot, using linear rehash. */
774     assert(histHashTable);
775     for (rehashes = 0;
776          ((hi = hash2tableIndex(hashval + rehashes, histHashTableLength)),
777           histHashTable[hi] != emptyHTE && histHashTable[hi] != deletedHTE);
778          rehashes++) {
779         assert(np != histHashTable[hi]);
780         if (rehashes >= histHashTableLength / 10) {
781             /* Hash table is full, so grow it.  We assume the create function
782              * will roughly double the size we give it.  Create initializes the
783              * new table with everything on the Histlist, so we are done when
784              * it returns.  */
785 #ifdef DEBUG_HIST
786 	    xprintf("Growing history hash table from %d ...",
787 		histHashTableLength);
788 	    flush();
789 #endif
790             discardHistHashTable();
791             createHistHashTable(histHashTableLength);
792 #ifdef DEBUG_HIST
793 	    xprintf("to %d.\n", histHashTableLength);
794 #endif
795             return;
796         }
797     }
798     /* Might be sensible to grow hash table if rehashes is "too big" here. */
799     if (histHashTable[hi] == deletedHTE)
800 	hashStats.deleted--;
801     histHashTable[hi] = np;
802     np->Hhash = hashval;
803     hashStats.insertCount++;
804     hashStats.rehashes += rehashes;
805 }
806 
807 /* Remove the 'np' entry from the hash table. */
808 static void
809 removeHistHashTable(struct Hist *np)
810 {
811     unsigned hi = np->Hhash;
812     if (!histHashTable || !hi)
813         return;                         /* no hash table or not on it */
814     /* find desired entry */
815     while ((hi = hash2tableIndex(hi, histHashTableLength)),
816            histHashTable[hi] != emptyHTE) {
817         if (np == histHashTable[hi]) {
818 	    unsigned i;
819 	    unsigned deletes = 0;
820 	    histHashTable[hi] = deletedHTE; /* dummy, but non-zero entry */
821 	    /* now peek ahead to see if the dummies are really necessary. */
822 	    i = 1;
823 	    while (histHashTable[hash2tableIndex(hi+i, histHashTableLength)] ==
824 		   deletedHTE)
825 		i++;
826 	    if (histHashTable[hash2tableIndex(hi+i, histHashTableLength)] ==
827 		emptyHTE) {
828 		/* dummies are no longer necessary placeholders. */
829 		deletes = i;
830 		while (i-- > 0) {
831 		    histHashTable[hash2tableIndex(hi+i, histHashTableLength)] =
832 			emptyHTE;
833 		}
834 	    }
835 	    hashStats.deleted += 1 - deletes; /* delta deleted entries */
836 	    hashStats.removeCount++;
837             return;
838         }
839         hi++;                           /* linear rehash */
840     }
841     assert(!"Hist entry not found in hash table");
842 }
843 
844 /* Search the history hash table for a command matching lp, using hashval as
845  * its hash value. */
846 static struct Hist *
847 findHistHashTable(struct wordent *lp, unsigned hashval)
848 {
849     unsigned deleted = 0;		/* number of deleted entries skipped */
850     unsigned hi = hashval;
851     struct Hist *hp;
852     if (!histHashTable)
853 	return NULL;
854     while ((hi = hash2tableIndex(hi, histHashTableLength)),
855            (hp = histHashTable[hi]) != emptyHTE) {
856         if (hp == deletedHTE)
857 	    deleted++;
858 	else if (hp->Hhash == hashval && heq(lp, &(hp->Hlex)))
859             return hp;
860 	if (deleted > (histHashTableLength>>4)) {
861 	    /* lots of deletes, so we need a sparser table. */
862             discardHistHashTable();
863             createHistHashTable(histHashTableLength);
864 	    return findHistHashTable(lp, hashval);
865 	}
866         hi++;                           /* linear rehash */
867     }
868     return NULL;
869 }
870 
871 /* When merge semantics are in use, find the approximate predecessor for the
872  * new entry, so that the Htime entries are decreasing.  Return the entry just
873  * before the first entry with equal times, so the caller can check for
874  * duplicates.  When pTime is not NULL, use it as a starting point for search,
875  * otherwise search from beginning (largest time value) of history list. */
876 PG_STATIC struct Hist *
877 mergeInsertionPoint(
878     struct Hist *np,                      /* new entry to be inserted */
879     struct Hist *pTime)                   /* hint about where to insert */
880 {
881     struct Hist *pp, *p;
882     if (histTail && histTail->Htime >= np->Htime)
883 	pTime = histTail;		/* new entry goes at the end */
884     if (histMerg && histMerg != &Histlist && histMerg != Histlist.Hnext) {
885 	/* Check above and below previous insertion point, in case we're adding
886 	 * sequential times in the middle of the list (e.g. history -M). */
887 	if (histMerg->Htime >= np->Htime)
888 	    pTime = histMerg;
889 	else if (histMerg->Hprev->Htime >= np->Htime)
890 	    pTime = histMerg->Hprev;
891     }
892     if (pTime) {
893         /* With hint, search up the list until Htime is greater.  We skip past
894          * the equal ones, too, so our caller can elide duplicates. */
895         pp = pTime;
896         while (pp != &Histlist && pp->Htime <= np->Htime)
897             pp = pp->Hprev;
898     } else
899         pp = &Histlist;
900     /* Search down the list while current entry's time is too large. */
901     while ((p = pp->Hnext) && (p->Htime > np->Htime))
902             pp = p;                     /* advance insertion point */
903     /* Remember recent position as hint for next time */
904     histMerg = pp;
905     return pp;
906 }
907 
908 /* Bubble Hnum & Href in new entry down to pp through earlier part of list. */
909 PG_STATIC void bubbleHnumHrefDown(struct Hist *np, struct Hist *pp)
910 {
911     struct Hist *p;
912     for (p = Histlist.Hnext; p != pp->Hnext; p = p->Hnext) {
913         /* swap Hnum & Href values of p and np. */
914         int n = p->Hnum, r = p->Href;
915         p->Hnum = np->Hnum; p->Href = np->Href;
916         np->Hnum = n; np->Href = r;
917     }
918 }
919 
920 /* Enter new command into the history list according to current settings. */
921 struct Hist *
922 enthist(
923   int event,				/* newly incremented global eventno */
924   struct wordent *lp,
925   int docopy,
926   int mflg,				/* true if merge requested */
927   int hlen)				/* -1 if unknown */
928 {
929     struct Hist *p = NULL, *pp = &Histlist, *pTime = NULL;
930     struct Hist *np;
931     const Char *dp;
932     unsigned lpHash = 0;                /* non-zero if hashing entries */
933 
934     if ((dp = varval(STRhistdup)) != STRNULL) {
935 	if (eq(dp, STRerase)) {
936 	    /* masaoki@akebono.tky.hp.com (Kobayashi Masaoki) */
937             createHistHashTable(hlen);
938             lpHash = hashhist(lp);
939             assert(lpHash != 0);
940             p = findHistHashTable(lp, lpHash);
941             if (p) {
942 		if (Htime != 0 && p->Htime > Htime)
943 		    Htime = p->Htime;
944                 /* If we are merging, and the old entry is at the place we want
945                  * to insert the new entry, then remember the place. */
946                 if (mflg && Htime != 0 && p->Hprev->Htime >= Htime)
947                     pTime = p->Hprev;
948 		if (!fastMergeErase)
949 		    renumberHist(p);	/* Reset Href of subsequent entries */
950                 hremove(p);
951 		hfree(p);
952                 p = NULL;               /* so new entry is allocated below */
953 	    }
954 	}
955 	else if (eq(dp, STRall)) {
956             createHistHashTable(hlen);
957             lpHash = hashhist(lp);
958             assert(lpHash != 0);
959             p = findHistHashTable(lp, lpHash);
960 	    if (p)   /* p!=NULL, only update this entry's Htime below */
961 		eventno--;		/* not adding a new event */
962 	}
963 	else if (eq(dp, STRprev)) {
964 	    if (pp->Hnext && heq(lp, &(pp->Hnext->Hlex))) {
965 		p = pp->Hnext;
966 		eventno--;
967 	    }
968 	}
969     }
970 
971     np = p ? p : xmalloc(sizeof(*np));
972 
973     /* Pick up timestamp set by lex() in Htime if reading saved history */
974     if (Htime != 0) {
975 	np->Htime = Htime;
976 	Htime = 0;
977     }
978     else
979         (void) time(&(np->Htime));
980 
981     if (p == np)
982         return np;                      /* reused existing entry */
983 
984     /* Initialize the new entry. */
985     np->Hnum = np->Href = event;
986     if (docopy) {
987         copylex(&np->Hlex, lp);
988 	if (histvalid)
989 	    np->histline = Strsave(histline.s);
990 	else
991 	    np->histline = NULL;
992     }
993     else {
994 	np->Hlex.next = lp->next;
995 	lp->next->prev = &np->Hlex;
996 	np->Hlex.prev = lp->prev;
997         lp->prev->next = &np->Hlex;
998         np->histline = NULL;
999     }
1000     np->Hhash = 0;
1001 
1002     /* The head of history list is the default insertion point.
1003        If merging, advance insertion point, in pp, according to Htime. */
1004     /* XXX -- In histdup=all, Htime values can be non-monotonic. */
1005     if (mflg) {                         /* merge according to np->Htime */
1006         pp = mergeInsertionPoint(np, pTime);
1007         for (p = pp->Hnext; p && p->Htime == np->Htime; pp = p, p = p->Hnext) {
1008             if (heq(&p->Hlex, &np->Hlex)) {
1009                 eventno--;              /* duplicate, so don't add new event */
1010                 hfree(np);
1011                 return (p);
1012               }
1013           }
1014         /* pp is now the last entry with time >= to np. */
1015 	if (!fastMergeErase) {		/* renumber at end of loadhist */
1016 	    /* Before inserting np after pp, bubble its Hnum & Href values down
1017 	     * through the earlier part of list. */
1018 	    bubbleHnumHrefDown(np, pp);
1019 	}
1020     }
1021     else
1022         pp = &Histlist;                 /* insert at beginning of history */
1023     hinsert(np, pp);
1024     if (lpHash && hlen != 0)		/* erase & all modes use hash table */
1025         insertHistHashTable(np, lpHash);
1026     else
1027         discardHistHashTable();
1028     return (np);
1029 }
1030 
1031 static void
1032 hfree(struct Hist *hp)
1033 {
1034     assert(hp != histMerg);
1035     if (hp->Hhash)
1036         removeHistHashTable(hp);
1037     freelex(&hp->Hlex);
1038     if (hp->histline)
1039         xfree(hp->histline);
1040     xfree(hp);
1041 }
1042 
1043 PG_STATIC void
1044 phist(struct Hist *hp, int hflg)
1045 {
1046     if (hp->Href < 0)
1047 	return;
1048     if (hflg & HIST_ONLY) {
1049 	int old_output_raw;
1050 
1051        /*
1052         * Control characters have to be written as is (output_raw).
1053         * This way one can preserve special characters (like tab) in
1054         * the history file.
1055         * From: mveksler@vnet.ibm.com (Veksler Michael)
1056         */
1057 	old_output_raw = output_raw;
1058         output_raw = 1;
1059 	cleanup_push(&old_output_raw, output_raw_restore);
1060 	if (hflg & HIST_TIME)
1061 	    /*
1062 	     * Make file entry with history time in format:
1063 	     * "+NNNNNNNNNN" (10 digits, left padded with ascii '0')
1064 	     */
1065 
1066 	    xprintf("#+%010lu\n", (unsigned long)hp->Htime);
1067 
1068 	if (HistLit && hp->histline)
1069 	    xprintf("%S\n", hp->histline);
1070 	else
1071 	    prlex(&hp->Hlex);
1072         cleanup_until(&old_output_raw);
1073     }
1074     else {
1075 	Char   *cp = str2short("%h\t%T\t%R\n");
1076 	Char *p;
1077 	struct varent *vp = adrof(STRhistory);
1078 
1079 	if (vp && vp->vec != NULL && vp->vec[0] && vp->vec[1])
1080 	    cp = vp->vec[1];
1081 
1082 	p = tprintf(FMT_HISTORY, cp, NULL, hp->Htime, hp);
1083 	cleanup_push(p, xfree);
1084 	for (cp = p; *cp;)
1085 	    xputwchar(*cp++);
1086 	cleanup_until(p);
1087     }
1088 }
1089 
1090 PG_STATIC void
1091 dophist(int n, int hflg)
1092 {
1093     struct Hist *hp;
1094     if (setintr) {
1095 	int old_pintr_disabled;
1096 
1097 	pintr_push_enable(&old_pintr_disabled);
1098 	cleanup_until(&old_pintr_disabled);
1099     }
1100     if ((hflg & HIST_REV) == 0) {
1101 	/* Since the history list is stored most recent first, non-reversing
1102 	 * print needs to print (backwards) up the list. */
1103 	if ((unsigned)n >= histCount)
1104 	    hp = histTail;
1105 	else {
1106 	    for (hp = Histlist.Hnext;
1107 		 --n > 0 && hp->Hnext != NULL;
1108 		 hp = hp->Hnext)
1109 		;
1110 	}
1111 	if (hp == NULL)
1112 	    return;			/* nothing to print */
1113 	for (; hp != &Histlist; hp = hp->Hprev)
1114 	    phist(hp, hflg);
1115     } else {
1116 	for (hp = Histlist.Hnext; n-- > 0 && hp != NULL; hp = hp->Hnext)
1117 	    phist(hp, hflg);
1118     }
1119 }
1120 
1121 /*ARGSUSED*/
1122 void
1123 dohist(Char **vp, struct command *c)
1124 {
1125     int     n, hflg = 0;
1126 
1127     USE(c);
1128     if (getn(varval(STRhistory)) == 0)
1129 	return;
1130     while (*++vp && **vp == '-') {
1131 	Char   *vp2 = *vp;
1132 
1133 	while (*++vp2)
1134 	    switch (*vp2) {
1135 	    case 'c':
1136 		hflg |= HIST_CLEAR;
1137 		break;
1138 	    case 'h':
1139 		hflg |= HIST_ONLY;
1140 		break;
1141 	    case 'r':
1142 		hflg |= HIST_REV;
1143 		break;
1144 	    case 'S':
1145 		hflg |= HIST_SAVE;
1146 		break;
1147 	    case 'L':
1148 		hflg |= HIST_LOAD;
1149 		break;
1150 	    case 'M':
1151 	    	hflg |= HIST_MERGE;
1152 		break;
1153 	    case 'T':
1154 	    	hflg |= HIST_TIME;
1155 		break;
1156 	    default:
1157 		stderror(ERR_HISTUS, "chrSLMT");
1158 		break;
1159 	    }
1160     }
1161     if (hflg & HIST_CLEAR) {
1162         struct Hist *np, *hp;
1163         for (hp = &Histlist; (np = hp->Hnext) != NULL;)
1164             hremove(np), hfree(np);
1165     }
1166 
1167     if (hflg & (HIST_LOAD | HIST_MERGE))
1168 	loadhist(*vp, (hflg & HIST_MERGE) ? 1 : 0);
1169     else if (hflg & HIST_SAVE)
1170 	rechist(*vp, 1);
1171     else {
1172 	if (*vp)
1173 	    n = getn(*vp);
1174 	else {
1175 	    n = getn(varval(STRhistory));
1176 	}
1177 	dophist(n, hflg);
1178     }
1179 }
1180 
1181 
1182 char *
1183 fmthist(int fmt, ptr_t ptr)
1184 {
1185     struct Hist *hp = ptr;
1186     char *buf;
1187 
1188     switch (fmt) {
1189     case 'h':
1190 	return xasprintf("%6d", hp->Hnum);
1191     case 'R':
1192 	if (HistLit && hp->histline)
1193 	    return xasprintf("%S", hp->histline);
1194 	else {
1195 	    Char *istr, *ip;
1196 	    char *p;
1197 
1198 	    istr = sprlex(&hp->Hlex);
1199 	    buf = xmalloc(Strlen(istr) * MB_LEN_MAX + 1);
1200 
1201 	    for (p = buf, ip = istr; *ip != '\0'; ip++)
1202 		p += one_wctomb(p, *ip);
1203 
1204 	    *p = '\0';
1205 	    xfree(istr);
1206 	    return buf;
1207 	}
1208     default:
1209 	buf = xmalloc(1);
1210 	buf[0] = '\0';
1211 	return buf;
1212     }
1213 }
1214 
1215 static void
1216 dotlock_cleanup(void* lockpath)
1217 {
1218 	dot_unlock((char*)lockpath);
1219 }
1220 
1221 /* Save history before exiting the shell. */
1222 void
1223 rechist(Char *fname, int ref)
1224 {
1225     Char    *snum, *rs;
1226     int     fp, ftmp, oldidfds;
1227     struct varent *shist;
1228     char path[MAXPATHLEN];
1229     struct stat st;
1230     static Char   *dumphist[] = {STRhistory, STRmhT, 0, 0};
1231 
1232     if (fname == NULL && !ref)
1233 	return;
1234     /*
1235      * If $savehist is just set, we use the value of $history
1236      * else we use the value in $savehist
1237      */
1238     if (((snum = varval(STRsavehist)) == STRNULL) &&
1239 	((snum = varval(STRhistory)) == STRNULL))
1240 	snum = STRmaxint;
1241 
1242 
1243     if (fname == NULL) {
1244 	if ((fname = varval(STRhistfile)) == STRNULL)
1245 	    fname = Strspl(varval(STRhome), &STRtildothist[1]);
1246 	else
1247 	    fname = Strsave(fname);
1248     }
1249     else
1250 	fname = globone(fname, G_ERROR);
1251     cleanup_push(fname, xfree);
1252 
1253     /*
1254      * The 'savehist merge' feature is intended for an environment
1255      * with numerous shells being in simultaneous use. Imagine
1256      * any kind of window system. All these shells 'share' the same
1257      * ~/.history file for recording their command line history.
1258      * We try to handle the case of multiple shells trying to merge
1259      * histories at the same time, by creating semi-unique filenames
1260      * and saving the history there first and then trying to rename
1261      * them in the proper history file.
1262      *
1263      * Users that like to nuke their environment require here an atomic
1264      * loadhist-creat-dohist(dumphist)-close sequence which is given
1265 		 * by optional lock parameter to savehist.
1266      *
1267      * jw.
1268      */
1269     /*
1270      * We need the didfds stuff before loadhist otherwise
1271      * exec in a script will fail to print if merge is set.
1272      * From: mveksler@iil.intel.com (Veksler Michael)
1273      */
1274     oldidfds = didfds;
1275     didfds = 0;
1276     if ((shist = adrof(STRsavehist)) != NULL && shist->vec != NULL) {
1277 	size_t i;
1278 	int merge = 0, lock = 0;
1279 
1280 	for (i = 1; shist->vec[i]; i++) {
1281 	    if (eq(shist->vec[i], STRmerge))
1282 		merge++;
1283 	    if (eq(shist->vec[i], STRlock))
1284 		lock++;
1285 	}
1286 
1287 	if (merge) {
1288 	    if (lock) {
1289 #ifndef WINNT_NATIVE
1290 		char *lockpath = strsave(short2str(fname));
1291 		cleanup_push(lockpath, xfree);
1292 		/* Poll in 100 miliseconds interval to obtain the lock. */
1293 		if ((dot_lock(lockpath, 100) == 0))
1294 		    cleanup_push(lockpath, dotlock_cleanup);
1295 #endif
1296 	    }
1297 	    loadhist(fname, 1);
1298 	}
1299     }
1300     rs = randsuf();
1301     xsnprintf(path, sizeof(path), "%S.%S", fname, rs);
1302     xfree(rs);
1303 
1304     fp = xcreat(path, 0600);
1305     if (fp == -1) {
1306 	didfds = oldidfds;
1307 	cleanup_until(fname);
1308 	return;
1309     }
1310     /* Try to preserve ownership and permissions of the original history file */
1311 #ifndef WINNT_NATIVE
1312     if (stat(short2str(fname), &st) != -1) {
1313 	TCSH_IGNORE(fchown(fp, st.st_uid, st.st_gid));
1314 	TCSH_IGNORE(fchmod(fp, st.st_mode));
1315     }
1316 #else
1317     UNREFERENCED_PARAMETER(st);
1318 #endif
1319     ftmp = SHOUT;
1320     SHOUT = fp;
1321     dumphist[2] = snum;
1322     dohist(dumphist, NULL);
1323     xclose(fp);
1324     SHOUT = ftmp;
1325     didfds = oldidfds;
1326     (void)rename(path, short2str(fname));
1327     cleanup_until(fname);
1328 }
1329 
1330 
1331 /* This is the entry point for loading history data from a file. */
1332 void
1333 loadhist(Char *fname, int mflg)
1334 {
1335     static Char   *loadhist_cmd[] = {STRsource, NULL, NULL, NULL};
1336     loadhist_cmd[1] = mflg ? STRmm : STRmh;
1337 
1338     if (fname != NULL)
1339 	loadhist_cmd[2] = fname;
1340     else if ((fname = varval(STRhistfile)) != STRNULL)
1341 	loadhist_cmd[2] = fname;
1342     else
1343 	loadhist_cmd[2] = STRtildothist;
1344 
1345     dosource(loadhist_cmd, NULL);
1346 
1347     /* During history merging (enthist sees mflg set), we disable management of
1348      * Hnum and Href (because fastMergeErase is true).  So now reset all the
1349      * values based on the final ordering of the history list. */
1350     if (mflg) {
1351 	int n = eventno;
1352         struct Hist *hp = &Histlist;
1353         while ((hp = hp->Hnext))
1354 	    hp->Hnum = hp->Href = n--;
1355     }
1356 }
1357 
1358 void
1359 sethistory(int n)
1360 {
1361     histlen = n;
1362     discardExcess(histlen);
1363 }
1364