xref: /dragonfly/usr.bin/window/compress.c (revision a632cd2d33eae3cdf365948061576a303057c733)
1 /*        @(#)compress.c      8.1 (Berkeley) 6/6/93         */
2 /*        $NetBSD: compress.c,v 1.7 2009/04/14 08:50:06 lukem Exp $   */
3 
4 /*
5  * Copyright (c) 1989, 1993
6  *        The Regents of the University of California.  All rights reserved.
7  *
8  * This code is derived from software contributed to Berkeley by
9  * Edward Wang at The University of California, Berkeley.
10  *
11  * Redistribution and use in source and binary forms, with or without
12  * modification, are permitted provided that the following conditions
13  * are met:
14  * 1. Redistributions of source code must retain the above copyright
15  *    notice, this list of conditions and the following disclaimer.
16  * 2. Redistributions in binary form must reproduce the above copyright
17  *    notice, this list of conditions and the following disclaimer in the
18  *    documentation and/or other materials provided with the distribution.
19  * 3. Neither the name of the University nor the names of its contributors
20  *    may be used to endorse or promote products derived from this software
21  *    without specific prior written permission.
22  *
23  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
24  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
25  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
26  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
27  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
28  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
29  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
30  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
31  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
32  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
33  * SUCH DAMAGE.
34  */
35 
36 #include <fcntl.h>
37 #include <stdio.h>
38 #include <stdlib.h>
39 #include <string.h>
40 #include "defs.h"
41 #include "tt.h"
42 
43           /* special */
44 int cc_trace = 0;
45 FILE *cc_trace_fp;
46 
47           /* tunable parameters */
48 
49 int cc_reverse = 1;
50 int cc_sort = 0;
51 int cc_chop = 0;
52 
53 int cc_token_max = 8;                   /* <= TOKEN_MAX */
54 int cc_token_min = 2;                   /* > tt.tt_put_token_cost */
55 int cc_npass0 = 1;
56 int cc_npass1 = 1;
57 
58 int cc_bufsize = 1024 * 3;    /* XXX, or 80 * 24 * 2 */
59 
60 int cc_ntoken = 8192;
61 
62 #define cc_weight XXX
63 #ifndef cc_weight
64 int cc_weight = 0;
65 #endif
66 
67 #define TOKEN_MAX 16
68 
69 struct cc {
70           char string[TOKEN_MAX];
71           char length;
72           char flag;
73 #ifndef cc_weight
74           short weight;
75 #endif
76           long time;                    /* time last seen */
77           short bcount;                 /* count in this buffer */
78           short ccount;                 /* count in compression */
79           short places;                 /* places in the buffer */
80           short code;                   /* token code */
81           struct cc *qforw, *qback;
82           struct cc *hforw, **hback;
83 };
84 
85 short cc_thresholds[TOKEN_MAX + 1];
86 #define thresh(length) (cc_thresholds[length])
87 #define threshp(code, count, length) \
88           ((code) >= 0 || (short) (count) >= cc_thresholds[length])
89 
90 #ifndef cc_weight
91 short cc_wthresholds[TOKEN_MAX + 1];
92 #define wthresh(length) (cc_wthresholds[length])
93 #define wthreshp(weight, length) ((short) (weight) >= cc_wthresholds[length])
94 #else
95 #define wthreshp(weight, length) (0)
96 #endif
97 
98 #ifndef cc_weight
99 short cc_wlimits[TOKEN_MAX + 1];
100 #define wlimit(length) (cc_wlimits[length])
101 #endif
102 
103 #define put_token_score(length) ((length) - tt.tt_put_token_cost)
104 
105 int cc_score_adjustments[TOKEN_MAX + 1][8]; /* XXX, 8 > max of cc_thresholds */
106 #define score_adjust(score, p) \
107           do { \
108                     int _length = (p)->length; \
109                     int _ccount = (p)->ccount; \
110                     if (threshp((p)->code, _ccount, _length) || \
111                         wthreshp((p)->weight, _length)) /* XXX */ \
112                               (score) -= _length - tt.tt_put_token_cost; \
113                     else \
114                               (score) += cc_score_adjustments[_length][_ccount]; \
115           } while (0)
116 
117 int cc_initial_scores[TOKEN_MAX + 1][8]; /* XXX, 8 > max of cc_thresholds */
118 
119 struct cc cc_q0a, cc_q0b, cc_q1a, cc_q1b;
120 
121 #define qinsert(p1, p2) \
122           do { \
123                     struct cc *forw = (p1)->qforw; \
124                     struct cc *back = (p1)->qback; \
125                     back->qforw = forw; \
126                     forw->qback = back; \
127                     forw = (p2)->qforw; \
128                     (p1)->qforw = forw; \
129                     forw->qback = (p1); \
130                     (p2)->qforw = (p1); \
131                     (p1)->qback = (p2); \
132           } while (0)
133 
134 #define qinsertq(q, p) \
135           ((q)->qforw == (q) ? 0 : \
136            ((q)->qback->qforw = (p)->qforw, \
137             (p)->qforw->qback = (q)->qback, \
138             (q)->qforw->qback = (p), \
139             (p)->qforw = (q)->qforw, \
140             (q)->qforw = (q), \
141             (q)->qback = (q)))
142 
143 #define H           (14)
144 #define HSIZE                 (1 << H)
145 #define hash(h, c)  (((((h) >> (H - 8)) | (h) << 8) ^ (c)) & (HSIZE - 1))
146 
147 char *cc_buffer;
148 struct cc **cc_output;                            /* the output array */
149 short *cc_places[TOKEN_MAX + 1];
150 short *cc_hashcodes;                              /* for computing hashcodes */
151 struct cc **cc_htab;                              /* the hash table */
152 struct cc **cc_tokens;                            /* holds all the active tokens */
153 struct cc_undo {
154           struct cc **pos;
155           struct cc *val;
156 } *cc_undo;
157 
158 long cc_time, cc_time0;
159 
160 char *cc_tt_ob, *cc_tt_obe;
161 
162 int       cc_compress(struct cc **, struct cc **, char);
163 void      cc_compress_cleanup(struct cc **, int);
164 void      cc_compress_phase(struct cc **, int, struct cc **, int);
165 void      cc_compress_phase1(struct cc **, struct cc **, int, int);
166 void      cc_output_phase(char *, struct cc **, int);
167 int       cc_sweep(char *, int, struct cc **, int);
168 void      cc_sweep0(char *, int, int);
169 int       cc_sweep_phase(char *, int, struct cc **);
170 void      cc_sweep_reverse(struct cc **, short *);
171 int       cc_token_compare(const void *, const void *);
172 
173 int
ccinit(void)174 ccinit(void)
175 {
176           int i, j;
177           struct cc *p;
178 
179           if (tt.tt_token_max > cc_token_max)
180                     tt.tt_token_max = cc_token_max;
181           if (tt.tt_token_min < cc_token_min)
182                     tt.tt_token_min = cc_token_min;
183           if (tt.tt_token_min > tt.tt_token_max) {
184                     tt.tt_ntoken = 0;
185                     return 0;
186           }
187           if (tt.tt_ntoken > cc_ntoken / 2)       /* not likely */
188                     tt.tt_ntoken = cc_ntoken / 2;
189 #define C(x) (sizeof (x) / sizeof *(x))
190           for (i = 0; i < (int)C(cc_thresholds); i++) {
191                     int h = i - tt.tt_put_token_cost;
192                     if (h > 0)
193                               cc_thresholds[i] =
194                                         (tt.tt_set_token_cost + 1 + h - 1) / h + 1;
195                     else
196                               cc_thresholds[i] = 0;
197           }
198           for (i = 0; i < (int)C(cc_score_adjustments); i++) {
199                     int t = cc_thresholds[i];
200                     for (j = 0; j < (int)C(*cc_score_adjustments); j++) {
201                               if (j >= t)
202                                         cc_score_adjustments[i][j] =
203                                                   - (i - tt.tt_put_token_cost);
204                               else if (j < t - 1)
205                                         cc_score_adjustments[i][j] = 0;
206                               else
207                                         /*
208                                          * cost now is
209                                          *        length * (ccount + 1)                   a
210                                          * cost before was
211                                          *        set-token-cost + length +
212                                          *                  ccount * put-token-cost       b
213                                          * the score adjustment is (b - a)
214                                          */
215                                         cc_score_adjustments[i][j] =
216                                                   tt.tt_set_token_cost + i +
217                                                             j * tt.tt_put_token_cost -
218                                                                       i * (j + 1);
219                               if (j >= t)
220                                         cc_initial_scores[i][j] = 0;
221                               else
222                                         /*
223                                          * - (set-token-cost +
224                                          *        (length - put-token-cost) -
225                                          *        (length - put-token-cost) * ccount)
226                                          */
227                                         cc_initial_scores[i][j] =
228                                                   - (tt.tt_set_token_cost +
229                                                      (i - tt.tt_put_token_cost) -
230                                                      (i - tt.tt_put_token_cost) * j);
231                     }
232           }
233 #ifndef cc_weight
234           for (i = 1; i < C(cc_wthresholds); i++) {
235                     cc_wthresholds[i] =
236                               ((tt.tt_set_token_cost + tt.tt_put_token_cost) / i +
237                                         i / 5 + 1) *
238                                         cc_weight + 1;
239                     cc_wlimits[i] = cc_wthresholds[i] + cc_weight;
240           }
241 #endif
242 #undef C
243           if ((cc_output = (struct cc **)
244                malloc((unsigned) cc_bufsize * sizeof *cc_output)) == NULL)
245                     goto nomem;
246           if ((cc_hashcodes = (short *)
247                malloc((unsigned) cc_bufsize * sizeof *cc_hashcodes)) == NULL)
248                     goto nomem;
249           if ((cc_htab = (struct cc **) malloc(HSIZE * sizeof *cc_htab)) == NULL)
250                     goto nomem;
251           if ((cc_tokens = (struct cc **)
252                malloc((unsigned)
253                       (cc_ntoken + tt.tt_token_max - tt.tt_token_min + 1) *
254                         sizeof *cc_tokens)) == NULL)
255                     goto nomem;
256           if ((cc_undo = (struct cc_undo *)
257                malloc((unsigned) cc_bufsize * sizeof *cc_undo)) == NULL)
258                     goto nomem;
259           for (i = tt.tt_token_min; i <= tt.tt_token_max; i++)
260                     if ((cc_places[i] = (short *)
261                          malloc((unsigned) cc_bufsize * sizeof **cc_places)) == NULL)
262                               goto nomem;
263           cc_q0a.qforw = cc_q0a.qback = &cc_q0a;
264           cc_q0b.qforw = cc_q0b.qback = &cc_q0b;
265           cc_q1a.qforw = cc_q1a.qback = &cc_q1a;
266           cc_q1b.qforw = cc_q1b.qback = &cc_q1b;
267           if ((p = (struct cc *) malloc((unsigned) cc_ntoken * sizeof *p)) == NULL)
268                     goto nomem;
269           for (i = 0; i < tt.tt_ntoken; i++) {
270                     p->code = i;
271                     p->time = -1;
272                     p->qback = cc_q0a.qback;
273                     p->qforw = &cc_q0a;
274                     p->qback->qforw = p;
275                     cc_q0a.qback = p;
276                     p++;
277           }
278           for (; i < cc_ntoken; i++) {
279                     p->code = -1;
280                     p->time = -1;
281                     p->qback = cc_q1a.qback;
282                     p->qforw = &cc_q1a;
283                     p->qback->qforw = p;
284                     cc_q1a.qback = p;
285                     p++;
286           }
287           cc_tt_ob = tt_ob;
288           cc_tt_obe = tt_obe;
289           if ((cc_buffer = malloc((unsigned) cc_bufsize)) == NULL)
290                     goto nomem;
291           return 0;
292 nomem:
293           wwerrno = WWE_NOMEM;
294           return -1;
295 }
296 
297 void
ccstart(void)298 ccstart(void)
299 {
300           ttflush();
301           tt_obp = tt_ob = cc_buffer;
302           tt_obe = tt_ob + cc_bufsize;
303           tt.tt_flush = ccflush;
304           if (cc_trace) {
305                     cc_trace_fp = fopen("window-trace", "a");
306                     (void) fcntl(fileno(cc_trace_fp), F_SETFD, 1);
307           }
308           ccreset();
309 }
310 
311 void
ccreset(void)312 ccreset(void)
313 {
314           struct cc *p;
315 
316           memset((char *) cc_htab, 0, HSIZE * sizeof *cc_htab);
317           for (p = cc_q0a.qforw; p != &cc_q0a; p = p->qforw)
318                     p->hback = NULL;
319           for (p = cc_q1a.qforw; p != &cc_q1a; p = p->qforw)
320                     p->hback = NULL;
321 }
322 
323 void
ccend(void)324 ccend(void)
325 {
326 
327           ttflush();
328           tt_obp = tt_ob = cc_tt_ob;
329           tt_obe = cc_tt_obe;
330           tt.tt_flush = 0;
331           if (cc_trace_fp != NULL) {
332                     (void) fclose(cc_trace_fp);
333                     cc_trace_fp = NULL;
334           }
335 }
336 
337 void
ccflush(void)338 ccflush(void)
339 {
340           int bufsize = tt_obp - tt_ob;
341           int n;
342 
343           if (tt_ob != cc_buffer)
344                     abort();
345           if (cc_trace_fp != NULL) {
346                     (void) fwrite(tt_ob, 1, bufsize, cc_trace_fp);
347                     (void) putc(-1, cc_trace_fp);
348           }
349           tt.tt_flush = 0;
350           (*tt.tt_compress)(1);
351           if (bufsize < tt.tt_token_min) {
352                     ttflush();
353                     goto out;
354           }
355           tt_obp = tt_ob = cc_tt_ob;
356           tt_obe = cc_tt_obe;
357           cc_time0 = cc_time;
358           cc_time += bufsize;
359           n = cc_sweep_phase(cc_buffer, bufsize, cc_tokens);
360           cc_compress_phase(cc_output, bufsize, cc_tokens, n);
361           cc_output_phase(cc_buffer, cc_output, bufsize);
362           ttflush();
363           tt_obp = tt_ob = cc_buffer;
364           tt_obe = cc_buffer + cc_bufsize;
365 out:
366           (*tt.tt_compress)(0);
367           tt.tt_flush = ccflush;
368 }
369 
370 int
cc_sweep_phase(char * buffer,int bufsize,struct cc ** tokens)371 cc_sweep_phase(char *buffer, int bufsize, struct cc **tokens)
372 {
373           struct cc **pp = tokens;
374           int i, n;
375 #ifdef STATS
376           int nn, ii;
377 #endif
378 
379 #ifdef STATS
380           if (verbose >= 0)
381                     time_begin();
382           if (verbose > 0)
383                     printf("Sweep:");
384 #endif
385           cc_sweep0(buffer, bufsize, tt.tt_token_min - 1);
386 #ifdef STATS
387           ntoken_stat = 0;
388           nn = 0;
389           ii = 0;
390 #endif
391           for (i = tt.tt_token_min; i <= tt.tt_token_max; i++) {
392 #ifdef STATS
393                     if (verbose > 0) {
394                               if (ii > 7) {
395                                         printf("\n      ");
396                                         ii = 0;
397                               }
398                               ii++;
399                               printf(" (%d", i);
400                               (void) fflush(stdout);
401                     }
402 #endif
403                     n = cc_sweep(buffer, bufsize, pp, i);
404                     pp += n;
405 #ifdef STATS
406                     if (verbose > 0) {
407                               if (--n > 0) {
408                                         printf(" %d", n);
409                                         nn += n;
410                               }
411                               putchar(')');
412                     }
413 #endif
414           }
415           qinsertq(&cc_q1b, &cc_q1a);
416 #ifdef STATS
417           if (verbose > 0)
418                     printf("\n       %d tokens, %d candidates\n",
419                               ntoken_stat, nn);
420           if (verbose >= 0)
421                     time_end();
422 #endif
423           return pp - tokens;
424 }
425 
426 void
cc_sweep0(char * buffer,int n,int length)427 cc_sweep0(char *buffer, int n, int length)
428 {
429           char *p;
430           short *hc;
431           int i;
432           short c;
433           short pc = tt.tt_padc;
434 
435           /* n and length are at least 1 */
436           p = buffer++;
437           hc = cc_hashcodes;
438           i = n;
439           do {
440                     if ((*hc++ = *p++) == pc)
441                               hc[-1] = -1;
442           } while (--i);
443           while (--length) {
444                     p = buffer++;
445                     hc = cc_hashcodes;
446                     for (i = n--; --i;) {
447                               if ((c = *p++) == pc || *hc < 0)
448                                         c = -1;
449                               else
450                                         c = hash(*hc, c);
451                               *hc++ = c;
452                     }
453           }
454 }
455 
456 int
cc_sweep(char * buffer,int bufsize,struct cc ** tokens,int length)457 cc_sweep(char *buffer, int bufsize, struct cc **tokens, int length)
458 {
459           struct cc *p;
460           char *cp;
461           int i;
462           short *hc;
463           short *places = cc_places[length];
464           struct cc **pp = tokens;
465           short threshold = thresh(length);
466 #ifndef cc_weight
467           short wthreshold = wthresh(length);
468           short limit = wlimit(length);
469 #endif
470           int time0;
471           short pc = tt.tt_padc;
472 
473           i = length - 1;
474           bufsize -= i;
475           cp = buffer + i;
476           hc = cc_hashcodes;
477           time0 = cc_time0;
478           for (i = 0; i < bufsize; i++, time0++) {
479                     struct cc **h;
480 
481                     {
482                               short *hc1 = hc;
483                               short c = *cp++;
484                               short hh;
485                               if ((hh = *hc1) < 0 || c == pc) {
486                                         *hc1++ = -1;
487                                         hc = hc1;
488                                         continue;
489                               }
490                               h = cc_htab + (*hc1++ = hash(hh, c));
491                               hc = hc1;
492                     }
493                     for (p = *h; p != NULL; p = p->hforw)
494                               if (p->length == (char) length) {
495                                         char *p1 = p->string;
496                                         char *p2 = cp - length;
497                                         int n = length;
498                                         do
499                                                   if (*p1++ != *p2++)
500                                                             goto fail;
501                                         while (--n);
502                                         break;
503                               fail:;
504                               }
505                     if (p == NULL) {
506                               p = cc_q1a.qback;
507                               if (p == &cc_q1a ||
508                                   (p->time >= cc_time0 && p->length == (char) length))
509                                         continue;
510                               if (p->hback != NULL)
511                                         if ((*p->hback = p->hforw) != NULL)
512                                                   p->hforw->hback = p->hback;
513                               {
514                                         char *p1 = p->string;
515                                         char *p2 = cp - length;
516                                         int n = length;
517                                         do
518                                                   *p1++ = *p2++;
519                                         while (--n);
520                               }
521                               p->length = length;
522 #ifndef cc_weight
523                               p->weight = cc_weight;
524 #endif
525                               p->time = time0;
526                               p->bcount = 1;
527                               p->ccount = 0;
528                               p->flag = 0;
529                               if ((p->hforw = *h) != NULL)
530                                         p->hforw->hback = &p->hforw;
531                               *h = p;
532                               p->hback = h;
533                               qinsert(p, &cc_q1a);
534                               places[i] = -1;
535                               p->places = i;
536 #ifdef STATS
537                               ntoken_stat++;
538 #endif
539                     } else if (p->time < cc_time0) {
540 #ifndef cc_weight
541                               if ((p->weight += p->time - time0) < 0)
542                                         p->weight = cc_weight;
543                               else if ((p->weight += cc_weight) > limit)
544                                         p->weight = limit;
545 #endif
546                               p->time = time0;
547                               p->bcount = 1;
548                               p->ccount = 0;
549                               if (p->code >= 0) {
550                                         p->flag = 1;
551                                         *pp++ = p;
552                               } else
553 #ifndef cc_weight
554                               if (p->weight >= wthreshold) {
555                                         p->flag = 1;
556                                         *pp++ = p;
557                                         qinsert(p, &cc_q1b);
558                               } else
559 #endif
560                               {
561                                         p->flag = 0;
562                                         qinsert(p, &cc_q1a);
563                               }
564                               places[i] = -1;
565                               p->places = i;
566 #ifdef STATS
567                               ntoken_stat++;
568 #endif
569                     } else if (p->time + length > time0) {
570                               /*
571                                * overlapping token, don't count as two and
572                                * don't update time0, but do adjust weight to offset
573                                * the difference
574                                */
575 #ifndef cc_weight
576                               if (cc_weight != 0) {         /* XXX */
577                                         p->weight += time0 - p->time;
578                                         if (!p->flag && p->weight >= wthreshold) {
579                                                   p->flag = 1;
580                                                   *pp++ = p;
581                                                   qinsert(p, &cc_q1b);
582                                         }
583                               }
584 #endif
585                               places[i] = p->places;
586                               p->places = i;
587                     } else {
588 #ifndef cc_weight
589                               if ((p->weight += p->time - time0) < 0)
590                                         p->weight = cc_weight;
591                               else if ((p->weight += cc_weight) > limit)
592                                         p->weight = limit;
593 #endif
594                               p->time = time0;
595                               p->bcount++;
596                               if (!p->flag &&
597                                   /* code must be < 0 if flag false here */
598                                   (p->bcount >= threshold
599 #ifndef cc_weight
600                                    || p->weight >= wthreshold
601 #endif
602                                    )) {
603                                         p->flag = 1;
604                                         *pp++ = p;
605                                         qinsert(p, &cc_q1b);
606                               }
607                               places[i] = p->places;
608                               p->places = i;
609                     }
610           }
611           if ((i = pp - tokens) > 0) {
612                     *pp = NULL;
613                     if (cc_reverse)
614                               cc_sweep_reverse(tokens, places);
615                     if (cc_sort && i > 1) {
616                               qsort((char *) tokens, i, sizeof *tokens,
617                                     cc_token_compare);
618                     }
619                     if (cc_chop) {
620                               if ((i = i * cc_chop / 100) == 0)
621                                         i = 1;
622                               tokens[i] = NULL;
623                     }
624                     i++;
625           }
626           return i;
627 }
628 
629 void
cc_sweep_reverse(struct cc ** pp,short int * places)630 cc_sweep_reverse(struct cc **pp, short int *places)
631 {
632           struct cc *p;
633           short frnt, back, t;
634 
635           while ((p = *pp++) != NULL) {
636                     back = -1;
637                     t = p->places;
638                     /* the list is never empty */
639                     do {
640                               frnt = places[t];
641                               places[t] = back;
642                               back = t;
643                     } while ((t = frnt) >= 0);
644                     p->places = back;
645           }
646 }
647 
648 void
cc_compress_phase(struct cc ** output,int bufsize,struct cc ** tokens,int ntoken)649 cc_compress_phase(struct cc **output, int bufsize, struct cc **tokens, int ntoken)
650 {
651           int i;
652 
653           memset((char *) output, 0, bufsize * sizeof *output);
654           for (i = 0; i < cc_npass0; i++)
655                     cc_compress_phase1(output, tokens, ntoken, 0);
656           for (i = 0; i < cc_npass1; i++)
657                     cc_compress_phase1(output, tokens, ntoken, 1);
658           cc_compress_cleanup(output, bufsize);
659 }
660 
661 void
cc_compress_phase1(struct cc ** output,struct cc ** tokens,int ntoken,int flag)662 cc_compress_phase1(struct cc **output, struct cc **tokens, int ntoken, int flag)
663 {
664           struct cc **pp;
665 #ifdef STATS
666           int i = 0;
667           int nt = 0, cc = 0, nc = 0;
668 #endif
669 
670 #ifdef STATS
671           if (verbose >= 0)
672                     time_begin();
673           if (verbose > 0)
674                     printf("Compress:");
675 #endif
676           pp = tokens;
677           while (pp < tokens + ntoken) {
678 #ifdef STATS
679                     if (verbose > 0) {
680                               ntoken_stat = 0;
681                               ccount_stat = 0;
682                               ncover_stat = 0;
683                               if (i > 2) {
684                                         printf("\n         ");
685                                         i = 0;
686                               }
687                               i++;
688                               printf(" (%d", (*pp)->length);
689                               (void) fflush(stdout);
690                     }
691 #endif
692                     pp += cc_compress(output, pp, flag);
693 #ifdef STATS
694                     if (verbose > 0) {
695                               printf(" %dt %du %dc)", ntoken_stat, ccount_stat,
696                                      ncover_stat);
697                               nt += ntoken_stat;
698                               cc += ccount_stat;
699                               nc += ncover_stat;
700                     }
701 #endif
702           }
703 #ifdef STATS
704           if (verbose > 0)
705                     printf("\n   total: (%dt %du %dc)\n", nt, cc, nc);
706           if (verbose >= 0)
707                     time_end();
708 #endif
709 }
710 
711 void
cc_compress_cleanup(struct cc ** output,int bufsize)712 cc_compress_cleanup(struct cc **output, int bufsize)
713 {
714           struct cc **end;
715 
716           /* the previous output phase may have been interrupted */
717           qinsertq(&cc_q0b, &cc_q0a);
718           for (end = output + bufsize; output < end;) {
719                     struct cc *p;
720                     int length;
721                     if ((p = *output) == NULL) {
722                               output++;
723                               continue;
724                     }
725                     length = p->length;
726                     if (!p->flag) {
727                     } else if (p->code >= 0) {
728                               qinsert(p, &cc_q0b);
729                               p->flag = 0;
730                     } else if (p->ccount == 0) {
731                               *output = NULL;
732                     } else if (p->ccount >= thresh(length)
733 #ifndef cc_weight
734                                  || wthreshp(p->weight, length)
735 #endif
736                                  ) {
737                               p->flag = 0;
738                     } else {
739                               p->ccount = 0;
740                               *output = NULL;
741                     }
742                     output += length;
743           }
744 }
745 
746 int
cc_compress(struct cc ** output,struct cc ** tokens,char flag)747 cc_compress(struct cc **output, struct cc **tokens, char flag)
748 {
749           struct cc **pp = tokens;
750           struct cc *p = *pp++;
751           int length = p->length;
752           int threshold = thresh(length);
753 #ifndef cc_weight
754           short wthreshold = wthresh(length);
755 #endif
756           short *places = cc_places[length];
757           int *initial_scores = cc_initial_scores[length];
758           int initial_score0 = put_token_score(length);
759 
760           do {
761                     int score;
762                     struct cc_undo *undop;
763                     int ccount;
764 #ifdef STATS
765                     int ncover;
766 #endif
767                     int i;
768 
769                     ccount = p->ccount;
770                     if ((short) ccount >= p->bcount)
771                               continue;
772                     if (p->code >= 0 || ccount >= threshold)
773                               score = 0;
774 #ifndef cc_weight
775                     else if (p->weight >= wthreshold)
776                               /* allow one fewer match than normal */
777                               /* XXX, should adjust for ccount */
778                               score = - tt.tt_set_token_cost;
779 #endif
780                     else
781                               score = initial_scores[ccount];
782                     undop = cc_undo;
783 #ifdef STATS
784                     ncover = 0;
785 #endif
786                     for (i = p->places; i >= 0; i = places[i]) {
787                               struct cc **jp;
788                               struct cc *x;
789                               struct cc **ip = output + i;
790                               int score0 = initial_score0;
791                               struct cc **iip = ip + length;
792                               struct cc_undo *undop1 = undop;
793 
794                               if ((x = *(jp = ip)) != NULL)
795                                         goto z;
796                               while (--jp >= output)
797                                         if ((x = *jp) != NULL) {
798                                                   if (jp + x->length > ip)
799                                                             goto z;
800                                                   break;
801                                         }
802                               jp = ip + 1;
803                               while (jp < iip) {
804                                         if ((x = *jp) == NULL) {
805                                                   jp++;
806                                                   continue;
807                                         }
808                               z:
809                                         if (x == p)
810                                                   goto undo;
811 #ifdef STATS
812                                         ncover++;
813 #endif
814                                         undop->pos = jp;
815                                         undop->val = x;
816                                         undop++;
817                                         *jp = NULL;
818                                         x->ccount--;
819                                         score_adjust(score0, x);
820                                         if (score0 < 0 && flag)
821                                                   goto undo;
822                                         jp += x->length;
823                               }
824                               undop->pos = ip;
825                               undop->val = NULL;
826                               undop++;
827                               *ip = p;
828                               ccount++;
829                               score += score0;
830                               continue;
831                     undo:
832                               while (--undop >= undop1)
833                                         if ((*undop->pos = x = undop->val))
834                                                   x->ccount++;
835                               undop++;
836                     }
837                     if (score > 0) {
838 #ifdef STATS
839                               ccount_stat += ccount - p->ccount;
840                               ntoken_stat++;
841                               ncover_stat += ncover;
842 #endif
843                               p->ccount = ccount;
844                     } else {
845                               struct cc_undo *u = cc_undo;
846                               while (--undop >= u) {
847                                         struct cc *x;
848                                         if ((*undop->pos = x = undop->val))
849                                                   x->ccount++;
850                               }
851                     }
852           } while ((p = *pp++) != NULL);
853           return pp - tokens;
854 }
855 
856 void
cc_output_phase(char * buffer,struct cc ** output,int bufsize)857 cc_output_phase(char *buffer, struct cc **output, int bufsize)
858 {
859           int i;
860           struct cc *p, *p1;
861 
862           for (i = 0; i < bufsize;) {
863                     if ((p = output[i]) == NULL) {
864                               ttputc(buffer[i]);
865                               i++;
866                     } else if (p->code >= 0) {
867                               if (--p->ccount == 0)
868                                         qinsert(p, &cc_q0a);
869                               (*tt.tt_put_token)(p->code, p->string, p->length);
870                               wwntokuse++;
871                               wwntoksave += put_token_score(p->length);
872                               i += p->length;
873                     } else if ((p1 = cc_q0a.qback) != &cc_q0a) {
874                               p->code = p1->code;
875                               p1->code = -1;
876                               qinsert(p1, &cc_q1a);
877                               if (--p->ccount == 0)
878                                         qinsert(p, &cc_q0a);
879                               else
880                                         qinsert(p, &cc_q0b);
881                               (*tt.tt_set_token)(p->code, p->string, p->length);
882                               wwntokdef++;
883                               wwntoksave -= tt.tt_set_token_cost;
884                               i += p->length;
885                     } else {
886                               p->ccount--;
887                               ttwrite(p->string, p->length);
888                               wwntokbad++;
889                               i += p->length;
890                     }
891           }
892           wwntokc += bufsize;
893 }
894 
895 int
cc_token_compare(const void * p1,const void * p2)896 cc_token_compare(const void *p1, const void *p2)
897 {
898           const struct cc * const * vp1 = p1;
899           const struct cc * const * vp2 = p2;
900           return (*vp2)->bcount - (*vp1)->bcount;
901 }
902