3252 Need a proper flock() implementation
[unleashed.git] / usr / src / cmd / troff / n7.c
blob50133a6e56d9beaff4fadcaf728c9d9e93553a21
1 /*
2 * CDDL HEADER START
4 * The contents of this file are subject to the terms of the
5 * Common Development and Distribution License, Version 1.0 only
6 * (the "License"). You may not use this file except in compliance
7 * with the License.
9 * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
10 * or http://www.opensolaris.org/os/licensing.
11 * See the License for the specific language governing permissions
12 * and limitations under the License.
14 * When distributing Covered Code, include this CDDL HEADER in each
15 * file and include the License file at usr/src/OPENSOLARIS.LICENSE.
16 * If applicable, add the following below this CDDL HEADER, with the
17 * fields enclosed by brackets "[]" replaced with your own identifying
18 * information: Portions Copyright [yyyy] [name of copyright owner]
20 * CDDL HEADER END
23 * Copyright 2003 Sun Microsystems, Inc. All rights reserved.
24 * Use is subject to license terms.
27 /* Copyright (c) 1984, 1986, 1987, 1988, 1989 AT&T */
28 /* All Rights Reserved */
31 * University Copyright- Copyright (c) 1982, 1986, 1988
32 * The Regents of the University of California
33 * All Rights Reserved
35 * University Acknowledgment- Portions of this document are derived from
36 * software developed by the University of California, Berkeley, and its
37 * contributors.
40 #pragma ident "%Z%%M% %I% %E% SMI"
42 #ifdef EUC
43 #ifdef NROFF
44 #include <stdlib.h>
45 #include <widec.h>
46 #include <limits.h>
47 #endif /* NROFF */
48 #endif /* EUC */
49 #include "tdef.h"
50 #ifdef NROFF
51 #include "tw.h"
52 #endif
53 #ifdef NROFF
54 #define GETCH gettch
55 tchar gettch();
56 #endif
57 #ifndef NROFF
58 #define GETCH getch
59 #endif
62 * troff7.c
64 * text
67 #include <ctype.h>
68 #ifdef EUC
69 #ifdef NROFF
70 #include <wctype.h>
71 #endif /* NROFF */
72 #endif /* EUC */
73 #include "ext.h"
74 #ifdef EUC
75 #ifdef NROFF
76 char mbbuf2[MB_LEN_MAX + 1];
77 char *mbbuf2p = mbbuf2;
78 tchar mtbuf[MB_LEN_MAX + 1];
79 tchar *mtbufp;
80 int pendmb = 0;
81 wchar_t cwc, owc, wceoll;
82 #endif /* NROFF */
83 #endif /* EUC */
84 int brflg;
86 int
87 tbreak()
89 int pad, k;
90 tchar *i, j;
91 int resol = 0;
92 #ifdef EUC
93 #ifdef NROFF
94 tchar l;
95 #endif /* NROFF */
96 #endif /* EUC */
98 trap = 0;
99 if (nb)
100 return (0);
101 if (dip == d && numtab[NL].val == -1) {
102 newline(1);
103 return (0);
105 if (!nc) {
106 setnel();
107 if (!wch)
108 return (0);
109 if (pendw)
110 getword(1);
111 movword();
112 } else if (pendw && !brflg) {
113 getword(1);
114 movword();
116 *linep = dip->nls = 0;
117 #ifdef NROFF
118 if (dip == d)
119 horiz(po);
120 #endif
121 if (lnmod)
122 donum();
123 lastl = ne;
124 if (brflg != 1) {
125 totout = 0;
126 } else if (ad) {
127 if ((lastl = ll - un) < ne)
128 lastl = ne;
130 if (admod && ad && (brflg != 2)) {
131 lastl = ne;
132 adsp = adrem = 0;
133 if (admod == 1)
134 un += quant(nel / 2, HOR);
135 else if (admod == 2)
136 un += nel;
138 totout++;
139 brflg = 0;
140 if (lastl + un > dip->maxl)
141 dip->maxl = lastl + un;
142 horiz(un);
143 #ifdef NROFF
144 if (adrem % t.Adj)
145 resol = t.Hor;
146 else
147 resol = t.Adj;
148 #else
149 resol = HOR;
150 #endif
151 adrem = (adrem / resol) * resol;
152 for (i = line; nc > 0; ) {
153 #ifndef EUC
154 if ((cbits(j = *i++)) == ' ') {
155 #else
156 #ifndef NROFF
157 if ((cbits(j = *i++)) == ' ') {
158 #else
159 if ((cbits(j = *i++) & ~MBMASK) == ' ') {
160 #endif /* NROFF */
161 #endif /* EUC */
162 pad = 0;
163 do {
164 pad += width(j);
165 nc--;
166 #ifndef EUC
167 } while ((cbits(j = *i++)) == ' ');
168 #else
169 #ifndef NROFF
170 } while ((cbits(j = *i++)) == ' ');
171 #else
172 } while ((cbits(j = *i++) & ~MBMASK) == ' ');
173 #endif /* NROFF */
174 #endif /* EUC */
175 i--;
176 pad += adsp;
177 --nwd;
178 if (adrem) {
179 if (adrem < 0) {
180 pad -= resol;
181 adrem += resol;
182 } else if ((totout & 01) || adrem / resol >= nwd) {
183 pad += resol;
184 adrem -= resol;
187 pchar((tchar) WORDSP);
188 horiz(pad);
189 } else {
190 pchar(j);
191 nc--;
194 if (ic) {
195 if ((k = ll - un - lastl + ics) > 0)
196 horiz(k);
197 pchar(ic);
199 if (icf)
200 icf++;
201 else
202 ic = 0;
203 ne = nwd = 0;
204 un = in;
205 setnel();
206 newline(0);
207 if (dip != d) {
208 if (dip->dnl > dip->hnl)
209 dip->hnl = dip->dnl;
210 } else {
211 if (numtab[NL].val > dip->hnl)
212 dip->hnl = numtab[NL].val;
214 for (k = ls - 1; k > 0 && !trap; k--)
215 newline(0);
216 spread = 0;
218 return (0);
222 donum()
224 int i, nw;
225 extern int pchar();
227 nrbits = nmbits;
228 nw = width('1' | nrbits);
229 if (nn) {
230 nn--;
231 goto d1;
233 if (numtab[LN].val % ndf) {
234 numtab[LN].val++;
236 un += nw * (3 + nms + ni);
237 return (0);
239 i = 0;
240 if (numtab[LN].val < 100)
241 i++;
242 if (numtab[LN].val < 10)
243 i++;
244 horiz(nw * (ni + i));
245 nform = 0;
246 fnumb(numtab[LN].val, pchar);
247 un += nw * nms;
248 numtab[LN].val++;
250 return (0);
253 extern int logf;
256 text()
258 tchar i;
259 static int spcnt;
261 nflush++;
262 numtab[HP].val = 0;
263 if ((dip == d) && (numtab[NL].val == -1)) {
264 newline(1);
265 return (0);
267 setnel();
268 if (ce || !fi) {
269 nofill();
270 return (0);
272 if (pendw)
273 goto t4;
274 if (pendt)
275 if (spcnt)
276 goto t2;
277 else
278 goto t3;
279 pendt++;
280 if (spcnt)
281 goto t2;
282 while ((cbits(i = GETCH())) == ' ') {
283 spcnt++;
284 numtab[HP].val += sps;
285 widthp = sps;
287 if (nlflg) {
289 nflush = pendt = ch = spcnt = 0;
290 callsp();
291 return (0);
293 ch = i;
294 if (spcnt) {
296 tbreak();
297 if (nc || wch)
298 goto rtn;
299 un += spcnt * sps;
300 spcnt = 0;
301 setnel();
302 if (trap)
303 goto rtn;
304 if (nlflg)
305 goto t1;
308 if (spread)
309 goto t5;
310 if (pendw || !wch)
312 if (getword(0))
313 goto t6;
314 if (!movword())
315 goto t3;
317 if (nlflg)
318 pendt = 0;
319 adsp = adrem = 0;
320 if (ad) {
321 if (nwd == 1)
322 adsp = nel;
323 else
324 adsp = nel / (nwd - 1);
325 adsp = (adsp / HOR) * HOR;
326 adrem = nel - adsp*(nwd-1);
328 brflg = 1;
329 tbreak();
330 spread = 0;
331 if (!trap)
332 goto t3;
333 if (!nlflg)
334 goto rtn;
336 pendt = 0;
337 ckul();
338 rtn:
339 nflush = 0;
341 return (0);
346 nofill()
348 int j;
349 tchar i;
351 if (!pendnf) {
352 over = 0;
353 tbreak();
354 if (trap)
355 goto rtn;
356 if (nlflg) {
357 ch = nflush = 0;
358 callsp();
359 return (0);
361 adsp = adrem = 0;
362 nwd = 10000;
364 while ((j = (cbits(i = GETCH()))) != '\n') {
365 if (j == ohc)
366 continue;
367 if (j == CONT) {
368 pendnf++;
369 nflush = 0;
370 flushi();
371 ckul();
372 return (0);
374 j = width(i);
375 widthp = j;
376 numtab[HP].val += j;
377 storeline(i, j);
379 if (ce) {
380 ce--;
381 if ((i = quant(nel / 2, HOR)) > 0)
382 un += i;
384 if (!nc)
385 storeline((tchar)FILLER, 0);
386 brflg = 2;
387 tbreak();
388 ckul();
389 rtn:
390 pendnf = nflush = 0;
392 return (0);
397 callsp()
399 int i;
401 if (flss)
402 i = flss;
403 else
404 i = lss;
405 flss = 0;
406 casesp(i);
408 return (0);
413 ckul()
415 if (ul && (--ul == 0)) {
416 cu = 0;
417 font = sfont;
418 mchbits();
420 if (it && (--it == 0) && itmac)
421 control(itmac, 0);
423 return (0);
428 storeline(c, w)
429 tchar c;
431 if (linep >= line + lnsize - 1) {
432 if (!over) {
433 flusho();
434 errprint(gettext("Line overflow."));
435 over++;
436 c = LEFTHAND;
437 w = -1;
438 goto s1;
440 return (0);
443 if (w == -1)
444 w = width(c);
445 ne += w;
446 nel -= w;
447 *linep++ = c;
448 nc++;
450 return (0);
455 newline(a)
456 int a;
458 int i, j, nlss;
459 int opn;
461 if (a)
462 goto nl1;
463 if (dip != d) {
464 j = lss;
465 pchar1((tchar)FLSS);
466 if (flss)
467 lss = flss;
468 i = lss + dip->blss;
469 dip->dnl += i;
470 pchar1((tchar)i);
471 pchar1((tchar)'\n');
472 lss = j;
473 dip->blss = flss = 0;
474 if (dip->alss) {
475 pchar1((tchar)FLSS);
476 pchar1((tchar)dip->alss);
477 pchar1((tchar)'\n');
478 dip->dnl += dip->alss;
479 dip->alss = 0;
481 if (dip->ditrap && !dip->ditf && dip->dnl >= dip->ditrap && dip->dimac)
482 if (control(dip->dimac, 0)) {
483 trap++;
484 dip->ditf++;
486 return (0);
488 j = lss;
489 if (flss)
490 lss = flss;
491 nlss = dip->alss + dip->blss + lss;
492 numtab[NL].val += nlss;
493 #ifndef NROFF
494 if (ascii) {
495 dip->alss = dip->blss = 0;
497 #endif
498 pchar1((tchar)'\n');
499 flss = 0;
500 lss = j;
501 if (numtab[NL].val < pl)
502 goto nl2;
503 nl1:
504 ejf = dip->hnl = numtab[NL].val = 0;
505 ejl = frame;
506 if (donef) {
507 if ((!nc && !wch) || ndone)
508 done1(0);
509 ndone++;
510 donef = 0;
511 if (frame == stk)
512 nflush++;
514 opn = numtab[PN].val;
515 numtab[PN].val++;
516 if (npnflg) {
517 numtab[PN].val = npn;
518 npn = npnflg = 0;
520 nlpn:
521 if (numtab[PN].val == pfrom) {
522 print++;
523 pfrom = -1;
524 } else if (opn == pto) {
525 print = 0;
526 opn = -1;
527 chkpn();
528 goto nlpn;
530 if (print)
531 newpage(numtab[PN].val); /* supposedly in a clean state so can pause */
532 if (stop && print) {
533 dpn++;
534 if (dpn >= stop) {
535 dpn = 0;
536 dostop();
539 nl2:
540 trap = 0;
541 if (numtab[NL].val == 0) {
542 if ((j = findn(0)) != NTRAP)
543 trap = control(mlist[j], 0);
544 } else if ((i = findt(numtab[NL].val - nlss)) <= nlss) {
545 if ((j = findn1(numtab[NL].val - nlss + i)) == NTRAP) {
546 flusho();
547 errprint(gettext("Trap botch."));
548 done2(-5);
550 trap = control(mlist[j], 0);
553 return (0);
558 findn1(a)
559 int a;
561 int i, j;
563 for (i = 0; i < NTRAP; i++) {
564 if (mlist[i]) {
565 if ((j = nlist[i]) < 0)
566 j += pl;
567 if (j == a)
568 break;
571 return(i);
575 chkpn()
577 pto = *(pnp++);
578 pfrom = pto>=0 ? pto : -pto;
579 if (pto == -32767) {
580 flusho();
581 done1(0);
583 if (pto < 0) {
584 pto = -pto;
585 print++;
586 pfrom = 0;
589 return (0);
594 findt(a)
595 int a;
597 int i, j, k;
599 k = 32767;
600 if (dip != d) {
601 if (dip->dimac && (i = dip->ditrap - a) > 0)
602 k = i;
603 return(k);
605 for (i = 0; i < NTRAP; i++) {
606 if (mlist[i]) {
607 if ((j = nlist[i]) < 0)
608 j += pl;
609 if ((j -= a) <= 0)
610 continue;
611 if (j < k)
612 k = j;
615 i = pl - a;
616 if (k > i)
617 k = i;
618 return(k);
623 findt1()
625 int i;
627 if (dip != d)
628 i = dip->dnl;
629 else
630 i = numtab[NL].val;
631 return(findt(i));
636 eject(a)
637 struct s *a;
639 int savlss;
641 if (dip != d)
642 return (0);
643 ejf++;
644 if (a)
645 ejl = a;
646 else
647 ejl = frame;
648 if (trap)
649 return (0);
651 savlss = lss;
652 lss = findt(numtab[NL].val);
653 newline(0);
654 lss = savlss;
655 if (numtab[NL].val && !trap)
656 goto e1;
658 return (0);
663 movword()
665 int w;
666 tchar i, *wp;
667 int savwch, hys;
669 over = 0;
670 wp = wordp;
671 if (!nwd) {
672 #ifndef EUC
673 while (cbits(i = *wp++) == ' ') {
674 #else
675 #ifndef NROFF
676 while (cbits(i = *wp++) == ' ') {
677 #else
678 while ((cbits(i = *wp++) & ~MBMASK) == ' ') {
679 #endif /* NROFF */
680 #endif /* EUC */
681 wch--;
682 wne -= sps;
684 wp--;
686 if (wne > nel && !hyoff && hyf && (!nwd || nel > 3 * sps) &&
687 (!(hyf & 02) || (findt1() > lss)))
688 hyphen(wp);
689 savwch = wch;
690 hyp = hyptr;
691 nhyp = 0;
692 while (*hyp && *hyp <= wp)
693 hyp++;
694 while (wch) {
695 if (hyoff != 1 && *hyp == wp) {
696 hyp++;
697 if (!wdstart || (wp > wdstart + 1 && wp < wdend &&
698 (!(hyf & 04) || wp < wdend - 1) && /* 04 => last 2 */
699 (!(hyf & 010) || wp > wdstart + 2))) { /* 010 => 1st 2 */
700 nhyp++;
701 storeline((tchar)IMP, 0);
704 i = *wp++;
705 w = width(i);
706 wne -= w;
707 wch--;
708 storeline(i, w);
710 if (nel >= 0) {
711 nwd++;
712 return(0); /* line didn't fill up */
714 #ifndef NROFF
715 xbits((tchar)HYPHEN, 1);
716 #endif
717 hys = width((tchar)HYPHEN);
719 if (!nhyp) {
720 if (!nwd)
721 goto m3;
722 if (wch == savwch)
723 goto m4;
725 if (*--linep != IMP)
726 goto m5;
727 if (!(--nhyp))
728 if (!nwd)
729 goto m2;
730 if (nel < hys) {
731 nc--;
732 goto m1;
735 if ((i = cbits(*(linep - 1))) != '-' && i != EMDASH) {
736 *linep = (*(linep - 1) & SFMASK) | HYPHEN;
737 w = width(*linep);
738 nel -= w;
739 ne += w;
740 linep++;
743 nwd++;
745 wordp = wp;
746 return(1); /* line filled up */
748 nc--;
749 w = width(*linep);
750 ne -= w;
751 nel += w;
752 wne += w;
753 wch++;
754 wp--;
755 goto m1;
759 int
760 horiz(i)
761 int i;
763 vflag = 0;
764 if (i)
765 pchar(makem(i));
767 return (0);
772 setnel()
774 if (!nc) {
775 linep = line;
776 if (un1 >= 0) {
777 un = un1;
778 un1 = -1;
780 nel = ll - un;
781 ne = adsp = adrem = 0;
784 return (0);
788 getword(x)
789 int x;
791 int j, k;
792 tchar i, *wp;
793 int noword;
794 #ifdef EUC
795 #ifdef NROFF
796 wchar_t *wddelim;
797 char mbbuf3[MB_LEN_MAX + 1];
798 char *mbbuf3p;
799 int wbf, n;
800 tchar m;
801 #endif /* NROFF */
802 #endif /* EUC */
804 noword = 0;
805 if (x)
806 if (pendw) {
807 *pendw = 0;
808 goto rtn;
810 if (wordp = pendw)
811 goto g1;
812 hyp = hyptr;
813 wordp = word;
814 over = wne = wch = 0;
815 hyoff = 0;
816 #ifdef EUC
817 #ifdef NROFF
818 mtbufp = mtbuf;
819 if (pendmb) {
820 while(*mtbufp) {
821 switch(*mtbufp & MBMASK) {
822 case LASTOFMB:
823 case BYTE_CHR:
824 storeword(*mtbufp++, -1);
825 break;
827 default:
828 storeword(*mtbufp++, 0);
831 mtbufp = mtbuf;
832 pendmb = 0;
833 goto g1;
835 #endif /* NROFF */
836 #endif /* EUC */
837 while (1) { /* picks up 1st char of word */
838 j = cbits(i = GETCH());
839 #ifdef EUC
840 #ifdef NROFF
841 if (multi_locale)
842 if (collectmb(i))
843 continue;
844 #endif /* NROFF */
845 #endif /* EUC */
846 if (j == '\n') {
847 wne = wch = 0;
848 noword = 1;
849 goto rtn;
851 if (j == ohc) {
852 hyoff = 1; /* 1 => don't hyphenate */
853 continue;
855 if (j == ' ') {
856 numtab[HP].val += sps;
857 widthp = sps;
858 storeword(i, sps);
859 continue;
861 break;
863 #ifdef EUC
864 #ifdef NROFF
865 if (!multi_locale)
866 goto a0;
867 if (wddlm && iswprint(wceoll) && iswprint(cwc) &&
868 (!iswascii(wceoll) || !iswascii(cwc)) &&
869 !iswspace(wceoll) && !iswspace(cwc)) {
870 wddelim = (*wddlm)(wceoll, cwc, 1);
871 wceoll = 0;
872 if (*wddelim != ' ') {
873 if (!*wddelim) {
874 storeword(((*wdbdg)(wceoll, cwc, 1) < 3) ?
875 ZWDELIM(1) : ZWDELIM(2), 0);
876 } else {
877 while (*wddelim) {
878 if ((n = wctomb(mbbuf3, *wddelim++))
879 > 0) {
880 mbbuf3[n] = 0;
881 n--;
882 mbbuf3p = mbbuf3 + n;
883 while(n) {
884 m = *(mbbuf3p-- - n--) &
885 0xff | MIDDLEOFMB |
886 ZBIT;
887 storeword(m, 0);
889 m = *mbbuf3p & 0xff | LASTOFMB;
890 storeword(m, -1);
891 } else {
892 storeword(' ' | chbits, sps);
893 break;
897 spflg = 0;
898 goto g0;
902 #endif /* NROFF */
903 #endif /* EUC */
904 storeword(' ' | chbits, sps);
905 if (spflg) {
906 storeword(' ' | chbits, sps);
907 spflg = 0;
910 if (j == CONT) {
911 pendw = wordp;
912 nflush = 0;
913 flushi();
914 return(1);
916 if (hyoff != 1) {
917 if (j == ohc) {
918 hyoff = 2;
919 *hyp++ = wordp;
920 if (hyp > (hyptr + NHYP - 1))
921 hyp = hyptr + NHYP - 1;
922 goto g1;
924 if (j == '-' || j == EMDASH)
925 if (wordp > word + 1) {
926 hyoff = 2;
927 *hyp++ = wordp + 1;
928 if (hyp > (hyptr + NHYP - 1))
929 hyp = hyptr + NHYP - 1;
932 j = width(i);
933 numtab[HP].val += j;
934 #ifndef EUC
935 storeword(i, j);
936 #else
937 #ifndef NROFF
938 storeword(i, j);
939 #else
940 if (multi_locale) {
941 mtbufp = mtbuf;
942 while(*mtbufp) {
943 switch(*mtbufp & MBMASK) {
944 case LASTOFMB:
945 case BYTE_CHR:
946 storeword(*mtbufp++, j);
947 break;
949 default:
950 storeword(*mtbufp++, 0);
953 mtbufp = mtbuf;
954 } else {
955 storeword(i, j);
957 #endif /* NROFF */
958 #endif /* EUC */
960 j = cbits(i = GETCH());
961 #ifdef EUC
962 #ifdef NROFF
963 if (multi_locale)
964 if (collectmb(i))
965 goto g1;
966 #endif /* NROFF */
967 #endif /* EUC */
968 if (j != ' ') {
969 static char *sentchar = ".?!:"; /* sentence terminators */
970 if (j != '\n')
971 #ifdef EUC
972 #ifdef NROFF
973 if (!multi_locale)
974 #endif /* NROFF */
975 #endif /* EUC */
976 goto g0;
977 #ifdef EUC
978 #ifdef NROFF
979 else {
980 if (!wdbdg || (iswascii(cwc) && iswascii(owc)))
981 goto g0;
982 if ((wbf = (*wdbdg)(owc, cwc, 1)) < 5) {
983 pendmb++;
984 storeword((wbf < 3) ? ZWDELIM(1) :
985 ZWDELIM(2), 0);
986 *wordp = 0;
987 goto rtn;
988 } else goto g0;
990 #endif /* NROFF */
991 #endif /* EUC */
992 wp = wordp-1; /* handle extra space at end of sentence */
993 while (wp >= word) {
994 j = cbits(*wp--);
995 if (j=='"' || j=='\'' || j==')' || j==']' || j=='*' || j==DAGGER)
996 continue;
997 for (k = 0; sentchar[k]; k++)
998 if (j == sentchar[k]) {
999 spflg++;
1000 break;
1002 break;
1005 #ifdef EUC
1006 #ifdef NROFF
1007 wceoll = owc;
1008 #endif /* NROFF */
1009 #endif /* EUC */
1010 *wordp = 0;
1011 numtab[HP].val += sps;
1012 rtn:
1013 for (wp = word; *wp; wp++) {
1014 j = cbits(*wp);
1015 if (j == ' ')
1016 continue;
1017 if (!ischar(j) || (!isdigit(j) && j != '-'))
1018 break;
1020 if (*wp == 0) /* all numbers, so don't hyphenate */
1021 hyoff = 1;
1022 wdstart = 0;
1023 wordp = word;
1024 pendw = 0;
1025 *hyp++ = 0;
1026 setnel();
1027 return(noword);
1032 storeword(c, w)
1033 tchar c;
1034 int w;
1037 if (wordp >= &word[WDSIZE - 3]) {
1038 if (!over) {
1039 flusho();
1040 errprint(gettext("Word overflow."));
1041 over++;
1042 c = LEFTHAND;
1043 w = -1;
1044 goto s1;
1046 return (0);
1049 if (w == -1)
1050 w = width(c);
1051 widthp = w;
1052 wne += w;
1053 *wordp++ = c;
1054 wch++;
1056 return (0);
1060 #ifdef NROFF
1061 tchar gettch()
1063 extern int c_isalnum;
1064 tchar i;
1065 int j;
1067 i = getch();
1068 j = cbits(i);
1069 if (ismot(i) || fbits(i) != ulfont)
1070 return(i);
1071 if (cu) {
1072 if (trtab[j] == ' ') {
1073 setcbits(i, '_');
1074 setfbits(i, FT); /* default */
1076 return(i);
1078 /* should test here for characters that ought to be underlined */
1079 /* in the old nroff, that was the 200 bit on the width! */
1080 /* for now, just do letters, digits and certain special chars */
1081 if (j <= 127) {
1082 if (!isalnum(j))
1083 setfbits(i, FT);
1084 } else {
1085 if (j < c_isalnum)
1086 setfbits(i, FT);
1088 return(i);
1092 #endif
1093 #ifdef EUC
1094 #ifdef NROFF
1096 collectmb(i)
1097 tchar i;
1099 int busy;
1101 *mtbufp++ = i;
1102 *mbbuf2p++ = i & BYTEMASK;
1103 *mtbufp = *mbbuf2p = 0;
1104 if (ismot(i)) {
1105 mtbufp = mtbuf;
1106 mbbuf2p = mbbuf2;
1107 owc = 0;
1108 cwc = 0;
1109 return(busy = 0);
1111 if ((i & MBMASK) == MIDDLEOFMB) {
1112 if (mtbufp <= (mtbuf + MB_CUR_MAX)) {
1113 busy = 1;
1114 } else {
1115 *(mtbufp - 1) &= ~MBMASK;
1116 goto gotmb;
1118 } else {
1119 if ((i & MBMASK) == LASTOFMB)
1120 *(mtbufp - 1) &= ~MBMASK;
1121 gotmb:
1122 mtbufp = mtbuf;
1123 owc = cwc;
1124 if (mbtowc(&cwc, mbbuf2, MB_CUR_MAX) <= 0) {
1125 mtbufp = mtbuf;
1126 while (*mtbufp) {
1127 setcbits(*mtbufp, (*mtbufp & 0x1ff));
1128 mtbufp++;
1130 mtbufp = mtbuf;
1132 mbbuf2p = mbbuf2;
1133 busy = 0;
1135 return(busy);
1139 #endif /* NROFF */
1140 #endif /* EUC */