* lisp/simple.el (mark-word): Mark more if repeated.
[emacs.git] / src / termcap.c
blobb99ae473315d7133d210c38931c2b37bd70c9772
1 /* Work-alike for termcap, plus extra features.
2 Copyright (C) 1985, 86, 93, 94, 95, 2000, 2001
3 Free Software Foundation, Inc.
5 This program is free software; you can redistribute it and/or modify
6 it under the terms of the GNU General Public License as published by
7 the Free Software Foundation; either version 2, or (at your option)
8 any later version.
10 This program is distributed in the hope that it will be useful,
11 but WITHOUT ANY WARRANTY; without even the implied warranty of
12 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 GNU General Public License for more details.
15 You should have received a copy of the GNU General Public License
16 along with this program; see the file COPYING. If not, write to
17 the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
18 Boston, MA 02111-1307, USA. */
20 /* Emacs config.h may rename various library functions such as malloc. */
21 #ifdef HAVE_CONFIG_H
22 #include <config.h>
23 #endif
25 #ifdef emacs
27 #include <lisp.h> /* xmalloc is here */
28 /* Get the O_* definitions for open et al. */
29 #include <sys/file.h>
30 #ifdef HAVE_FCNTL_H
31 #include <fcntl.h>
32 #endif
33 #ifdef HAVE_UNISTD_H
34 #include <unistd.h>
35 #endif
37 #else /* not emacs */
39 #ifdef STDC_HEADERS
40 #include <stdlib.h>
41 #include <string.h>
42 #else
43 char *getenv ();
44 char *malloc ();
45 char *realloc ();
46 #endif
48 /* Do this after the include, in case string.h prototypes bcopy. */
49 #if (defined(HAVE_STRING_H) || defined(STDC_HEADERS)) && !defined(bcopy)
50 #define bcopy(s, d, n) memcpy ((d), (s), (n))
51 #endif
53 #ifdef HAVE_UNISTD_H
54 #include <unistd.h>
55 #endif
56 #ifdef _POSIX_VERSION
57 #include <fcntl.h>
58 #endif
60 #endif /* not emacs */
62 #ifndef NULL
63 #define NULL (char *) 0
64 #endif
66 #ifndef O_RDONLY
67 #define O_RDONLY 0
68 #endif
70 /* BUFSIZE is the initial size allocated for the buffer
71 for reading the termcap file.
72 It is not a limit.
73 Make it large normally for speed.
74 Make it variable when debugging, so can exercise
75 increasing the space dynamically. */
77 #ifndef BUFSIZE
78 #ifdef DEBUG
79 #define BUFSIZE bufsize
81 int bufsize = 128;
82 #else
83 #define BUFSIZE 2048
84 #endif
85 #endif
87 #ifndef TERMCAP_FILE
88 #define TERMCAP_FILE "/etc/termcap"
89 #endif
91 #ifndef emacs
92 static void
93 memory_out ()
95 write (2, "virtual memory exhausted\n", 25);
96 exit (1);
99 static char *
100 xmalloc (size)
101 unsigned size;
103 register char *tem = malloc (size);
105 if (!tem)
106 memory_out ();
107 return tem;
110 static char *
111 xrealloc (ptr, size)
112 char *ptr;
113 unsigned size;
115 register char *tem = realloc (ptr, size);
117 if (!tem)
118 memory_out ();
119 return tem;
121 #endif /* not emacs */
123 /* Looking up capabilities in the entry already found. */
125 /* The pointer to the data made by tgetent is left here
126 for tgetnum, tgetflag and tgetstr to find. */
127 static char *term_entry;
129 static char *tgetst1 ();
131 /* Search entry BP for capability CAP.
132 Return a pointer to the capability (in BP) if found,
133 0 if not found. */
135 static char *
136 find_capability (bp, cap)
137 register char *bp, *cap;
139 for (; *bp; bp++)
140 if (bp[0] == ':'
141 && bp[1] == cap[0]
142 && bp[2] == cap[1])
143 return &bp[4];
144 return NULL;
148 tgetnum (cap)
149 char *cap;
151 register char *ptr = find_capability (term_entry, cap);
152 if (!ptr || ptr[-1] != '#')
153 return -1;
154 return atoi (ptr);
158 tgetflag (cap)
159 char *cap;
161 register char *ptr = find_capability (term_entry, cap);
162 return ptr && ptr[-1] == ':';
165 /* Look up a string-valued capability CAP.
166 If AREA is non-null, it points to a pointer to a block in which
167 to store the string. That pointer is advanced over the space used.
168 If AREA is null, space is allocated with `malloc'. */
170 char *
171 tgetstr (cap, area)
172 char *cap;
173 char **area;
175 register char *ptr = find_capability (term_entry, cap);
176 if (!ptr || (ptr[-1] != '=' && ptr[-1] != '~'))
177 return NULL;
178 return tgetst1 (ptr, area);
181 #ifdef IS_EBCDIC_HOST
182 /* Table, indexed by a character in range 0200 to 0300 with 0200 subtracted,
183 gives meaning of character following \, or a space if no special meaning.
184 Sixteen characters per line within the string. */
186 static char esctab[]
187 = " \057\026 \047\014 \
188 \025 \015 \
189 \005 \013 \
191 #else
192 /* Table, indexed by a character in range 0100 to 0140 with 0100 subtracted,
193 gives meaning of character following \, or a space if no special meaning.
194 Eight characters per line within the string. */
196 static char esctab[]
197 = " \007\010 \033\014 \
198 \012 \
199 \015 \011 \013 \
201 #endif
203 /* PTR points to a string value inside a termcap entry.
204 Copy that value, processing \ and ^ abbreviations,
205 into the block that *AREA points to,
206 or to newly allocated storage if AREA is NULL.
207 Return the address to which we copied the value,
208 or NULL if PTR is NULL. */
210 static char *
211 tgetst1 (ptr, area)
212 char *ptr;
213 char **area;
215 register char *p, *r;
216 register int c;
217 register int size;
218 char *ret;
219 register int c1;
221 if (!ptr)
222 return NULL;
224 /* `ret' gets address of where to store the string. */
225 if (!area)
227 /* Compute size of block needed (may overestimate). */
228 p = ptr;
229 while ((c = *p++) && c != ':' && c != '\n')
231 ret = (char *) xmalloc (p - ptr + 1);
233 else
234 ret = *area;
236 /* Copy the string value, stopping at null or colon.
237 Also process ^ and \ abbreviations. */
238 p = ptr;
239 r = ret;
240 while ((c = *p++) && c != ':' && c != '\n')
242 if (c == '^')
244 c = *p++;
245 if (c == '?')
246 c = 0177;
247 else
248 c &= 037;
250 else if (c == '\\')
252 c = *p++;
253 if (c >= '0' && c <= '7')
255 c -= '0';
256 size = 0;
258 while (++size < 3 && (c1 = *p) >= '0' && c1 <= '7')
260 c *= 8;
261 c += c1 - '0';
262 p++;
265 #ifdef IS_EBCDIC_HOST
266 else if (c >= 0200 && c < 0360)
268 c1 = esctab[(c & ~0100) - 0200];
269 if (c1 != ' ')
270 c = c1;
272 #else
273 else if (c >= 0100 && c < 0200)
275 c1 = esctab[(c & ~040) - 0100];
276 if (c1 != ' ')
277 c = c1;
279 #endif
281 *r++ = c;
283 *r = '\0';
284 /* Update *AREA. */
285 if (area)
286 *area = r + 1;
287 return ret;
290 /* Outputting a string with padding. */
292 /* If OSPEED is 0, we use this as the actual baud rate. */
293 int tputs_baud_rate;
294 char PC;
296 #if 0 /* Doesn't seem to be used anymore. */
298 /* Actual baud rate if positive;
299 - baud rate / 100 if negative. */
301 static int speeds[] =
303 #ifdef VMS
304 0, 50, 75, 110, 134, 150, -3, -6, -12, -18,
305 -20, -24, -36, -48, -72, -96, -192
306 #else /* not VMS */
307 0, 50, 75, 110, 135, 150, -2, -3, -6, -12,
308 -18, -24, -48, -96, -192, -288, -384, -576, -1152
309 #endif /* not VMS */
312 #endif /* 0 */
314 void
315 tputs (str, nlines, outfun)
316 register char *str;
317 int nlines;
318 register int (*outfun) ();
320 register int padcount = 0;
321 register int speed;
323 extern int baud_rate;
324 speed = baud_rate;
325 /* For quite high speeds, convert to the smaller
326 units to avoid overflow. */
327 if (speed > 10000)
328 speed = - speed / 100;
330 if (!str)
331 return;
333 while (*str >= '0' && *str <= '9')
335 padcount += *str++ - '0';
336 padcount *= 10;
338 if (*str == '.')
340 str++;
341 padcount += *str++ - '0';
343 if (*str == '*')
345 str++;
346 padcount *= nlines;
348 while (*str)
349 (*outfun) (*str++);
351 /* PADCOUNT is now in units of tenths of msec.
352 SPEED is measured in characters per 10 seconds
353 or in characters per .1 seconds (if negative).
354 We use the smaller units for larger speeds to avoid overflow. */
355 padcount *= speed;
356 padcount += 500;
357 padcount /= 1000;
358 if (speed < 0)
359 padcount = -padcount;
360 else
362 padcount += 50;
363 padcount /= 100;
366 while (padcount-- > 0)
367 (*outfun) (PC);
370 /* Finding the termcap entry in the termcap data base. */
372 struct termcap_buffer
374 char *beg;
375 int size;
376 char *ptr;
377 int ateof;
378 int full;
381 /* Forward declarations of static functions. */
383 static int scan_file ();
384 static char *gobble_line ();
385 static int compare_contin ();
386 static int name_match ();
388 #ifdef VMS
390 #include <rmsdef.h>
391 #include <fab.h>
392 #include <nam.h>
394 static int
395 valid_filename_p (fn)
396 char *fn;
398 struct FAB fab = cc$rms_fab;
399 struct NAM nam = cc$rms_nam;
400 char esa[NAM$C_MAXRSS];
402 fab.fab$l_fna = fn;
403 fab.fab$b_fns = strlen(fn);
404 fab.fab$l_nam = &nam;
405 fab.fab$l_fop = FAB$M_NAM;
407 nam.nam$l_esa = esa;
408 nam.nam$b_ess = sizeof esa;
410 return SYS$PARSE(&fab, 0, 0) == RMS$_NORMAL;
413 #else /* !VMS */
415 #ifdef MSDOS /* MW, May 1993 */
416 static int
417 valid_filename_p (fn)
418 char *fn;
420 return *fn == '/' || fn[1] == ':';
422 #else
423 #define valid_filename_p(fn) (*(fn) == '/')
424 #endif
426 #endif /* !VMS */
428 /* Find the termcap entry data for terminal type NAME
429 and store it in the block that BP points to.
430 Record its address for future use.
432 If BP is null, space is dynamically allocated.
434 Return -1 if there is some difficulty accessing the data base
435 of terminal types,
436 0 if the data base is accessible but the type NAME is not defined
437 in it, and some other value otherwise. */
440 tgetent (bp, name)
441 char *bp, *name;
443 register char *termcap_name;
444 register int fd;
445 struct termcap_buffer buf;
446 register char *bp1;
447 char *tc_search_point;
448 char *term;
449 int malloc_size = 0;
450 register int c;
451 char *tcenv = NULL; /* TERMCAP value, if it contains :tc=. */
452 char *indirect = NULL; /* Terminal type in :tc= in TERMCAP value. */
453 int filep;
455 #ifdef INTERNAL_TERMINAL
456 /* For the internal terminal we don't want to read any termcap file,
457 so fake it. */
458 if (!strcmp (name, "internal"))
460 term = INTERNAL_TERMINAL;
461 if (!bp)
463 malloc_size = 1 + strlen (term);
464 bp = (char *) xmalloc (malloc_size);
466 strcpy (bp, term);
467 goto ret;
469 #endif /* INTERNAL_TERMINAL */
471 /* For compatibility with programs like `less' that want to
472 put data in the termcap buffer themselves as a fallback. */
473 if (bp)
474 term_entry = bp;
476 termcap_name = getenv ("TERMCAP");
477 if (termcap_name && *termcap_name == '\0')
478 termcap_name = NULL;
479 #if defined (MSDOS) && !defined (TEST)
480 if (termcap_name && (*termcap_name == '\\'
481 || *termcap_name == '/'
482 || termcap_name[1] == ':'))
483 dostounix_filename(termcap_name);
484 #endif
486 filep = termcap_name && valid_filename_p (termcap_name);
488 /* If termcap_name is non-null and starts with / (in the un*x case, that is),
489 it is a file name to use instead of /etc/termcap.
490 If it is non-null and does not start with /,
491 it is the entry itself, but only if
492 the name the caller requested matches the TERM variable. */
494 if (termcap_name && !filep && !strcmp (name, getenv ("TERM")))
496 indirect = tgetst1 (find_capability (termcap_name, "tc"), (char **) 0);
497 if (!indirect)
499 if (!bp)
500 bp = termcap_name;
501 else
502 strcpy (bp, termcap_name);
503 goto ret;
505 else
506 { /* It has tc=. Need to read /etc/termcap. */
507 tcenv = termcap_name;
508 termcap_name = NULL;
512 if (!termcap_name || !filep)
513 termcap_name = TERMCAP_FILE;
515 /* Here we know we must search a file and termcap_name has its name. */
517 #ifdef MSDOS
518 fd = open (termcap_name, O_RDONLY|O_TEXT, 0);
519 #else
520 fd = open (termcap_name, O_RDONLY, 0);
521 #endif
522 if (fd < 0)
523 return -1;
525 buf.size = BUFSIZE;
526 /* Add 1 to size to ensure room for terminating null. */
527 buf.beg = (char *) xmalloc (buf.size + 1);
528 term = indirect ? indirect : name;
530 if (!bp)
532 malloc_size = indirect ? strlen (tcenv) + 1 : buf.size;
533 bp = (char *) xmalloc (malloc_size);
535 tc_search_point = bp1 = bp;
537 if (indirect)
538 /* Copy the data from the environment variable. */
540 strcpy (bp, tcenv);
541 bp1 += strlen (tcenv);
544 while (term)
546 /* Scan the file, reading it via buf, till find start of main entry. */
547 if (scan_file (term, fd, &buf) == 0)
549 close (fd);
550 free (buf.beg);
551 if (malloc_size)
552 free (bp);
553 return 0;
556 /* Free old `term' if appropriate. */
557 if (term != name)
558 free (term);
560 /* If BP is malloc'd by us, make sure it is big enough. */
561 if (malloc_size)
563 int offset1 = bp1 - bp, offset2 = tc_search_point - bp;
564 malloc_size = offset1 + buf.size;
565 bp = termcap_name = (char *) xrealloc (bp, malloc_size);
566 bp1 = termcap_name + offset1;
567 tc_search_point = termcap_name + offset2;
570 /* Copy the line of the entry from buf into bp. */
571 termcap_name = buf.ptr;
572 while ((*bp1++ = c = *termcap_name++) && c != '\n')
573 /* Drop out any \ newline sequence. */
574 if (c == '\\' && *termcap_name == '\n')
576 bp1--;
577 termcap_name++;
579 *bp1 = '\0';
581 /* Does this entry refer to another terminal type's entry?
582 If something is found, copy it into heap and null-terminate it. */
583 tc_search_point = find_capability (tc_search_point, "tc");
584 term = tgetst1 (tc_search_point, (char **) 0);
587 close (fd);
588 free (buf.beg);
590 if (malloc_size)
591 bp = (char *) xrealloc (bp, bp1 - bp + 1);
593 ret:
594 term_entry = bp;
595 return 1;
598 /* Given file open on FD and buffer BUFP,
599 scan the file from the beginning until a line is found
600 that starts the entry for terminal type STR.
601 Return 1 if successful, with that line in BUFP,
602 or 0 if no entry is found in the file. */
604 static int
605 scan_file (str, fd, bufp)
606 char *str;
607 int fd;
608 register struct termcap_buffer *bufp;
610 register char *end;
612 bufp->ptr = bufp->beg;
613 bufp->full = 0;
614 bufp->ateof = 0;
615 *bufp->ptr = '\0';
617 lseek (fd, 0L, 0);
619 while (!bufp->ateof)
621 /* Read a line into the buffer. */
622 end = NULL;
625 /* if it is continued, append another line to it,
626 until a non-continued line ends. */
627 end = gobble_line (fd, bufp, end);
629 while (!bufp->ateof && end[-2] == '\\');
631 if (*bufp->ptr != '#'
632 && name_match (bufp->ptr, str))
633 return 1;
635 /* Discard the line just processed. */
636 bufp->ptr = end;
638 return 0;
641 /* Return nonzero if NAME is one of the names specified
642 by termcap entry LINE. */
644 static int
645 name_match (line, name)
646 char *line, *name;
648 register char *tem;
650 if (!compare_contin (line, name))
651 return 1;
652 /* This line starts an entry. Is it the right one? */
653 for (tem = line; *tem && *tem != '\n' && *tem != ':'; tem++)
654 if (*tem == '|' && !compare_contin (tem + 1, name))
655 return 1;
657 return 0;
660 static int
661 compare_contin (str1, str2)
662 register char *str1, *str2;
664 register int c1, c2;
665 while (1)
667 c1 = *str1++;
668 c2 = *str2++;
669 while (c1 == '\\' && *str1 == '\n')
671 str1++;
672 while ((c1 = *str1++) == ' ' || c1 == '\t');
674 if (c2 == '\0')
676 /* End of type being looked up. */
677 if (c1 == '|' || c1 == ':')
678 /* If end of name in data base, we win. */
679 return 0;
680 else
681 return 1;
683 else if (c1 != c2)
684 return 1;
688 /* Make sure that the buffer <- BUFP contains a full line
689 of the file open on FD, starting at the place BUFP->ptr
690 points to. Can read more of the file, discard stuff before
691 BUFP->ptr, or make the buffer bigger.
693 Return the pointer to after the newline ending the line,
694 or to the end of the file, if there is no newline to end it.
696 Can also merge on continuation lines. If APPEND_END is
697 non-null, it points past the newline of a line that is
698 continued; we add another line onto it and regard the whole
699 thing as one line. The caller decides when a line is continued. */
701 static char *
702 gobble_line (fd, bufp, append_end)
703 int fd;
704 register struct termcap_buffer *bufp;
705 char *append_end;
707 register char *end;
708 register int nread;
709 register char *buf = bufp->beg;
710 register char *tem;
712 if (!append_end)
713 append_end = bufp->ptr;
715 while (1)
717 end = append_end;
718 while (*end && *end != '\n') end++;
719 if (*end)
720 break;
721 if (bufp->ateof)
722 return buf + bufp->full;
723 if (bufp->ptr == buf)
725 if (bufp->full == bufp->size)
727 bufp->size *= 2;
728 /* Add 1 to size to ensure room for terminating null. */
729 tem = (char *) xrealloc (buf, bufp->size + 1);
730 bufp->ptr = (bufp->ptr - buf) + tem;
731 append_end = (append_end - buf) + tem;
732 bufp->beg = buf = tem;
735 else
737 append_end -= bufp->ptr - buf;
738 bcopy (bufp->ptr, buf, bufp->full -= bufp->ptr - buf);
739 bufp->ptr = buf;
741 if (!(nread = read (fd, buf + bufp->full, bufp->size - bufp->full)))
742 bufp->ateof = 1;
743 bufp->full += nread;
744 buf[bufp->full] = '\0';
746 return end + 1;
749 #ifdef TEST
751 #ifdef NULL
752 #undef NULL
753 #endif
755 #include <stdio.h>
757 main (argc, argv)
758 int argc;
759 char **argv;
761 char *term;
762 char *buf;
764 term = argv[1];
765 printf ("TERM: %s\n", term);
767 buf = (char *) tgetent (0, term);
768 if ((int) buf <= 0)
770 printf ("No entry.\n");
771 return 0;
774 printf ("Entry: %s\n", buf);
776 tprint ("cm");
777 tprint ("AL");
779 printf ("co: %d\n", tgetnum ("co"));
780 printf ("am: %d\n", tgetflag ("am"));
783 tprint (cap)
784 char *cap;
786 char *x = tgetstr (cap, 0);
787 register char *y;
789 printf ("%s: ", cap);
790 if (x)
792 for (y = x; *y; y++)
793 if (*y <= ' ' || *y == 0177)
794 printf ("\\%0o", *y);
795 else
796 putchar (*y);
797 free (x);
799 else
800 printf ("none");
801 putchar ('\n');
804 #endif /* TEST */