| blob | 3b2112926637f1ccff727a33ed8879dd15392a06 |
1 /*-
2 * Copyright (c) 1993, 1994
3 * The Regents of the University of California. All rights reserved.
4 * Copyright (c) 1992, 1993, 1994, 1995, 1996
5 * Keith Bostic. All rights reserved.
6 *
7 * See the LICENSE file for redistribution information.
8 */
12 #ifndef lint
13 static const char sccsid[] = "$Id: v_txt.c,v 10.90 1996/12/11 13:06:32 bostic Exp $ (Berkeley) $Date: 1996/12/11 13:06:32 $";
16 #include <sys/types.h>
17 #include <sys/queue.h>
18 #include <sys/stat.h>
19 #include <sys/time.h>
21 #include <bitstring.h>
22 #include <ctype.h>
23 #include <errno.h>
24 #include <limits.h>
25 #include <stdio.h>
26 #include <stdlib.h>
27 #include <string.h>
28 #include <unistd.h>
53 /* Cursor character (space is hard to track on the screen). */
54 #if defined(DEBUG) && 0
55 #undef CH_CURSOR
57 #endif
59 /*
60 * v_tcmd --
61 * Fill a buffer from the terminal for vi.
62 *
63 * PUBLIC: int v_tcmd __P((SCR *, VICMD *, ARG_CHAR_T, u_int));
64 */
65 int
69 ARG_CHAR_T prompt;
70 u_int flags;
71 {
72 /* Normally, we end up where we started. */
76 /* Initialize the map. */
80 /* Move to the last line. */
84 /* Don't update the modeline for now. */
87 /* Set the input flags. */
95 /* Do the input thing. */
99 /* Reenable the modeline updates. */
102 /* Clean up the map. */
109 /* Set the cursor to the resulting position. */
114 }
116 /*
117 * txt_map_init
118 * Initialize the screen map for colon command-line input.
119 */
120 static int
123 {
129 /*
130 * Fake like the user is doing input on the last line of the
131 * screen. This makes all of the scrolling work correctly,
132 * and allows us the use of the vi text editing routines, not
133 * to mention practically infinite length ex commands.
134 *
135 * Save the current location.
136 */
144 /*
145 * If it's a small screen, TMAP may be small for the screen.
146 * Fix it, filling in fake lines as we go.
147 */
154 }
156 /* Build the fake entry. */
163 /* Reset the screen information. */
165 }
167 }
169 /*
170 * txt_map_end
171 * Reset the screen map for colon command-line input.
172 */
173 static int
176 {
182 /* Restore the screen information. */
187 /*
188 * If it's a small screen, TMAP may be wrong. Clear any
189 * lines that might have been overwritten.
190 */
195 }
200 /*
201 * The map may be wrong if the user entered more than one
202 * (logical) line. Fix it. If the user entered a whole
203 * screen, this will be slow, but we probably don't care.
204 */
210 }
212 /*
213 * Invalidate the cursor and the line size cache, the line never
214 * really existed. This fixes bugs where the user searches for
215 * the last line on the screen + 1 and the refresh routine thinks
216 * that's where we just were.
217 */
222 }
224 /*
225 * If doing input mapping on the colon command line, may need to unmap
226 * based on the command.
227 */
228 #define UNMAP_TST \
229 FL_ISSET(ec_flags, EC_MAPINPUT) && LF_ISSET(TXT_INFOLINE)
231 /*
232 * Internally, we maintain tp->lno and tp->cno, externally, everyone uses
233 * sp->lno and sp->cno. Make them consistent as necessary.
234 */
235 #define UPDATE_POSITION(sp, tp) { \
236 (sp)->lno = (tp)->lno; \
237 (sp)->cno = (tp)->cno; \
238 }
240 /*
241 * v_txt --
242 * Vi text input.
243 *
244 * PUBLIC: int v_txt __P((SCR *, VICMD *, MARK *,
245 * PUBLIC: const char *, size_t, ARG_CHAR_T, recno_t, u_long, u_int32_t));
246 */
247 int
258 {
277 u_int8_t is_flags;
289 /*
290 * Set the input flag, so tabs get displayed correctly
291 * and everyone knows that the text buffer is in use.
292 */
295 /*
296 * Get one TEXT structure with some initial buffer space, reusing
297 * the last one if it's big enough. (All TEXT bookkeeping fields
298 * default to 0 -- text_init() handles this.) If changing a line,
299 * copy it into the TEXT buffer.
300 */
307 }
318 }
320 /* Set default termination condition. */
323 /* Set the starting line, column. */
327 /*
328 * Set the insert and overwrite counts. If overwriting characters,
329 * do insertion afterward. If not overwriting characters, assume
330 * doing insertion. If change is to a mark, emphasize it with an
331 * CH_ENDMARK character.
332 */
342 }
344 /*
345 * Many of the special cases in text input are to handle autoindent
346 * support. Somebody decided that it would be a good idea if "^^D"
347 * and "0^D" deleted all of the autoindented characters. In an editor
348 * that takes single character input from the user, this beggars the
349 * imagination. Note also, "^^D" resets the next lines' autoindent,
350 * but "0^D" doesn't.
351 *
352 * We assume that autoindent only happens on empty lines, so insert
353 * and overwrite will be zero. If doing autoindent, figure out how
354 * much indentation we need and fill it in. Update input column and
355 * screen cursor as necessary.
356 */
362 /*
363 * The cc and S commands have a special feature -- leading
364 * <blank> characters are handled as autoindent characters.
365 * Beauty!
366 */
372 }
374 /* If getting a command buffer from the user, there may be a prompt. */
379 }
381 /*
382 * If appending after the end-of-line, add a space into the buffer
383 * and move the cursor right. This space is inserted, i.e. pushed
384 * along, and then deleted when the line is resolved. Assumes that
385 * the cursor is already positioned at the end of the line. This
386 * avoids the nastiness of having the cursor reside on a magical
387 * column, i.e. a column that doesn't really exist. The only down
388 * side is that we may wrap lines or scroll the screen before it's
389 * strictly necessary. Not a big deal.
390 */
396 }
398 /*
399 * Historic practice is that the wrapmargin value was a distance
400 * from the RIGHT-HAND margin, not the left. It's more useful to
401 * us as a distance from the left-hand margin, i.e. the same as
402 * the wraplen value. The wrapmargin option is historic practice.
403 * Nvi added the wraplen option so that it would be possible to
404 * edit files with consistent margins without knowing the number of
405 * columns in the window.
406 *
407 * XXX
408 * Setting margin causes a significant performance hit. Normally
409 * we don't update the screen if there are keys waiting, but we
410 * have to if margin is set, otherwise the screen routines don't
411 * know where the cursor is.
412 *
413 * !!!
414 * Abbreviated keys were affected by the wrapmargin option in the
415 * historic 4BSD vi. Mapped keys were usually, but sometimes not.
416 * See the comment in vi/v_text():set_txt_std for more information.
417 *
418 * !!!
419 * One more special case. If an inserted <blank> character causes
420 * wrapmargin to split the line, the next user entered character is
421 * discarded if it's a <space> character.
422 */
427 else
429 else
432 /* Initialize abbreviation checks. */
437 /*
438 * Set up the dot command. Dot commands are done by saving the actual
439 * characters and then reevaluating them so that things like wrapmargin
440 * can change between the insert and the replay.
441 *
442 * !!!
443 * Historically, vi did not remap or reabbreviate replayed input. (It
444 * did beep at you if you changed an abbreviation and then replayed the
445 * input. We're not that compatible.) We don't have to do anything to
446 * avoid remapping, as we're not getting characters from the terminal
447 * routines. Turn the abbreviation check off.
448 *
449 * XXX
450 * It would be nice if we could swallow backspaces and such, but it's
451 * not all that easy to do. What we can do is turn off the common
452 * error messages during the replay. Otherwise, when the user enters
453 * an illegal command, e.g., "Ia<erase><erase><erase><erase>b<escape>",
454 * and then does a '.', they get a list of error messages after command
455 * completion.
456 */
461 }
463 /* Other text input mode setup. */
470 /* Initialize input flags. */
473 /* Refresh the screen. */
478 /* If it's dot, just do it now. */
482 /* Get an event. */
487 /*
488 * If file completion overwrote part of the screen and nothing else has
489 * been displayed, clean up. We don't do this as part of the normal
490 * message resolution because we know the user is on the colon command
491 * line and there's no reason to enter explicit characters to continue.
492 */
503 }
505 /* Deal with all non-character events. */
514 /*
515 * !!!
516 * Historically, <interrupt> exited the user from text input
517 * mode or cancelled a colon command, and returned to command
518 * mode. It also beeped the terminal, but that seems a bit
519 * excessive.
520 */
527 /* <resize> interrupts the input mode. */
533 }
535 /*
536 * !!!
537 * If the first character of the input is a nul, replay the previous
538 * input. (Historically, it's okay to replay non-existent input.)
539 * This was not documented as far as I know, and is a great test of vi
540 * clones.
541 */
550 }
552 /*
553 * File name completion and colon command-line editing. We don't
554 * have enough meta characters, so we expect people to overload
555 * them. If the two characters are the same, then we do file name
556 * completion if the cursor is past the first column, and do colon
557 * command-line editing if it's not.
558 */
572 }
577 }
578 }
580 /* Abbreviation overflow check. See comment in txt_abbrev(). */
581 #define MAX_ABBREVIATION_EXPANSION 256
591 }
595 /* Check to see if the character fits into the replay buffers. */
600 }
605 /* Wrapmargin check for leading space. */
610 }
612 /* If quoted by someone else, simply insert the character. */
616 /*
617 * !!!
618 * If this character was quoted by a K_VLNEXT or a backslash, replace
619 * the placeholder (a carat or a backslash) with the new character.
620 * If it was quoted by a K_VLNEXT, we've already adjusted the cursor
621 * because it has to appear on top of the placeholder character. If
622 * it was quoted by a backslash, adjust the cursor now, the cursor
623 * doesn't appear on top of it. Historic practice in both cases.
624 *
625 * Skip tests for abbreviations; ":ab xa XA" followed by "ixa^V<space>"
626 * doesn't perform an abbreviation. Special case, ^V^J (not ^V^M) is
627 * the same as ^J, historically.
628 */
640 }
644 }
646 }
648 /*
649 * !!!
650 * Translate "<CH_HEX>[isxdigit()]*" to a character with a hex value:
651 * this test delimits the value by any non-hex character. Offset by
652 * one, we use 0 to mean that we've found <CH_HEX>.
653 */
658 }
663 /* Return in script windows and the command line. */
665 /*
666 * If this was a map, we may have not displayed
667 * the line. Display it, just in case.
668 *
669 * If a script window and not the colon line,
670 * push a <cr> so it gets executed.
671 */
678 /* Set term condition: if empty. */
681 /*
682 * Set term condition: if searching incrementally and
683 * the user entered a pattern, return a completed
684 * search, regardless if the entire pattern was found.
685 */
691 }
693 #define LINE_RESOLVE { \
694 /* \
695 * Handle abbreviations. If there was one, discard the \
696 * replay characters. \
698 if (abb == AB_INWORD && \
699 !LF_ISSET(TXT_REPLAY) && F_ISSET(gp, G_ABBREV)) { \
700 if (txt_abbrev(sp, tp, &evp->e_c, \
701 LF_ISSET(TXT_INFOLINE), &tmp, \
702 &ab_turnoff)) \
703 goto err; \
704 if (tmp) { \
705 if (LF_ISSET(TXT_RECORD)) \
706 rcol -= tmp + 1; \
707 goto resolve; \
708 } \
709 } \
710 if (abb != AB_NOTSET) \
711 abb = AB_NOTWORD; \
712 if (UNMAP_TST) \
713 txt_unmap(sp, tp, &ec_flags); \
714 /* \
715 * Delete any appended cursor. It's possible to get in \
716 * situations where TXT_APPENDEOL is set but tp->insert \
717 * is 0 when using the R command and all the characters \
718 * are tp->owrite characters. \
720 if (LF_ISSET(TXT_APPENDEOL) && tp->insert > 0) { \
721 --tp->len; \
722 --tp->insert; \
723 } \
724 }
725 LINE_RESOLVE;
727 /*
728 * Save the current line information for restoration in
729 * txt_backup(), and set the line final length.
730 */
735 /* Update the old line. */
739 /*
740 * Historic practice, when the autoindent edit option was set,
741 * was to delete <blank> characters following the inserted
742 * newline. This affected the 'R', 'c', and 's' commands; 'c'
743 * and 's' retained the insert characters only, 'R' moved the
744 * overwrite and insert characters into the next TEXT structure.
745 * We keep track of the number of characters erased for the 'R'
746 * command so that the final resolution of the line is correct.
747 */
763 }
765 /*
766 * !!!
767 * Create a new line and insert the new TEXT into the queue.
768 * DON'T insert until the old line has been updated, or the
769 * inserted line count in line.c:db_get() will be wrong.
770 */
776 /* Set up bookkeeping for the new line. */
781 /*
782 * Reset the autoindent line value. 0^D keeps the autoindent
783 * line from changing, ^D changes the level, even if there were
784 * no characters in the old line. Note, if using the current
785 * tp structure, use the cursor as the length, the autoindent
786 * characters may have been erased.
787 */
797 }
799 /* Reset the cursor. */
802 /*
803 * If we're here because wrapmargin was set and we've broken a
804 * line, there may be additional information (i.e. the start of
805 * a line) in the wmt structure.
806 */
810 #define WMTSPACE wmt.offset + wmt.owrite + wmt.insert
818 }
820 }
822 /* New lines are TXT_APPENDEOL. */
829 }
831 /* Swap old and new TEXT's, and update the new line. */
841 /* If we have a count, start replaying the input. */
850 /*
851 * Some commands (e.g. 'o') need a <newline> for each
852 * repetition.
853 */
857 /*
858 * The R command turns into the 'a' command after the
859 * first repetition.
860 */
865 }
867 }
869 /* Set term condition: if empty. */
872 /*
873 * Set term condition: if searching incrementally and the user
874 * entered a pattern, return a completed search, regardless if
875 * the entire pattern was found.
876 */
882 /*
883 * Clean up for the 'R' command, restoring overwrite
884 * characters, and making them into insert characters.
885 */
889 /*
890 * If there are any overwrite characters, copy down
891 * any insert characters, and decrement the length.
892 */
898 }
900 /*
901 * Optionally resolve the lines into the file. If not
902 * resolving the lines into the file, end the line with
903 * a nul. If the line is empty, then set the length to
904 * 0, the termination condition has already been set.
905 *
906 * XXX
907 * This is wrong, should pass back a length.
908 */
915 }
917 /*
918 * Set the return cursor position to rest on the last
919 * inserted character.
920 */
924 /* Update the last line. */
937 /*
938 * If in the first column or no characters to erase, ignore
939 * the ^D (this matches historic practice). If not doing
940 * autoindent or already inserted non-ai characters, it's a
941 * literal. The latter test is done in the switch, as the
942 * CARAT forms are N + 1, not N.
943 */
954 /* Save the ai string for later. */
981 }
984 /* If can erase over the prompt, return. */
988 }
990 /*
991 * If at the beginning of the line, try and drop back to a
992 * previously inserted line.
993 */
1000 }
1002 /* If nothing to erase, bell the user. */
1007 }
1009 /* Drop back one character. */
1012 /*
1013 * Historically, vi didn't replace the erased characters with
1014 * <blank>s, presumably because it's easier to fix a minor
1015 * typing mistake and continue on if the previous letters are
1016 * already there. This is a problem for incremental searching,
1017 * because the user can no longer tell where they are in the
1018 * colon command line because the cursor is at the last search
1019 * point in the screen. So, if incrementally searching, erase
1020 * the erased characters from the screen.
1021 */
1025 /*
1026 * Increment overwrite, decrement ai if deleted.
1027 *
1028 * !!!
1029 * Historic vi did not permit users to use erase characters
1030 * to delete autoindent characters. We do. Eat hot death,
1031 * POSIX.
1032 */
1037 /* Reset if we deleted an incremental search character. */
1042 /*
1043 * If at the beginning of the line, try and drop back to a
1044 * previously inserted line.
1045 */
1051 }
1053 /*
1054 * If at offset, nothing to erase so bell the user.
1055 */
1060 }
1062 /*
1063 * The first werase goes back to any autoindent column and the
1064 * second werase goes back to the offset.
1065 *
1066 * !!!
1067 * Historic vi did not permit users to use erase characters to
1068 * delete autoindent characters.
1069 */
1075 }
1077 /* Skip over trailing space characters. */
1081 }
1084 /*
1085 * There are three types of word erase found on UNIX systems.
1086 * They can be identified by how the string /a/b/c is treated
1087 * -- as 1, 3, or 6 words. Historic vi had two classes of
1088 * characters, and strings were delimited by them and
1089 * <blank>'s, so, 6 words. The historic tty interface used
1090 * <blank>'s to delimit strings, so, 1 word. The algorithm
1091 * offered in the 4.4BSD tty interface (as stty altwerase)
1092 * treats it as 3 words -- there are two classes of
1093 * characters, and strings are delimited by them and
1094 * <blank>'s. The difference is that the type of the first
1095 * erased character erased is ignored, which is exactly right
1096 * when erasing pathname components. The edit options
1097 * TXT_ALTWERASE and TXT_TTYWERASE specify the 4.4BSD tty
1098 * interface and the historic tty driver behavior,
1099 * respectively, and the default is the same as the historic
1100 * vi behavior.
1101 *
1102 * Overwrite erased characters if doing incremental search;
1103 * see comment above.
1104 */
1113 }
1122 }
1133 }
1134 }
1136 /* Reset if we deleted an incremental search character. */
1141 /*
1142 * !!!
1143 * If at the beginning of the line, try and drop back to a
1144 * previously inserted line. Historic vi did not permit
1145 * users to go back to previous lines.
1146 */
1152 }
1154 /* If at offset, nothing to erase so bell the user. */
1159 }
1161 /*
1162 * First kill goes back to any autoindent and second kill goes
1163 * back to the offset.
1164 *
1165 * !!!
1166 * Historic vi did not permit users to use erase characters to
1167 * delete autoindent characters.
1168 */
1174 }
1177 /*
1178 * Overwrite erased characters if doing incremental search;
1179 * see comment above.
1180 */
1185 else
1188 /* Reset if we deleted an incremental search character. */
1204 /*
1205 * !!!
1206 * Historic vi tried to make abbreviations after a backslash
1207 * escape work. If you did ":ab x y", and inserted "x\^H",
1208 * (assuming the erase character was ^H) you got "x^H", and
1209 * no abbreviation was done. If you inserted "x\z", however,
1210 * it tried to back up and do the abbreviation, i.e. replace
1211 * 'x' with 'y'. The problem was it got it wrong, and you
1212 * ended up with "zy\".
1213 *
1214 * This is really hard to do (you have to remember the
1215 * word/non-word state, for example), and doesn't make any
1216 * sense to me. Both backslash and the characters it
1217 * (usually) escapes will individually trigger the
1218 * abbreviation, so I don't see why the combination of them
1219 * wouldn't. I don't expect to get caught on this one,
1220 * particularly since it never worked right, but I've been
1221 * wrong before.
1222 *
1223 * Do the tests for abbreviations, so ":ab xa XA",
1224 * "ixa\<K_VERASE>" performs the abbreviation.
1225 */
1231 /*
1232 * Turn on the quote flag so that the underlying routines
1233 * quote the next character where it's possible. Turn off
1234 * the input mapbiting flag so that we don't remap the next
1235 * character.
1236 */
1240 /*
1241 * !!!
1242 * Skip the tests for abbreviations, so ":ab xa XA",
1243 * "ixa^V<space>" doesn't perform the abbreviation.
1244 */
1251 * Historically, vi eliminated nul's out of hand. If the
1252 * beautify option was set, it also deleted any unknown
1253 * ASCII value less than space (040) and the del character
1254 * (0177), except for tabs. Unknown is a key word here.
1255 * Most vi documentation claims that it deleted everything
1256 * but <tab>, <nl> and <ff>, as that's what the original
1257 * 4BSD documentation said. This is obviously wrong,
1258 * however, as <esc> would be included in that list. What
1259 * we do is eliminate any unquoted, iscntrl() character that
1260 * wasn't a replay and wasn't handled specially, except
1261 * <tab> or <ff>.
1262 */
1270 }
1273 * If entering a non-word character after a word, check for
1274 * abbreviations. If there was one, discard replay characters.
1275 * If entering a blank character, check for unmap commands,
1276 * as well.
1277 */
1288 }
1289 }
1292 }
1299 /*
1300 * If we're using K_VLNEXT to quote the next character, then
1301 * we want the cursor to position itself on the ^ placeholder
1302 * we're displaying, to match historic practice.
1303 */
1307 }
1309 /*
1310 * !!!
1311 * Translate "<CH_HEX>[isxdigit()]*" to a character with
1312 * a hex value: this test delimits the value by the max
1313 * number of hex bytes. Offset by one, we use 0 to mean
1314 * that we've found <CH_HEX>.
1315 */
1320 }
1322 /*
1323 * Check to see if we've crossed the margin.
1324 *
1325 * !!!
1326 * In the historic vi, the wrapmargin value was figured out
1327 * using the display widths of the characters, i.e. <tab>
1328 * characters were counted as two characters if the list edit
1329 * option is set, but as the tabstop edit option number of
1330 * characters otherwise. That's what the vs_column() function
1331 * gives us, so we use it.
1332 */
1344 }
1345 }
1346 }
1348 /*
1349 * If we've reached the end of the buffer, then we need to
1350 * switch into insert mode. This happens when there's a
1351 * change to a mark and the user puts in more characters than
1352 * the length of the motion.
1353 */
1361 }
1363 /* Step the quote state forward. */
1369 }
1371 }
1373 #ifdef DEBUG
1381 }
1382 #endif
1385 * 1: If we don't need to know where the cursor really is and we're
1386 * replaying text, keep going.
1387 */
1391 /*
1392 * 2: Reset the line. Don't bother unless we're about to wait on
1393 * a character or we need to know where the cursor really is.
1394 * We have to do this before showing matching characters so the
1395 * user can see what they're matching.
1396 */
1401 /*
1402 * 3: If there aren't keys waiting, display the matching character.
1403 * We have to do this before resolving any messages, otherwise
1404 * the error message from a missing match won't appear correctly.
1405 */
1410 }
1412 /*
1413 * 4: If there have been messages and we're not editing on the colon
1414 * command line or doing file name completion, resolve them.
1415 */
1421 /*
1422 * 5: Refresh the screen if we're about to wait on a character or we
1423 * need to know where the cursor really is.
1424 */
1429 }
1431 /* 6: Proceed with the incremental search. */
1435 /* 7: Next character... */
1443 /* If recording for playback, save it. */
1447 /*
1448 * If not working on the colon command line, set the final cursor
1449 * position.
1450 */
1454 }
1457 err:
1458 alloc_err:
1461 }
1463 /*
1464 * txt_abbrev --
1465 * Handle abbreviations.
1466 */
1467 static int
1473 {
1479 /* Check to make sure we're not at the start of an append. */
1486 /*
1487 * Find the start of the "word".
1488 *
1489 * !!!
1490 * We match historic practice, which, as far as I can tell, had an
1491 * off-by-one error. The way this worked was that when the inserted
1492 * text switched from a "word" character to a non-word character,
1493 * vi would check for possible abbreviations. It would then take the
1494 * type (i.e. word/non-word) of the character entered TWO characters
1495 * ago, and move backward in the text until reaching a character that
1496 * was not that type, or the beginning of the insert, the line, or
1497 * the file. For example, in the string "abc<space>", when the <space>
1498 * character triggered the abbreviation check, the type of the 'b'
1499 * character was used for moving through the string. Maybe there's a
1500 * reason for not using the first (i.e. 'c') character, but I can't
1501 * think of one.
1502 *
1503 * Terminate at the beginning of the insert or the character after the
1504 * offset character -- both can be tested for using tp->offset.
1505 */
1516 }
1517 else
1523 }
1525 /*
1526 * !!!
1527 * Historic vi exploded abbreviations on the command line. This has
1528 * obvious problems in that unabbreviating the string can be extremely
1529 * tricky, particularly if the string has, say, an embedded escape
1530 * character. Personally, I think it's a stunningly bad idea. Other
1531 * examples of problems this caused in historic vi are:
1532 * :ab foo bar
1533 * :ab foo baz
1534 * results in "bar" being abbreviated to "baz", which wasn't what the
1535 * user had in mind at all. Also, the commands:
1536 * :ab foo bar
1537 * :unab foo<space>
1538 * resulted in an error message that "bar" wasn't mapped. Finally,
1539 * since the string was already exploded by the time the unabbreviate
1540 * command got it, all it knew was that an abbreviation had occurred.
1541 * Cleverly, it checked the replacement string for its unabbreviation
1542 * match, which meant that the commands:
1543 * :ab foo1 bar
1544 * :ab foo2 bar
1545 * :unab foo2
1546 * unabbreviate "foo1", and the commands:
1547 * :ab foo bar
1548 * :ab bar baz
1549 * unabbreviate "foo"!
1550 *
1551 * Anyway, people neglected to first ask my opinion before they wrote
1552 * macros that depend on this stuff, so, we make this work as follows.
1553 * When checking for an abbreviation on the command line, if we get a
1554 * string which is <blank> terminated and which starts at the beginning
1555 * of the line, we check to see it is the abbreviate or unabbreviate
1556 * commands. If it is, turn abbreviations off and return as if no
1557 * abbreviation was found. Note also, minor trickiness, so that if
1558 * the user erases the line and starts another command, we turn the
1559 * abbreviations back on.
1560 *
1561 * This makes the layering look like a Nachos Supreme.
1562 */
1570 else
1574 /* Check for any abbreviations. */
1578 /*
1579 * Push the abbreviation onto the tty stack. Historically, characters
1580 * resulting from an abbreviation expansion were themselves subject to
1581 * map expansions, O_SHOWMATCH matching etc. This means the expanded
1582 * characters will be re-tested for abbreviations. It's difficult to
1583 * know what historic practice in this case was, since abbreviations
1584 * were applied to :colon command lines, so entering abbreviations that
1585 * looped was tricky, although possible. In addition, obvious loops
1586 * didn't work as expected. (The command ':ab a b|ab b c|ab c a' will
1587 * silently only implement and/or display the last abbreviation.)
1588 *
1589 * This implementation doesn't recover well from such abbreviations.
1590 * The main input loop counts abbreviated characters, and, when it
1591 * reaches a limit, discards any abbreviated characters on the queue.
1592 * It's difficult to back up to the original position, as the replay
1593 * queue would have to be adjusted, and the line state when an initial
1594 * abbreviated character was received would have to be saved.
1595 */
1602 /*
1603 * If the size of the abbreviation is larger than or equal to the size
1604 * of the original text, move to the start of the replaced characters,
1605 * and add their length to the overwrite count.
1606 *
1607 * If the abbreviation is smaller than the original text, we have to
1608 * delete the additional overwrite characters and copy down any insert
1609 * characters.
1610 */
1620 }
1622 /*
1623 * We return the length of the abbreviated characters. This is so
1624 * the calling routine can replace the replay characters with the
1625 * abbreviation. This means that subsequent '.' commands will produce
1626 * the same text, regardless of intervening :[un]abbreviate commands.
1627 * This is historic practice.
1628 */
1631 }
1633 /*
1634 * txt_unmap --
1635 * Handle the unmap command.
1636 */
1637 static void
1642 {
1646 /* Find the beginning of this "word". */
1651 }
1655 }
1657 /*
1658 * !!!
1659 * Historic vi exploded input mappings on the command line. See the
1660 * txt_abbrev() routine for an explanation of the problems inherent
1661 * in this.
1662 *
1663 * We make this work as follows. If we get a string which is <blank>
1664 * terminated and which starts at the beginning of the line, we check
1665 * to see it is the unmap command. If it is, we return that the input
1666 * mapping should be turned off. Note also, minor trickiness, so that
1667 * if the user erases the line and starts another command, we go ahead
1668 * an turn mapping back on.
1669 */
1672 else
1674 }
1676 /*
1677 * txt_ai_resolve --
1678 * When a line is resolved by <esc>, review autoindent characters.
1679 */
1680 static void
1685 {
1686 u_long ts;
1693 /*
1694 * If the line is empty, has an offset, or no autoindent
1695 * characters, we're done.
1696 */
1700 /*
1701 * If the length is less than or equal to the autoindent
1702 * characters, delete them.
1703 */
1707 }
1709 /*
1710 * The autoindent characters plus any leading <blank> characters
1711 * in the line are resolved into the minimum number of characters.
1712 * Historic practice.
1713 */
1716 /* Figure out the last <blank> screen column. */
1726 }
1728 /*
1729 * If there are no spaces, or no tabs after spaces and less than
1730 * ts spaces, it's already minimal.
1731 */
1735 /* Count up spaces/tabs needed to get to the target. */
1740 /*
1741 * Figure out how many characters we're dropping -- if we're not
1742 * dropping any, it's already minimal, we're done.
1743 */
1749 /* Shift the rest of the characters down, adjust the counts. */
1755 /* Fill in space/tab characters. */
1761 }
1763 /*
1764 * v_txt_auto --
1765 * Handle autoindent. If aitp isn't NULL, use it, otherwise,
1766 * retrieve the line.
1767 *
1768 * PUBLIC: int v_txt_auto __P((SCR *, recno_t, TEXT *, size_t, TEXT *));
1769 */
1770 int
1773 recno_t lno;
1776 {
1781 /*
1782 * If the ex append command is executed with an address of 0,
1783 * it's possible to get here with a line number of 0. Return
1784 * an indent of 0.
1785 */
1789 }
1795 /* Count whitespace characters. */
1800 /* Set count, check for no indentation. */
1804 /* Make sure the buffer's big enough. */
1807 /* Copy the buffer's current contents up. */
1812 /* Copy the indentation into the new buffer. */
1815 /* Set the autoindent count. */
1818 }
1820 /*
1821 * txt_backup --
1822 * Back up to the previously edited line.
1823 */
1830 {
1834 /* Get a handle on the previous TEXT structure. */
1840 }
1842 /* Bookkeeping. */
1845 /* Handle appending to the line. */
1855 /* Release the current TEXT. */
1859 /* Update the old line on the screen. */
1863 /* Return the new/current TEXT. */
1865 }
1867 /*
1868 * Text indentation is truly strange. ^T and ^D do movements to the next or
1869 * previous shiftwidth value, i.e. for a 1-based numbering, with shiftwidth=3,
1870 * ^T moves a cursor on the 7th, 8th or 9th column to the 10th column, and ^D
1871 * moves it back.
1872 *
1873 * !!!
1874 * The ^T and ^D characters in historical vi had special meaning only when they
1875 * were the first characters entered after entering text input mode. As normal
1876 * erase characters couldn't erase autoindent characters (^T in this case), it
1877 * meant that inserting text into previously existing text was strange -- ^T
1878 * only worked if it was the first keystroke(s), and then could only be erased
1879 * using ^D. This implementation treats ^T specially anywhere it occurs in the
1880 * input, and permits the standard erase characters to erase the characters it
1881 * inserts.
1882 *
1883 * !!!
1884 * A fun test is to try:
1885 * :se sw=4 ai list
1886 * i<CR>^Tx<CR>^Tx<CR>^Tx<CR>^Dx<CR>^Dx<CR>^Dx<esc>
1887 * Historic vi loses some of the '$' marks on the line ends, but otherwise gets
1888 * it right.
1889 *
1890 * XXX
1891 * Technically, txt_dent should be part of the screen interface, as it requires
1892 * knowledge of character sizes, including <space>s, on the screen. It's here
1893 * because it's a complicated little beast, and I didn't want to shove it down
1894 * into the screen. It's probable that KEY_LEN will call into the screen once
1895 * there are screens with different character representations.
1896 *
1897 * txt_dent --
1898 * Handle ^T indents, ^D outdents.
1899 *
1900 * If anything changes here, check the ex version to see if it needs similar
1901 * changes.
1902 */
1903 static int
1908 {
1909 CHAR_T ch;
1917 /*
1918 * Since we don't know what precedes the character(s) being inserted
1919 * (or deleted), the preceding whitespace characters must be resolved.
1920 * An example is a <tab>, which doesn't need a full shiftwidth number
1921 * of columns because it's preceded by <space>s. This is easy to get
1922 * if the user sets shiftwidth to a value less than tabstop (or worse,
1923 * something for which tabstop isn't a multiple) and then uses ^T to
1924 * indent, and ^D to outdent.
1925 *
1926 * Figure out the current and target screen columns. In the historic
1927 * vi, the autoindent column was NOT determined using display widths
1928 * of characters as was the wrapmargin column. For that reason, we
1929 * can't use the vs_column() function, but have to calculate it here.
1930 * This is slow, but it's normally only on the first few characters of
1931 * a line.
1932 */
1940 else
1943 /*
1944 * The AI characters will be turned into overwrite characters if the
1945 * cursor immediately follows them. We test both the cursor position
1946 * and the indent flag because there's no single test. (^T can only
1947 * be detected by the cursor position, and while we know that the test
1948 * is always true for ^D, the cursor can be in more than one place, as
1949 * "0^D" and "^D" are different.)
1950 */
1953 /*
1954 * Back up over any previous <blank> characters, changing them into
1955 * overwrite characters (including any ai characters). Then figure
1956 * out the current screen column.
1957 */
1965 /*
1966 * If we didn't move up to or past the target, it's because there
1967 * weren't enough characters to delete, e.g. the first character
1968 * of the line was a tp->offset character, and the user entered
1969 * ^D to move to the beginning of a line. An example of this is:
1970 *
1971 * :set ai sw=4<cr>i<space>a<esc>i^T^D
1972 *
1973 * Otherwise, count up the total spaces/tabs needed to get from the
1974 * beginning of the line (or the last non-<blank> character) to the
1975 * target.
1976 */
1984 }
1986 /* If we overwrote ai characters, reset the ai count. */
1990 /*
1991 * Call txt_insch() to insert each character, so that we get the
1992 * correct effect when we add a <tab> to replace N <spaces>.
1993 */
1999 }
2001 /*
2002 * txt_fc --
2003 * File name completion.
2004 */
2005 static int
2010 {
2013 CHAR_T s_ch;
2014 EXCMD cmd;
2022 /*
2023 * Find the beginning of this "word" -- if we're at the beginning
2024 * of the line, it's a special case.
2025 */
2035 }
2039 }
2041 /*
2042 * Get enough space for a wildcard character.
2043 *
2044 * XXX
2045 * This won't work for "foo\", since the \ will escape the expansion
2046 * character. I'm not sure if that's a bug or not...
2047 */
2055 /* Build an ex command, and call the ex expansion routines. */
2060 }
2072 /* If something changed, do the exchange. */
2077 /* If haven't done a directory test, do it now. */
2082 }
2084 /* If nothing changed, period, ring the bell. */
2093 /* Find the length of the shortest match. */
2101 }
2103 }
2105 /* Overwrite the expanded text first. */
2109 /* If lost text, make the remaining old text overwrite characters. */
2113 }
2115 /* Overwrite any overwrite characters next. */
2119 /* Shift remaining text up, and move the cursor to the end. */
2132 }
2134 /* If a single match and it's a directory, retry it. */
2151 }
2153 }
2155 /*
2156 * txt_fc_col --
2157 * Display file names for file name completion.
2158 */
2159 static int
2164 {
2173 /* Trim any directory prefix common to all of the files. */
2183 }
2184 }
2186 /*
2187 * Figure out the column width for the longest name. Output is done on
2188 * 6 character "tab" boundaries for no particular reason. (Since we
2189 * don't output tab characters, we ignore the terminal's tab settings.)
2190 * Ignore the user's tab setting because we have no idea how reasonable
2191 * it is.
2192 */
2198 }
2201 /*
2202 * Writing to the bottom line of the screen is always turned off when
2203 * SC_TINPUT_INFO is set. Turn it back on, we know what we're doing.
2204 */
2211 #define CHK_INTR \
2212 if (F_ISSET(gp, G_INTERRUPTED)) \
2213 goto intr;
2215 /* If the largest file name is too large, just print them. */
2222 }
2225 CHK_INTR;
2227 /* Figure out the number of columns. */
2236 /* Display the files in sorted order. */
2243 CHK_INTR;
2248 CHK_INTR;
2249 }
2251 CHK_INTR;
2252 }
2254 CHK_INTR;
2255 }
2260 }
2265 }
2267 /*
2268 * txt_emark --
2269 * Set the end mark on the line.
2270 */
2271 static int
2276 {
2283 /*
2284 * The end mark may not be the same size as the current character.
2285 * Don't let the line shift.
2286 */
2290 else
2293 /*
2294 * If the line got longer, well, it's weird, but it's easy. If
2295 * it's the same length, it's easy. If it got shorter, we have
2296 * to fix it up.
2297 */
2311 else
2315 }
2318 }
2320 /*
2321 * txt_err --
2322 * Handle an error during input processing.
2323 */
2324 static void
2328 {
2329 recno_t lno;
2331 /*
2332 * The problem with input processing is that the cursor is at an
2333 * indeterminate position since some input may have been lost due
2334 * to a malloc error. So, try to go back to the place from which
2335 * the cursor started, knowing that it may no longer be available.
2336 *
2337 * We depend on at least one line number being set in the text
2338 * chain.
2339 */
2346 /* Redraw the screen, just in case. */
2348 }
2350 /*
2351 * txt_hex --
2352 * Let the user insert any character value they want.
2353 *
2354 * !!!
2355 * This is an extension. The pattern "^X[0-9a-fA-F]*" is a way
2356 * for the user to specify a character value which their keyboard
2357 * may not be able to enter.
2358 */
2359 static int
2363 {
2364 CHAR_T savec;
2366 u_long value;
2369 /*
2370 * Null-terminate the string. Since nul isn't a legal hex value,
2371 * this should be okay, and lets us use a local routine, which
2372 * presumably understands the character set, to convert the value.
2373 */
2377 /* Find the previous CH_HEX character. */
2382 }
2383 /* Not on this line? Shouldn't happen. */
2386 }
2388 /* If length of 0, then it wasn't a hex value. */
2392 /* Get the value. */
2398 }
2400 /* Restore the original character. */
2403 /* Adjust the bookkeeping. */
2408 /* Copy down any overwrite characters. */
2412 /* Copy down any insert characters. */
2418 }
2420 /*
2421 * txt_insch --
2422 *
2423 * !!!
2424 * Historic vi did a special screen optimization for tab characters. As an
2425 * example, for the keystrokes "iabcd<esc>0C<tab>", the tab overwrote the
2426 * rest of the string when it was displayed.
2427 *
2428 * Because early versions of this implementation redisplayed the entire line
2429 * on each keystroke, the "bcd" was pushed to the right as it ignored that
2430 * the user had "promised" to change the rest of the characters. However,
2431 * the historic vi implementation had an even worse bug: given the keystrokes
2432 * "iabcd<esc>0R<tab><esc>", the "bcd" disappears, and magically reappears
2433 * on the second <esc> key.
2434 *
2435 * POSIX 1003.2 requires (will require) that this be fixed, specifying that
2436 * vi overwrite characters the user has committed to changing, on the basis
2437 * of the screen space they require, but that it not overwrite other characters.
2438 */
2439 static int
2444 u_int flags;
2445 {
2450 /*
2451 * The 'R' command does one-for-one replacement, because there's
2452 * no way to know how many characters the user intends to replace.
2453 */
2459 }
2463 /*
2464 * If the old or new characters are tabs, then the length of the
2465 * display depends on the character position in the display. We
2466 * don't even try to handle this here, just ask the screen.
2467 */
2476 /*
2477 * Eat overwrite characters until we run out of them or we've
2478 * handled the length of the new character. If we only eat
2479 * part of an overwrite character, break it into its component
2480 * elements and display the remaining components.
2481 */
2488 else
2494 }
2510 else
2517 }
2518 }
2520 /*
2521 * If had to erase several characters, we adjust the total
2522 * count, and if there are any characters left, shift them
2523 * into position.
2524 */
2529 /* If we had enough overwrite characters, we're done. */
2533 }
2534 }
2536 /* Check to see if the character fits into the input buffer. */
2543 else
2546 }
2549 }
2551 /*
2552 * txt_isrch --
2553 * Do an incremental search.
2554 */
2555 static int
2561 {
2562 MARK start;
2563 recno_t lno;
2564 u_int sf;
2566 /* If it's a one-line screen, we don't do incrementals. */
2570 }
2572 /*
2573 * If the user erases back to the beginning of the buffer, there's
2574 * nothing to search for. Reset the cursor to the starting point.
2575 */
2579 }
2581 /*
2582 * If it's an RE quote character, and not quoted, ignore it until
2583 * we get another character.
2584 */
2589 /*
2590 * If it's a magic shell character, and not quoted, reset the cursor
2591 * to the starting point.
2592 */
2597 /*
2598 * If we see the search pattern termination character, then quit doing
2599 * an incremental search. There may be more, e.g., ":/foo/;/bar/",
2600 * and we can't handle that incrementally. Also, reset the cursor to
2601 * the original location, the ex search routines don't know anything
2602 * about incremental searches.
2603 */
2609 }
2611 /*
2612 * Remember the input line and discard the special input map,
2613 * but don't overwrite the input line on the screen.
2614 */
2621 /*
2622 * Specify a starting point and search. If we find a match, move to
2623 * it and refresh the screen. If we didn't find the match, then we
2624 * beep the screen. When searching from the original cursor position,
2625 * we have to move the cursor, otherwise, we don't want to move the
2626 * cursor in case the text at the current position continues to match.
2627 */
2634 }
2650 /* Reinstantiate the special input map. */
2656 /* Reset the line number of the input line. */
2659 /*
2660 * If the colon command-line moved, i.e. the screen scrolled,
2661 * refresh the input line.
2662 *
2663 * XXX
2664 * We shouldn't be calling vs_line, here -- we need dirty bits
2665 * on entries in the SMAP array.
2666 */
2671 }
2673 }
2675 /*
2676 * txt_resolve --
2677 * Resolve the input text chain into the file.
2678 */
2679 static int
2683 u_int32_t flags;
2684 {
2687 recno_t lno;
2690 /*
2691 * The first line replaces a current line, and all subsequent lines
2692 * are appended into the file. Resolve autoindented characters for
2693 * each line before committing it. If the latter causes the line to
2694 * change, we have to redisplay it, otherwise the information cached
2695 * about the line will be wrong.
2696 */
2702 else
2711 else
2716 }
2718 /*
2719 * Clear the input flag, the look-aside buffer is no longer valid.
2720 * Has to be done as part of text resolution, or upon return we'll
2721 * be looking at incorrect data.
2722 */
2726 }
2728 /*
2729 * txt_showmatch --
2730 * Show a character match.
2731 *
2732 * !!!
2733 * Historic vi tried to display matches even in the :colon command line.
2734 * I think not.
2735 */
2736 static int
2740 {
2742 VCS cs;
2743 MARK m;
2748 /*
2749 * Do a refresh first, in case we haven't done one in awhile,
2750 * so the user can see what we're complaining about.
2751 */
2756 /*
2757 * We don't display the match if it's not on the screen. Find
2758 * out what the first character on the screen is.
2759 */
2763 /* Initialize the getc() interface. */
2770 /* Search for the match. */
2779 }
2781 }
2786 }
2788 /* If the match is on the screen, move to it. */
2796 /* Wait for timeout or character arrival. */
2799 }
2801 /*
2802 * txt_margin --
2803 * Handle margin wrap.
2804 */
2805 static int
2810 u_int32_t flags;
2811 {
2816 /* Find the nearest previous blank. */
2821 }
2823 /*
2824 * If reach the start of the line, there's nowhere to break.
2825 *
2826 * !!!
2827 * Historic vi belled each time a character was entered after
2828 * crossing the margin until a space was entered which could
2829 * be used to break the line. I don't as it tends to wake the
2830 * cats.
2831 */
2835 }
2836 }
2838 /*
2839 * Store saved information about the rest of the line in the
2840 * wrapmargin TEXT structure.
2841 *
2842 * !!!
2843 * The offset field holds the length of the current characters
2844 * that the user entered, but which are getting split to the new
2845 * line -- it's going to be used to set the cursor value when we
2846 * move to the new line.
2847 */
2854 /* Correct current bookkeeping information. */
2862 }
2865 /*
2866 * !!!
2867 * Delete any trailing whitespace from the current line.
2868 */
2876 }
2879 }
2881 /*
2882 * txt_Rresolve --
2883 * Resolve the input line for the 'R' command.
2884 */
2885 static void
2891 {
2896 /*
2897 * Check to make sure that the cursor hasn't moved beyond
2898 * the end of the line.
2899 */
2903 /*
2904 * Calculate how many characters the user has entered,
2905 * plus the blanks erased by <carriage-return>/<newline>s.
2906 */
2911 }
2913 /*
2914 * If the user has entered less characters than the original line
2915 * was long, restore any overwriteable characters to the original
2916 * characters. These characters are entered as "insert characters",
2917 * because they're after the cursor and we don't want to lose them.
2918 * (This is okay because the R command has no insert characters.)
2919 * We set owrite to 0 so that the insert characters don't get copied
2920 * to somewhere else, which means that the line and the length have
2921 * to be adjusted here as well.
2922 *
2923 * We have to retrieve the original line because the original pinned
2924 * page has long since been discarded. If it doesn't exist, that's
2925 * okay, the user just extended the file.
2926 */
2936 }
2937 }
2939 /*
2940 * txt_nomorech --
2941 * No more characters message.
2942 */
2943 static void
2946 {
2948 }