xref: /original-bsd/bin/ed/ed.1 (revision 93ab02a6)
1.\" Copyright (c) 1980, 1991 The Regents of the University of California.
2.\" All rights reserved.
3.\"
4.\" %sccs.include.proprietary.man%
5.\"
6.\"	@(#)ed.1	6.7 (Berkeley) 04/08/91
7.\"
8.Vx
9.Dd
10.Dt ED 1
11.Os ATT 7th
12.Sh NAME
13.Nm ed
14.Nd text editor
15.Sh SYNOPSIS
16.Nm ed
17.Op Fl
18.Op Fl x
19.Op Ar file
20.Sh DESCRIPTION
21.Nm Ed
22is the standard text editor.
23.Pp
24If a
25.Ar file
26argument is given,
27.Nm ed
28simulates an
29.Ic e
30command (see below) on the named file; that is to say,
31the file is read into
32.Nm ed 's
33buffer so that it can be edited.
34.Tw Ds
35.Tp Fl x
36An
37.Ic x
38command is simulated first to handle an encrypted file.
39.Tp Fl
40Suppresses the printing
41of explanatory output
42and should be used
43when the standard input is
44an editor script.
45.Tp
46.Pp
47.Nm Ed
48operates on a copy of any file it is editing; changes made
49in the copy have no effect on the file until a
50.Ic w
51(write) command is given.
52The copy of the text being edited resides
53in a temporary file called the
54.Ar buffer  .
55.Pp
56Commands to
57.Nm ed
58have a simple and regular structure: zero or
59more
60.Ar addresses
61followed by a single character
62.Ar command ,
63possibly
64followed by parameters to the command.
65These addresses specify one or more lines in the buffer.
66Missing addresses are supplied by default.
67.Pp
68In general, only one command may appear on a line.
69Certain commands allow the
70addition of text to the buffer.
71While
72.Nm ed
73is accepting text, it is said
74to be in
75.Ar input mode .
76In this mode, no commands are recognized;
77all input is merely collected.
78Input mode is left by typing a period
79.Sq Ic \&.
80alone at the
81beginning of a line.
82.Pp
83.Nm Ed
84supports a limited form of
85.Ar regular expression
86notation.
87A regular expression specifies
88a set of strings of characters.
89A member of this set of strings is said to be
90.Ar matched
91by the regular expression.
92In the following specification for regular expressions
93the word `character' means any character but newline.
94.Tw Ds
95.Tp 1.
96Any character except a special character
97matches itself.
98Special characters are
99the regular expression delimiter plus
100.Sq Cm \e\[.
101and sometimes
102.Sq Cm ^*$ .
103.Tp 2.
104A
105.Sq Cm \&.
106matches any character.
107.Tp 3.
108A
109.Sq Li \e
110followed by any character except a digit or
111.Li (\)
112matches that character.
113.Tp 4.
114A nonempty string
115.Op Ar s
116or
117.Oo
118.Cx \&(
119.Op Cm \&^ Ar s
120.Cx \&)
121.Cx
122.Oo
123matches any character in (or not in)
124.Ar s .
125In
126.Ar s ,
127.Sq Li \e
128has no special meaning, and
129may only appear as
130the first letter.
131A substring
132.Ar a\-b ,
133with
134.Ar a
135and
136.Ar b
137in ascending ASCII order, stands for the inclusive
138range of ASCII characters.
139.Tp 5.
140A regular expression of form 1\-4 followed by * matches a sequence of
1410 or more matches of the regular expression.
142.Tp 6.
143A regular expression,
144.Ar x ,
145of form 1\-8, bracketed
146.Cx Li \e(
147.Ar x
148.Li \e)
149.Cx
150matches what
151.Ar x
152matches.
153.Tp 7.
154A \e followed by a digit
155.Ar n
156matches a copy of the string that the
157bracketed regular expression beginning with the
158.Cx Ar n
159.Cx \'th
160.Cx
161.Li \e(
162matched.
163.Tp 8.
164A regular expression of form 1\-8,
165.Ar x ,
166followed by a regular expression of form 1\-7,
167.Ar y
168matches a match for
169.Ar x
170followed by a match for
171.Ar y ,
172with the
173.Ar x
174match being as long as possible while still permitting a
175.Ar y
176match.
177.Tp 9.
178A regular expression of form 1\-8 preceded by
179.Sq Li ^
180(or followed by
181.Sq Li $ ) ,
182is constrained to matches that
183begin at the left (or end at the right) end of a line.
184.Tp 10.
185A regular expression of form 1\-9 picks out the
186longest among the leftmost matches in a line.
187.Tp 11.
188An empty regular expression stands for a copy of the
189last regular expression encountered.
190.Tp
191.Pp
192Regular expressions are used in addresses to specify
193lines and in one command
194(see
195.Ar s
196below)
197to specify a portion of a line which is to be replaced.
198If it is desired to use one of
199the regular expression metacharacters as an ordinary
200character, that character may be preceded by
201.Sq Li \e .
202This also applies to the character bounding the regular
203expression (often
204.Sq Li \&/ )
205and to
206.Sq Li \e
207itself.
208.Pp
209To understand addressing in
210.Nm ed
211it is necessary to know that at any time there is a
212.Ar current line.
213Generally speaking, the current line is
214the last line affected by a command; however,
215the exact effect on the current line
216is discussed under the description of
217the command.
218Addresses are constructed as follows.
219.Tw Ds
220.Tp 1.
221The character
222.Sq Ic \&.
223addresses the current line.
224.Tp 2.
225The character
226.Cx `
227.Ic $
228.Cx \'
229.Cx
230addresses the last line of the buffer.
231.Tp 3.
232A decimal number
233.Ar n
234addresses the
235.Cx Ar n
236.Cx \'th
237.Cx
238line of the buffer.
239.Tp 4.
240.Cx `\(fm
241.Ar x
242.Cx \'
243.Cx
244addresses the line marked with the name
245.Ar x  ,
246which must be a lower-case letter.
247Lines are marked with the
248.Ar k
249command described below.
250.Tp 5.
251A regular expression enclosed in slashes
252.Cx `
253.Li /
254.Cx \'
255.Cx
256addresses
257the line found by searching forward from the current line
258and stopping at the first line containing a
259string that matches the regular expression.
260If necessary the search wraps around to the beginning of the
261buffer.
262.Tp 6.
263A regular expression enclosed in queries
264.Cx `
265.Li ?
266.Cx \'
267.Cx
268addresses
269the line found by searching backward from the current line
270and stopping at the first line containing
271a string that matches the regular expression.
272If necessary
273the search wraps around to the end of the buffer.
274.Tp 7.
275An address followed by a plus sign
276.Cx `
277.Li +
278.Cx \'
279.Cx
280or a minus sign
281.Cx `
282.Li \-
283.Cx \'
284.Cx
285followed by a decimal number specifies that address plus
286(resp. minus) the indicated number of lines.
287The plus sign may be omitted.
288.Tp 8.
289If an address begins with
290.Cx `
291.Li +
292.Cx \'
293.Cx
294or
295.Cx `
296.Li \-
297.Cx \'
298.Cx
299the addition or subtraction is taken with respect to the current line;
300e.g.
301.Cx `
302.Li \-5
303.Cx \'
304.Cx
305is understood to mean
306.Cx `
307.Li .\-5
308.Cx \'
309.Cx
310.Nm .
311.Tp 9.
312If an address ends with
313.Cx `
314.Li +
315.Cx \'
316.Cx
317.Cx `
318.Li \-
319.Cx \',
320.Cx
321then 1 is added (resp. subtracted).
322As a consequence of this rule and rule 8,
323the address
324.Cx `
325.Li \-
326.Cx \'
327.Cx
328refers to the line before the current line.
329Moreover,
330trailing
331.Cx `
332.Li +
333.Cx \'
334.Cx
335and
336.Cx `
337.Li \-
338.Cx \'
339.Cx
340characters
341have cumulative effect, so
342.Cx `
343.Li \-\-
344.Cx \'
345.Cx
346refers to the current
347line less 2.
348.Tp 10.
349To maintain compatibility with earlier versions of the editor,
350the character
351.Cx `
352.Li ^
353.Cx \'
354.Cx
355in addresses is
356equivalent to
357.Cx `
358.Li \-
359.Cx \'.
360.Cx
361.Tp
362.Pp
363Commands may require zero, one, or two addresses.
364Commands which require no addresses regard the presence
365of an address as an error.
366Commands which accept one or two addresses
367assume default addresses when insufficient are given.
368If more addresses are given than such a command requires,
369the last one or two (depending on what is accepted) are used.
370.Pp
371Addresses are separated from each other typically by a comma
372.Cx `
373.Li ,
374.Cx \'
375.Cx
376They may also be separated by a semicolon
377.Cx `
378.Li ;
379.Cx \'
380.Cx
381In this case the current line
382.Cx `
383.Li .
384.Cx \'
385.Cx
386.Nm .
387is set to
388the previous address before the next address is interpreted.
389This feature can be used to determine the starting
390line for forward and backward searches
391.Cx \&(`
392.Li /
393.Cx \'
394.Cx
395.Cx `
396.Li ?
397.Cx \').
398.Cx
399The second address of any two-address sequence
400must correspond to a line following the line corresponding to the first address.
401The special form
402.Cx `
403.Li \&%
404.Cx \'
405.Cx
406is an abbreviation for the address pair
407.Cx `
408.Li 1,$
409.Cx \'.
410.Cx
411.Pp
412In the following list of
413.Nm ed
414commands, the default addresses
415are shown in parentheses.
416The parentheses are not part of
417the address, but are used to show that the given addresses are
418the default.
419.Pp
420As mentioned, it is generally illegal for more than one
421command to appear on a line.
422However, most commands may be suffixed by `p'
423or by `l', in which case
424the current line is either
425printed or listed respectively
426in the way discussed below.
427Commands may also be suffixed by `n',
428meaning the output of the command is to
429be line numbered.
430These suffixes may be combined in any order.
431.Tw Ds
432.Tp Cx \&(
433.Ic .
434.Cx \&)
435.Ic a
436.Cx
437.Tp <text>
438.Tp Ic \&.
439The append command reads the given text
440and appends it after the addressed line.
441.Sq Ic \&.
442is left
443on the last line input, if there
444were any, otherwise at the addressed line.
445Address `0' is legal for this command; text is placed
446at the beginning of the buffer.
447.Tp Cx \&(
448.Ic \&.
449.Cx \&,
450.Ic \&.
451.Cx \&)
452.Ic \&c
453.Cx
454.Tp <text>
455.Tp Ic \&.
456The change
457command deletes the addressed lines, then accepts input
458text which replaces these lines.
459.Sq Ic \&.
460is left at the last line input; if there were none,
461it is left at the line preceding the deleted lines.
462.Tp Cx \&(
463.Ic \&.
464.Cx \&,
465.Ic \&.
466.Cx \&)
467.Ic \&d
468.Cx
469The delete command deletes the addressed lines from the buffer.
470The line originally after the last line deleted becomes the current line;
471if the lines deleted were originally at the end,
472the new last line becomes the current line.
473.Tp Cx Ic \&e
474.Cx \&\ \&
475.Ar filename
476.Cx
477The edit
478command causes the entire contents of the buffer to be deleted,
479and then the named file to be read in.
480.Sq Ic \&.
481is set to the last line of the buffer.
482The number of characters read is typed.
483.Ar filename
484is remembered for possible use as a default file name
485in a subsequent
486.Ic r
487or
488.Ic w
489command.
490If
491.Ar filename
492is missing, the remembered name is used.
493.Tp Cx Ic E
494.Cx \&\ \&
495.Ar filename
496.Cx
497This command is the same as
498.Ic e ,
499except that no diagnostic results when no
500.Ic w
501has been given since the last buffer alteration.
502.Tp Cx Ic f
503.Cx \&\ \&
504.Ar filename
505.Cx
506The filename command prints the currently remembered file name.
507If
508.Ar filename
509is given,
510the currently remembered file name is changed to
511.Ar filename .
512.Tp Cx \&(
513.Ic \&1
514.Cx \&,
515.Ic \&$
516.Cx \&)
517.Ic \&g
518.Ar/regular expression/command list
519.Cx
520In the global
521command, the first step is to mark every line which matches
522the given regular expression.
523Then for every such line, the
524given command list is executed with
525.Cx `
526.Ic \&.
527.Cx \'
528.Cx
529initially set to that line.
530A single command or the first of multiple commands
531appears on the same line with the global command.
532All lines of a multi-line list except the last line must be ended with
533.Cx `
534.Ic \&\e
535.Cx \'.
536.Cx
537.Ic A ,
538.Ic i,
539and
540.Ic c
541commands and associated input are permitted;
542the
543.Cx `
544.Ic \&.
545.Cx \'
546.Cx
547terminating input mode may be omitted if it would be on the
548last line of the command list.
549The commands
550.Ic g
551and
552.Ic v
553are not permitted in the command list.
554.Tp Cx \&(
555.Ic .
556.Cx \&)
557.Ic i
558.Cx
559.Tp <text>
560.Tp Ic \&.
561This command inserts the given text before the addressed line.
562.Cx `
563.Ic \&.
564.Cx \'
565.Cx
566is left at the last line input, or, if there were none,
567at the line before the addressed line.
568This command differs from the
569.Ic a
570command only in the placement of the
571text.
572.Tp Cx \&(
573.Ic \&.
574.Cx \&,
575.Ic \&.+1
576.Cx \&)
577.Ic \&j
578.Cx
579This command joins the addressed lines into a single line;
580intermediate newlines simply disappear.
581.Cx `
582.Ic \&.
583.Cx \'
584.Cx
585is left at the resulting line.
586.Tp Cx \&(
587.Ic .
588.Cx \&)
589.Ic k
590.Ar x
591.Cx
592The mark command marks the addressed line with
593name
594.Ar x ,
595which must be a lower-case letter.
596The address form
597.Cx `\(fm
598.Ar x
599.Cx \'
600.Cx
601then addresses this line.
602.Tp Cx \&(
603.Ic \&.
604.Cx \&,
605.Ic \&.
606.Cx \&)
607.Ic \&l
608.Cx
609The list command
610prints the addressed lines in an unambiguous way:
611non-graphic characters are
612printed in two-digit octal,
613and long lines are folded.
614The
615.Ar l
616command may be placed on the same line after any non-i/o
617command.
618.Tp Cx \&(
619.Ic \&.
620.Cx \&,
621.Ic \&.
622.Cx \&)
623.Ic \&m
624.Ar a
625.Cx
626The move command repositions the addressed lines after the line
627addressed by
628.Ar a  .
629The last of the moved lines becomes the current line.
630.Tp Cx \&(
631.Ic \&.
632.Cx \&,
633.Ic \&.
634.Cx \&)
635.Ic \&p
636.Cx
637The print command prints the addressed lines.
638.Cx `
639.Ic \&.
640.Cx \'
641.Cx
642is left at the last line printed.
643The
644.Ic p
645command
646may
647be placed on the same line after any non-i/o command.
648.Tp Cx \&(
649.Ic \&.
650.Cx \&,
651.Ic \&.
652.Cx \&)
653.Ic \&P
654.Cx
655This command is a synonym for
656.Ic p .
657.Tp Ic q
658The quit command causes
659.Nm ed
660to exit.
661No automatic write
662of a file is done.
663.Tp Ic Q
664This command is the same as
665.Ic q ,
666except that no diagnostic results when no
667.Ic w
668has been given since the last buffer alteration.
669.Tp Cx \&(
670.Ic $
671.Cx \&)
672.Ic r
673.Cx \&\ \&
674.Ar filename
675.Cx
676The read command
677reads in the given file after the addressed line.
678If no file name is given,
679the remembered file name, if any, is used
680(see
681.Ic e
682and
683.Ic f
684commands).
685The file name is remembered if there was no
686remembered file name already.
687Address `0' is legal for
688.Ic r
689and causes the
690file to be read at the beginning of the buffer.
691If the read is successful, the number of characters
692read is typed.
693.Cx `
694.Ic \&.
695.Cx \'
696.Cx
697is left at the last line read in from the file.
698.Tp Cx \&(
699.Ic \&.
700.Cx \&,
701.Ic \&.
702.Cx \&)
703.Ic \&s
704.Ar/regular expression/replacement/
705.Cx \&\tor
706.Cx
707.Tp Cx \&(
708.Ic \&.
709.Cx \&,
710.Ic \&.
711.Cx \&)
712.Ic \&s
713.Ar/regular expression/replacement/
714.Ic \&g
715.Cx
716The substitute command searches each addressed
717line for an occurrence of the specified regular expression.
718On each line in which a match is found,
719all matched strings are replaced by the replacement specified,
720if the global replacement indicator
721.Ic \&g
722appears after the command.
723If the global indicator does not appear, only the first occurrence
724of the matched string is replaced.
725It is an error for the substitution to fail on all addressed lines.
726Any punctuation character
727may be used instead of
728.Cx `
729.Ic \&/
730.Cx \'
731.Cx
732to delimit the regular expression
733and the replacement.
734.Cx `
735.Ic \&.
736.Cx \'
737.Cx
738is left at the last line substituted.
739An ampersand
740.Cx `
741.Ic \&&
742.Cx \'
743.Cx
744appearing in the replacement
745is replaced by the string matching the regular expression.
746The special meaning of
747.Cx `
748.Ic \&&
749.Cx \'
750.Cx
751in this context may be
752suppressed by preceding it by
753.Cx `
754.Ic \&\e
755.Cx \'.
756.Cx
757The characters
758.Cx `
759.Ic \&\e
760.Ar n
761.Cx \'
762.Cx
763where
764.Ar n
765is a digit,
766are replaced by the text matched by the
767.Cx Ar n
768.Cx \'th
769.Cx
770regular subexpression
771enclosed between
772.Cx `
773.Ic \&\e\&(
774.Cx \'.
775.Cx
776and
777.Cx `
778.Ic \&\e\&)
779.Cx \'.
780.Cx
781When
782nested, parenthesized subexpressions
783are present,
784.Ar n
785is determined by counting occurrences of
786.Cx `
787.Ic \&\e\&(
788.Cx \'.
789.Cx
790starting from the left.
791Lines may be split by substituting new-line characters into them.
792The new-line in the
793replacement string
794must be escaped by preceding it by
795.Cx `
796.Ic \&\e
797.Cx \'.
798.Cx
799One or two trailing delimiters may be omitted,
800implying the
801.Ic p
802suffix.
803The special form
804.Ic s
805followed by
806.Ar no
807delimiters
808repeats the most recent substitute command
809on the addressed lines.
810The
811.Ic s
812may be followed by the letters
813.Ic r
814(use the most recent regular expression for the
815left hand side, instead of the most recent
816left hand side of a substitute command),
817.Ic p
818(complement the setting of the
819.Ic p
820suffix from the previous substitution), or
821.Ic g
822(complement the setting of the
823.Ic g
824suffix).
825These letters may be combined in any order.
826.Tp Cx \&(
827.Ic \&.
828.Cx \&,
829.Ic \&.
830.Cx \&)
831.Ic \&t
832.Ar a
833.Cx
834This command acts just like the
835.Ic m
836command, except that a copy of the addressed lines is placed
837after address
838.Ad a
839(which may be 0).
840.Cx `
841.Ic \&.
842.Cx \'
843.Cx
844is left on the last line of the copy.
845.Tp Cx \&(
846.Ic \&.
847.Cx \&,
848.Ic \&.
849.Cx \&)
850.Ic \&u
851.Cx
852The undo command restores the buffer to it's state
853before the most recent buffer modifying command.
854The current line is also restored.
855Buffer modifying commands are
856.Ic a , c , d , g , i , k , m , r , s , t ,
857and
858.Ic v .
859For purposes of undo,
860.Ic g
861and
862.Ic v
863are considered to be a single buffer modifying command.
864Undo is its own inverse.
865When
866.Nm ed
867runs out of memory
868(at about 8000 lines on any 16 bit mini-computer
869such as the PDP-11)
870This full undo is not possible, and
871.Ic u
872can only undo the effect of the most recent
873substitute on the current line.
874This restricted undo also applies to editor scripts
875when
876.Nm ed
877is invoked with the
878.Fl
879option.
880.Tp Cx \&(
881.Ic \&1
882.Cx \&,
883.Ic \&$
884.Cx \&)
885.Ic \&v
886.Ar/regular expression/command list
887.Cx
888This command is the same as the global command
889.Ic g
890except that the command list is executed
891.Ic g
892with
893.Cx `
894.Ic \&.
895.Cx \'
896.Cx
897initially set to every line
898.Em except
899those
900matching the regular expression.
901(1, $)\w filename
902.Tp Cx \&(
903.Ic \&1
904.Cx \&,
905.Ic \&$
906.Cx \&)
907.Ic \&w
908.Cx \&\ \&
909.Ar filename
910.Cx
911The write command writes the addressed lines onto
912the given file.
913If the file does not exist,
914it is created.
915The file name is remembered if there was no
916remembered file name already.
917If no file name is given,
918the remembered file name, if any, is used
919(see
920.Ic e
921and
922.Ic f
923commands).
924.Cx `
925.Ic \&.
926.Cx \'
927.Cx
928is unchanged.
929If the command is successful, the number of characters written is
930printed.
931.Tp Cx \&(
932.Ic \&1
933.Cx \&,
934.Ic \&$
935.Cx \&)
936.Ic \&W
937.Cx \&\ \&
938.Ar filename
939.Cx
940This command is the same as
941.Ic w ,
942except that the addressed lines are appended to the file.
943.Tp Cx \&(
944.Ic \&1
945.Cx \&,
946.Ic \&$
947.Cx \&)
948.Ic \&wq
949.Cx \&\ \&
950.Ar filename
951.Cx
952This command is the same as
953.Ic w
954except that afterwards a
955.Ic q
956command is done,
957exiting the editor
958after the file is written.
959.Tp x
960A key string is demanded from the standard input.
961Later
962.Ic r , e
963and
964.Ic w
965commands will encrypt and decrypt the text
966with this key by the algorithm of
967.Xr crypt  1  .
968An explicitly empty key turns off encryption.
969.Ic \&1
970.Ic \&+1
971.Cx \&)
972.Ic \&z
973.Cx \&\ \ \&or,
974.Cx
975.Tp Cx \&(
976.Ic \&1
977.Ic \&+1
978.Cx \&)
979.Ic \&z
980.Ar n
981.Cx
982This command scrolls through the buffer starting at the addressed line.
98322 (or
984.Ar n ,
985if given)
986lines are printed.
987The last line printed becomes the current line.
988The value
989.Ar n
990is sticky, in that it becomes the default for
991future
992.Ic z
993commands.
994.Tp Cx \&(
995.Ic \&$
996.Cx \&)
997.Ic \&=
998.Cx
999The line number of the addressed line is typed.
1000.Cx `
1001.Ic \&.
1002.Cx \'
1003.Cx
1004is unchanged by this command.
1005.Tp Cx Ic \&!
1006.Cx <shell\ command>
1007.Cx
1008The remainder of the line after the `!' is sent
1009to
1010.Xr sh  1
1011to be interpreted as a command.
1012.Cx `
1013.Ic \&.
1014.Cx \'
1015.Cx
1016is unchanged.
1017.Tp Cx \&(
1018.Ic \&.+1
1019.Cx \&,
1020.Ic \&.+1
1021.Cx \&)
1022.Cx <newline>
1023.Cx
1024An address alone on a line causes the addressed line to be printed.
1025A blank line alone is equivalent to
1026.Ic .+1
1027it is useful
1028for stepping through text.
1029If two addresses are present with no
1030intervening semicolon,
1031.Nm ed
1032prints the range of lines.
1033If they are separated by a semicolon,
1034the second line is printed.
1035.Tp
1036.Pp
1037If an interrupt signal (ASCII DEL) is sent,
1038.Nm ed
1039prints
1040.Sq Li ?interrupted
1041and returns to its command level.
1042.Pp
1043Some size limitations:
1044512 characters per line,
1045256 characters per global command list,
104664 characters per file name,
1047and, on mini computers,
1048128K characters in the temporary file.
1049The limit on the number of lines depends on the amount of core:
1050each line takes 2 words.
1051.Pp
1052When reading a file,
1053.Nm ed
1054discards ASCII NUL characters
1055and all characters after the last newline.
1056It refuses to read files containing non-ASCII characters.
1057.Sh FILES
1058.Dw edhup
1059.Di L
1060.Dp Pa /tmp/e*
1061.Dp Pa edhup
1062work is saved here if terminal hangs up
1063.Dp
1064.Sh SEE ALSO
1065.Xr ex 1 ,
1066.Xr sed 1 ,
1067.Xr crypt 1
1068.br
1069B. W. Kernighan,
1070.Em A Tutorial Introduction to the ED Text Editor
1071.br
1072B. W. Kernighan,
1073.Em Ar Advanced editing on UNIX
1074.Sh HISTORY
1075The
1076.Nm ed
1077command appeared in Version 6 AT&T UNIX.
1078.Sh DIAGNOSTICS
1079.Sq Li name
1080for inaccessible file;
1081.Sq Li ?self-explanatory message
1082for other errors.
1083.Pp
1084To protect against throwing away valuable work,
1085a
1086.Ic q
1087or
1088.Ic e
1089command is considered to be in error, unless a
1090.Ic w
1091has occurred since the last buffer change.
1092A second
1093.Ic q
1094or
1095.Ic e
1096will be obeyed regardless.
1097.Sh BUGS
1098The
1099.Ic l
1100command mishandles
1101.Li DEL .
1102.br
1103The
1104.Ic undo
1105command causes marks to be lost on affected lines.
1106.br
1107The
1108.Ic x
1109command,
1110.Fl x
1111option,
1112and
1113special treatment of hangups
1114only work on UNIX.
1115