xref: /freebsd/bin/sh/sh.1 (revision 1e413cf93298b5b97441a21d9a50fdcd0ee9945e)
1.\"-
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3.\"	The Regents of the University of California.  All rights reserved.
4.\"
5.\" This code is derived from software contributed to Berkeley by
6.\" Kenneth Almquist.
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31.\"
32.\"	from: @(#)sh.1	8.6 (Berkeley) 5/4/95
33.\" $FreeBSD$
34.\"
35.Dd October 7, 2006
36.Dt SH 1
37.Os
38.Sh NAME
39.Nm sh
40.Nd command interpreter (shell)
41.Sh SYNOPSIS
42.Nm
43.Op Fl /+abCEefIimnPpsTuVvx
44.Op Fl /+o Ar longname
45.Op Fl c Ar string
46.Op Ar arg ...
47.Sh DESCRIPTION
48The
49.Nm
50utility is the standard command interpreter for the system.
51The current version of
52.Nm
53is in the process of being changed to
54conform with the
55.St -p1003.2
56specification for the shell.
57This version has many features which make
58it appear
59similar in some respects to the Korn shell, but it is not a Korn
60shell clone like
61.Nm pdksh .
62Only features
63designated by
64.Tn POSIX ,
65plus a few Berkeley extensions, are being
66incorporated into this shell.
67This man page is not intended to be a tutorial nor a complete
68specification of the shell.
69.Ss Overview
70The shell is a command that reads lines from
71either a file or the terminal, interprets them, and
72generally executes other commands.
73It is the program that is started when a user logs into the system,
74although a user can select a different shell with the
75.Xr chsh 1
76command.
77The shell
78implements a language that has flow control constructs,
79a macro facility that provides a variety of features in
80addition to data storage, along with built-in history and line
81editing capabilities.
82It incorporates many features to
83aid interactive use and has the advantage that the interpretative
84language is common to both interactive and non-interactive
85use (shell scripts).
86That is, commands can be typed directly
87to the running shell or can be put into a file,
88which can be executed directly by the shell.
89.Ss Invocation
90.\"
91.\" XXX This next sentence is incredibly confusing.
92.\"
93If no arguments are present and if the standard input of the shell
94is connected to a terminal
95(or if the
96.Fl i
97option is set),
98the shell is considered an interactive shell.
99An interactive shell
100generally prompts before each command and handles programming
101and command errors differently (as described below).
102When first starting, the shell inspects argument 0, and
103if it begins with a dash
104.Pq Ql - ,
105the shell is also considered a login shell.
106This is normally done automatically by the system
107when the user first logs in.
108A login shell first reads commands
109from the files
110.Pa /etc/profile
111and then
112.Pa .profile
113in a user's home directory,
114if they exist.
115If the environment variable
116.Ev ENV
117is set on entry to a shell, or is set in the
118.Pa .profile
119of a login shell, the shell then reads commands from the file named in
120.Ev ENV .
121Therefore, a user should place commands that are to be executed only
122at login time in the
123.Pa .profile
124file, and commands that are executed for every shell inside the
125.Ev ENV
126file.
127The user can set the
128.Ev ENV
129variable to some file by placing the following line in the file
130.Pa .profile
131in the home directory,
132substituting for
133.Pa .shinit
134the filename desired:
135.Pp
136.Dl "ENV=$HOME/.shinit; export ENV"
137.Pp
138The first non-option argument specified on the command line
139will be treated as the
140name of a file from which to read commands (a shell script), and
141the remaining arguments are set as the positional parameters
142of the shell
143.Li ( $1 , $2 ,
144etc.).
145Otherwise, the shell reads commands
146from its standard input.
147.Pp
148Unlike older versions of
149.Nm
150the
151.Ev ENV
152script is only sourced on invocation of interactive shells.
153This
154closes a well-known, and sometimes easily exploitable security
155hole related to poorly thought out
156.Ev ENV
157scripts.
158.Ss Argument List Processing
159All of the single letter options to
160.Nm
161have a corresponding long name,
162with the exception of
163.Fl c
164and
165.Fl /+o .
166These long names are provided next to the single letter options
167in the descriptions below.
168The long name for an option may be specified as an argument to the
169.Fl /+o
170option of
171.Nm .
172Once the shell is running,
173the long name for an option may be specified as an argument to the
174.Fl /+o
175option of the
176.Ic set
177built-in command
178(described later in the section called
179.Sx Built-in Commands ) .
180Introducing an option with a dash
181.Pq Ql -
182enables the option,
183while using a plus
184.Pq Ql +
185disables the option.
186A
187.Dq Li --
188or plain
189.Ql -
190will stop option processing and will force the remaining
191words on the command line to be treated as arguments.
192The
193.Fl /+o
194and
195.Fl c
196options do not have long names.
197They take arguments and are described after the single letter options.
198.Bl -tag -width indent
199.It Fl a Li allexport
200Flag variables for export when assignments are made to them.
201.It Fl b Li notify
202Enable asynchronous notification of background job
203completion.
204(UNIMPLEMENTED)
205.It Fl C Li noclobber
206Do not overwrite existing files with
207.Ql > .
208.It Fl E Li emacs
209Enable the built-in
210.Xr emacs 1
211command line editor (disables the
212.Fl V
213option if it has been set).
214.It Fl e Li errexit
215Exit immediately if any untested command fails in non-interactive mode.
216The exit status of a command is considered to be
217explicitly tested if the command is part of the list used to control
218an
219.Ic if , elif , while ,
220or
221.Ic until ;
222if the command is the left
223hand operand of an
224.Dq Li &&
225or
226.Dq Li ||
227operator; or if the command is a pipeline preceded by the
228.Ic !\&
229operator.
230If a shell function is executed and its exit status is explicitly
231tested, all commands of the function are considered to be tested as
232well.
233.It Fl f Li noglob
234Disable pathname expansion.
235.It Fl I Li ignoreeof
236Ignore
237.Dv EOF Ap s
238from input when in interactive mode.
239.It Fl i Li interactive
240Force the shell to behave interactively.
241.It Fl m Li monitor
242Turn on job control (set automatically when interactive).
243.It Fl n Li noexec
244If not interactive, read commands but do not
245execute them.
246This is useful for checking the
247syntax of shell scripts.
248.It Fl P Li physical
249Change the default for the
250.Ic cd
251and
252.Ic pwd
253commands from
254.Fl L
255(logical directory layout)
256to
257.Fl P
258(physical directory layout).
259.It Fl p Li privileged
260Turn on privileged mode.
261This mode is enabled on startup
262if either the effective user or group ID is not equal to the
263real user or group ID.
264Turning this mode off sets the
265effective user and group IDs to the real user and group IDs.
266When this mode is enabled for interactive shells, the file
267.Pa /etc/suid_profile
268is sourced instead of
269.Pa ~/.profile
270after
271.Pa /etc/profile
272is sourced, and the contents of the
273.Ev ENV
274variable are ignored.
275.It Fl s Li stdin
276Read commands from standard input (set automatically
277if no file arguments are present).
278This option has
279no effect when set after the shell has already started
280running (i.e., when set with the
281.Ic set
282command).
283.It Fl T Li trapsasync
284When waiting for a child, execute traps immediately.
285If this option is not set,
286traps are executed after the child exits,
287as specified in
288.St -p1003.2 .
289This nonstandard option is useful for putting guarding shells around
290children that block signals.
291The surrounding shell may kill the child
292or it may just return control to the tty and leave the child alone,
293like this:
294.Bd -literal -offset indent
295sh -T -c "trap 'exit 1' 2 ; some-blocking-program"
296.Ed
297.It Fl u Li nounset
298Write a message to standard error when attempting
299to expand a variable that is not set, and if the
300shell is not interactive, exit immediately.
301.It Fl V Li vi
302Enable the built-in
303.Xr vi 1
304command line editor (disables
305.Fl E
306if it has been set).
307.It Fl v Li verbose
308The shell writes its input to standard error
309as it is read.
310Useful for debugging.
311.It Fl x Li xtrace
312Write each command
313(preceded by the value of the
314.Va PS4
315variable)
316to standard error before it is executed.
317Useful for debugging.
318.El
319.Pp
320The
321.Fl c
322option causes the commands to be read from the
323.Ar string
324operand instead of from the standard input.
325Keep in mind that this option only accepts a single string as its
326argument, hence multi-word strings must be quoted.
327.Pp
328The
329.Fl /+o
330option takes as its only argument the long name of an option
331to be enabled or disabled.
332For example, the following two invocations of
333.Nm
334both enable the built-in
335.Xr emacs 1
336command line editor:
337.Bd -literal -offset indent
338set -E
339set -o emacs
340.Ed
341.Pp
342If used without an argument, the
343.Fl o
344option displays the current option settings in a human-readable format.
345If
346.Cm +o
347is used without an argument, the current option settings are output
348in a format suitable for re-input into the shell.
349.Ss Lexical Structure
350The shell reads input in terms of lines from a file and breaks
351it up into words at whitespace (blanks and tabs), and at
352certain sequences of
353characters called
354.Dq operators ,
355which are special to the shell.
356There are two types of operators: control operators and
357redirection operators (their meaning is discussed later).
358The following is a list of valid operators:
359.Bl -tag -width indent
360.It Control operators:
361.Bl -column "XXX" "XXX" "XXX" "XXX" "XXX" -offset center -compact
362.It Li & Ta Li && Ta Li ( Ta Li ) Ta Li \en
363.It Li ;; Ta Li ; Ta Li | Ta Li ||
364.El
365.It Redirection operators:
366.Bl -column "XXX" "XXX" "XXX" "XXX" "XXX" -offset center -compact
367.It Li < Ta Li > Ta Li << Ta Li >> Ta Li <>
368.It Li <& Ta Li >& Ta Li <<- Ta Li >|
369.El
370.El
371.Pp
372The character
373.Ql #
374introduces a comment if used at the beginning of a word.
375The word starting with
376.Ql #
377and the rest of the line are ignored.
378.Ss Quoting
379Quoting is used to remove the special meaning of certain characters
380or words to the shell, such as operators, whitespace, keywords,
381or alias names.
382.Pp
383There are three types of quoting: matched single quotes,
384matched double quotes, and backslash.
385.Bl -tag -width indent
386.It Single Quotes
387Enclosing characters in single quotes preserves the literal
388meaning of all the characters (except single quotes, making
389it impossible to put single-quotes in a single-quoted string).
390.It Double Quotes
391Enclosing characters within double quotes preserves the literal
392meaning of all characters except dollar sign
393.Pq Ql $ ,
394backquote
395.Pq Ql ` ,
396and backslash
397.Pq Ql \e .
398The backslash inside double quotes is historically weird.
399It remains literal unless it precedes the following characters,
400which it serves to quote:
401.Bl -column "XXX" "XXX" "XXX" "XXX" "XXX" -offset center -compact
402.It Li $ Ta Li ` Ta Li \&" Ta Li \e\  Ta Li \en
403.El
404.It Backslash
405A backslash preserves the literal meaning of the following
406character, with the exception of the newline character
407.Pq Ql \en .
408A backslash preceding a newline is treated as a line continuation.
409.El
410.Ss Reserved Words
411Reserved words are words that have special meaning to the
412shell and are recognized at the beginning of a line and
413after a control operator.
414The following are reserved words:
415.Bl -column "doneXX" "elifXX" "elseXX" "untilXX" "whileX" -offset center
416.It Li \&! Ta { Ta } Ta Ic case Ta Ic do
417.It Ic done Ta Ic elif Ta Ic else Ta Ic esac Ta Ic fi
418.It Ic for Ta Ic if Ta Ic then Ta Ic until Ta Ic while
419.El
420.Ss Aliases
421An alias is a name and corresponding value set using the
422.Ic alias
423built-in command.
424Whenever a reserved word may occur (see above),
425and after checking for reserved words, the shell
426checks the word to see if it matches an alias.
427If it does, it replaces it in the input stream with its value.
428For example, if there is an alias called
429.Dq Li lf
430with the value
431.Dq Li "ls -F" ,
432then the input
433.Pp
434.Dl "lf foobar"
435.Pp
436would become
437.Pp
438.Dl "ls -F foobar"
439.Pp
440Aliases provide a convenient way for naive users to
441create shorthands for commands without having to learn how
442to create functions with arguments.
443They can also be
444used to create lexically obscure code.
445This use is discouraged.
446.Pp
447An alias name may be escaped in a command line, so that it is not
448replaced by its alias value, by using quoting characters within or
449adjacent to the alias name.
450This is most often done by prefixing
451an alias name with a backslash to execute a function, built-in, or
452normal program with the same name.
453See the
454.Sx Quoting
455subsection.
456.Ss Commands
457The shell interprets the words it reads according to a
458language, the specification of which is outside the scope
459of this man page (refer to the BNF in the
460.St -p1003.2
461document).
462Essentially though, a line is read and if
463the first word of the line (or after a control operator)
464is not a reserved word, then the shell has recognized a
465simple command.
466Otherwise, a complex command or some
467other special construct may have been recognized.
468.Ss Simple Commands
469If a simple command has been recognized, the shell performs
470the following actions:
471.Bl -enum
472.It
473Leading words of the form
474.Dq Li name=value
475are stripped off and assigned to the environment of
476the simple command.
477Redirection operators and
478their arguments (as described below) are stripped
479off and saved for processing.
480.It
481The remaining words are expanded as described in
482the section called
483.Sx Word Expansions ,
484and the first remaining word is considered the command
485name and the command is located.
486The remaining
487words are considered the arguments of the command.
488If no command name resulted, then the
489.Dq Li name=value
490variable assignments recognized in 1) affect the
491current shell.
492.It
493Redirections are performed as described in
494the next section.
495.El
496.Ss Redirections
497Redirections are used to change where a command reads its input
498or sends its output.
499In general, redirections open, close, or
500duplicate an existing reference to a file.
501The overall format
502used for redirection is:
503.Pp
504.D1 Oo Ar n Oc Ar redir-op file
505.Pp
506The
507.Ar redir-op
508is one of the redirection operators mentioned
509previously.
510The following gives some examples of how these
511operators can be used.
512Note that stdin and stdout are commonly used abbreviations
513for standard input and standard output respectively.
514.Bl -tag -width "1234567890XX" -offset indent
515.It Oo Ar n Oc Ns Li > Ar file
516redirect stdout (or file descriptor
517.Ar n )
518to
519.Ar file
520.It Oo Ar n Oc Ns Li >| Ar file
521same as above, but override the
522.Fl C
523option
524.It Oo Ar n Oc Ns Li >> Ar file
525append stdout (or file descriptor
526.Ar n )
527to
528.Ar file
529.It Oo Ar n Oc Ns Li < Ar file
530redirect stdin (or file descriptor
531.Ar n )
532from
533.Ar file
534.It Oo Ar n Oc Ns Li <> Ar file
535redirect stdin (or file descriptor
536.Ar n )
537to and from
538.Ar file
539.It Oo Ar n1 Oc Ns Li <& Ns Ar n2
540duplicate stdin (or file descriptor
541.Ar n1 )
542from file descriptor
543.Ar n2
544.It Oo Ar n Oc Ns Li <&-
545close stdin (or file descriptor
546.Ar n )
547.It Oo Ar n1 Oc Ns Li >& Ns Ar n2
548duplicate stdout (or file descriptor
549.Ar n1 )
550to file descriptor
551.Ar n2
552.It Oo Ar n Oc Ns Li >&-
553close stdout (or file descriptor
554.Ar n )
555.El
556.Pp
557The following redirection is often called a
558.Dq here-document .
559.Bd -unfilled -offset indent
560.Oo Ar n Oc Ns Li << Ar delimiter
561.D1 Ar here-doc-text
562.D1 ...
563.Ar delimiter
564.Ed
565.Pp
566All the text on successive lines up to the delimiter is
567saved away and made available to the command on standard
568input, or file descriptor
569.Ar n
570if it is specified.
571If the
572.Ar delimiter
573as specified on the initial line is quoted, then the
574.Ar here-doc-text
575is treated literally, otherwise the text is subjected to
576parameter expansion, command substitution, and arithmetic
577expansion (as described in the section on
578.Sx Word Expansions ) .
579If the operator is
580.Dq Li <<-
581instead of
582.Dq Li << ,
583then leading tabs
584in the
585.Ar here-doc-text
586are stripped.
587.Ss Search and Execution
588There are three types of commands: shell functions,
589built-in commands, and normal programs.
590The command is searched for (by name) in that order.
591The three types of commands are all executed in a different way.
592.Pp
593When a shell function is executed, all of the shell positional
594parameters (except
595.Li $0 ,
596which remains unchanged) are
597set to the arguments of the shell function.
598The variables which are explicitly placed in the environment of
599the command (by placing assignments to them before the
600function name) are made local to the function and are set
601to the values given.
602Then the command given in the function definition is executed.
603The positional parameters are restored to their original values
604when the command completes.
605This all occurs within the current shell.
606.Pp
607Shell built-in commands are executed internally to the shell, without
608spawning a new process.
609.Pp
610Otherwise, if the command name does not match a function
611or built-in command, the command is searched for as a normal
612program in the file system (as described in the next section).
613When a normal program is executed, the shell runs the program,
614passing the arguments and the environment to the program.
615If the program is not a normal executable file
616(i.e., if it does not begin with the
617.Dq "magic number"
618whose
619.Tn ASCII
620representation is
621.Dq Li #! ,
622resulting in an
623.Er ENOEXEC
624return value from
625.Xr execve 2 )
626the shell will interpret the program in a subshell.
627The child shell will reinitialize itself in this case,
628so that the effect will be
629as if a new shell had been invoked to handle the ad-hoc shell script,
630except that the location of hashed commands located in
631the parent shell will be remembered by the child
632(see the description of the
633.Ic hash
634built-in command below).
635.Pp
636Note that previous versions of this document
637and the source code itself misleadingly and sporadically
638refer to a shell script without a magic number
639as a
640.Dq "shell procedure" .
641.Ss Path Search
642When locating a command, the shell first looks to see if
643it has a shell function by that name.
644Then it looks for a
645built-in command by that name.
646If a built-in command is not found,
647one of two things happen:
648.Bl -enum
649.It
650Command names containing a slash are simply executed without
651performing any searches.
652.It
653The shell searches each entry in the
654.Ev PATH
655environment variable
656in turn for the command.
657The value of the
658.Ev PATH
659variable should be a series of
660entries separated by colons.
661Each entry consists of a
662directory name.
663The current directory
664may be indicated implicitly by an empty directory name,
665or explicitly by a single period.
666.El
667.Ss Command Exit Status
668Each command has an exit status that can influence the behavior
669of other shell commands.
670The paradigm is that a command exits
671with zero for normal or success, and non-zero for failure,
672error, or a false indication.
673The man page for each command
674should indicate the various exit codes and what they mean.
675Additionally, the built-in commands return exit codes, as does
676an executed shell function.
677.Pp
678If a command is terminated by a signal, its exit status is 128 plus
679the signal number.
680Signal numbers are defined in the header file
681.In sys/signal.h .
682.Ss Complex Commands
683Complex commands are combinations of simple commands
684with control operators or reserved words, together creating a larger complex
685command.
686More generally, a command is one of the following:
687.Bl -item -offset indent
688.It
689simple command
690.It
691pipeline
692.It
693list or compound-list
694.It
695compound command
696.It
697function definition
698.El
699.Pp
700Unless otherwise stated, the exit status of a command is
701that of the last simple command executed by the command.
702.Ss Pipelines
703A pipeline is a sequence of one or more commands separated
704by the control operator
705.Ql \&| .
706The standard output of all but
707the last command is connected to the standard input
708of the next command.
709The standard output of the last
710command is inherited from the shell, as usual.
711.Pp
712The format for a pipeline is:
713.Pp
714.D1 Oo Li \&! Oc Ar command1 Op Li \&| Ar command2 ...
715.Pp
716The standard output of
717.Ar command1
718is connected to the standard input of
719.Ar command2 .
720The standard input, standard output, or
721both of a command is considered to be assigned by the
722pipeline before any redirection specified by redirection
723operators that are part of the command.
724.Pp
725If the pipeline is not in the background (discussed later),
726the shell waits for all commands to complete.
727.Pp
728If the reserved word
729.Ic !\&
730does not precede the pipeline, the
731exit status is the exit status of the last command specified
732in the pipeline.
733Otherwise, the exit status is the logical
734NOT of the exit status of the last command.
735That is, if
736the last command returns zero, the exit status is 1; if
737the last command returns greater than zero, the exit status
738is zero.
739.Pp
740Because pipeline assignment of standard input or standard
741output or both takes place before redirection, it can be
742modified by redirection.
743For example:
744.Pp
745.Dl "command1 2>&1 | command2"
746.Pp
747sends both the standard output and standard error of
748.Ar command1
749to the standard input of
750.Ar command2 .
751.Pp
752A
753.Ql \&;
754or newline terminator causes the preceding
755AND-OR-list
756(described below in the section called
757.Sx Short-Circuit List Operators )
758to be executed sequentially;
759an
760.Ql &
761causes asynchronous execution of the preceding AND-OR-list.
762.Pp
763Note that unlike some other shells,
764.Nm
765executes each process in the pipeline as a child of the
766.Nm
767process.
768Shell built-in commands are the exception to this rule.
769They are executed in the current shell, although they do not affect its
770environment when used in pipelines.
771.Ss Background Commands (&)
772If a command is terminated by the control operator ampersand
773.Pq Ql & ,
774the shell executes the command asynchronously;
775the shell does not wait for the command to finish
776before executing the next command.
777.Pp
778The format for running a command in background is:
779.Pp
780.D1 Ar command1 Li & Op Ar command2 Li & Ar ...
781.Pp
782If the shell is not interactive, the standard input of an
783asynchronous command is set to
784.Pa /dev/null .
785.Ss Lists (Generally Speaking)
786A list is a sequence of zero or more commands separated by
787newlines, semicolons, or ampersands,
788and optionally terminated by one of these three characters.
789The commands in a
790list are executed in the order they are written.
791If command is followed by an ampersand, the shell starts the
792command and immediately proceeds onto the next command;
793otherwise it waits for the command to terminate before
794proceeding to the next one.
795.Ss Short-Circuit List Operators
796.Dq Li &&
797and
798.Dq Li ||
799are AND-OR list operators.
800.Dq Li &&
801executes the first command, and then executes the second command
802if the exit status of the first command is zero.
803.Dq Li ||
804is similar, but executes the second command if the exit
805status of the first command is nonzero.
806.Dq Li &&
807and
808.Dq Li ||
809both have the same priority.
810.Ss Flow-Control Constructs (if, while, for, case)
811The syntax of the
812.Ic if
813command is:
814.Bd -unfilled -offset indent -compact
815.Ic if Ar list
816.Ic then Ar list
817.Oo Ic elif Ar list
818.Ic then Ar list Oc Ar ...
819.Op Ic else Ar list
820.Ic fi
821.Ed
822.Pp
823The syntax of the
824.Ic while
825command is:
826.Bd -unfilled -offset indent -compact
827.Ic while Ar list
828.Ic do Ar list
829.Ic done
830.Ed
831.Pp
832The two lists are executed repeatedly while the exit status of the
833first list is zero.
834The
835.Ic until
836command is similar, but has the word
837.Ic until
838in place of
839.Ic while ,
840which causes it to
841repeat until the exit status of the first list is zero.
842.Pp
843The syntax of the
844.Ic for
845command is:
846.Bd -unfilled -offset indent -compact
847.Ic for Ar variable Op Ic in Ar word ...
848.Ic do Ar list
849.Ic done
850.Ed
851.Pp
852If
853.Ic in
854and the following words are omitted,
855.Ic in Li $@
856is used instead.
857The words are expanded, and then the list is executed
858repeatedly with the variable set to each word in turn.
859The
860.Ic do
861and
862.Ic done
863commands may be replaced with
864.Ql {
865and
866.Ql } .
867.Pp
868The syntax of the
869.Ic break
870and
871.Ic continue
872commands is:
873.D1 Ic break Op Ar num
874.D1 Ic continue Op Ar num
875.Pp
876The
877.Ic break
878command terminates the
879.Ar num
880innermost
881.Ic for
882or
883.Ic while
884loops.
885The
886.Ic continue
887command continues with the next iteration of the innermost loop.
888These are implemented as built-in commands.
889.Pp
890The syntax of the
891.Ic case
892command is:
893.Bd -unfilled -offset indent -compact
894.Ic case Ar word Ic in
895.Ar pattern Ns Li ) Ar list Li ;;
896.Ar ...
897.Ic esac
898.Ed
899.Pp
900The pattern can actually be one or more patterns
901(see
902.Sx Shell Patterns
903described later),
904separated by
905.Ql \&|
906characters.
907The exit code of the
908.Ic case
909command is the exit code of the last command executed in the list or
910zero if no patterns were matched.
911.Ss Grouping Commands Together
912Commands may be grouped by writing either
913.Pp
914.D1 Li \&( Ns Ar list Ns Li \%)
915.Pp
916or
917.Pp
918.D1 Li { Ar list Ns Li \&; }
919.Pp
920The first form executes the commands in a subshell.
921Note that built-in commands thus executed do not affect the current shell.
922The second form does not fork another shell,
923so it is slightly more efficient.
924Grouping commands together this way allows the user to
925redirect their output as though they were one program:
926.Bd -literal -offset indent
927{ echo -n "hello"; echo " world"; } > greeting
928.Ed
929.Ss Functions
930The syntax of a function definition is
931.Pp
932.D1 Ar name Li \&( \&) Ar command
933.Pp
934A function definition is an executable statement; when
935executed it installs a function named
936.Ar name
937and returns an
938exit status of zero.
939The
940.Ar command
941is normally a list
942enclosed between
943.Ql {
944and
945.Ql } .
946.Pp
947Variables may be declared to be local to a function by
948using the
949.Ic local
950command.
951This should appear as the first statement of a function,
952and the syntax is:
953.Pp
954.D1 Ic local Oo Ar variable ... Oc Op Fl
955.Pp
956The
957.Ic local
958command is implemented as a built-in command.
959.Pp
960When a variable is made local, it inherits the initial
961value and exported and readonly flags from the variable
962with the same name in the surrounding scope, if there is
963one.
964Otherwise, the variable is initially unset.
965The shell
966uses dynamic scoping, so that if the variable
967.Va x
968is made local to function
969.Em f ,
970which then calls function
971.Em g ,
972references to the variable
973.Va x
974made inside
975.Em g
976will refer to the variable
977.Va x
978declared inside
979.Em f ,
980not to the global variable named
981.Va x .
982.Pp
983The only special parameter that can be made local is
984.Ql - .
985Making
986.Ql -
987local causes any shell options that are
988changed via the
989.Ic set
990command inside the function to be
991restored to their original values when the function
992returns.
993.Pp
994The syntax of the
995.Ic return
996command is
997.Pp
998.D1 Ic return Op Ar exitstatus
999.Pp
1000It terminates the current executional scope, returning from the previous
1001nested function, sourced script, or shell instance, in that order.
1002The
1003.Ic return
1004command is implemented as a built-in command.
1005.Ss Variables and Parameters
1006The shell maintains a set of parameters.
1007A parameter
1008denoted by a name is called a variable.
1009When starting up,
1010the shell turns all the environment variables into shell
1011variables.
1012New variables can be set using the form
1013.Pp
1014.D1 Ar name Ns = Ns Ar value
1015.Pp
1016Variables set by the user must have a name consisting solely
1017of alphabetics, numerics, and underscores.
1018The first letter of a variable name must not be numeric.
1019A parameter can also be denoted by a number
1020or a special character as explained below.
1021.Ss Positional Parameters
1022A positional parameter is a parameter denoted by a number greater than zero.
1023The shell sets these initially to the values of its command line
1024arguments that follow the name of the shell script.
1025The
1026.Ic set
1027built-in command can also be used to set or reset them.
1028.Ss Special Parameters
1029A special parameter is a parameter denoted by a special one-character
1030name.
1031The special parameters recognized by the
1032.Nm
1033shell of
1034.Fx
1035are shown in the following list, exactly as they would appear in input
1036typed by the user or in the source of a shell script.
1037.Bl -hang
1038.It Li $*
1039Expands to the positional parameters, starting from one.
1040When
1041the expansion occurs within a double-quoted string
1042it expands to a single field with the value of each parameter
1043separated by the first character of the
1044.Va IFS
1045variable,
1046or by a space if
1047.Va IFS
1048is unset.
1049.It Li $@
1050Expands to the positional parameters, starting from one.
1051When
1052the expansion occurs within double-quotes, each positional
1053parameter expands as a separate argument.
1054If there are no positional parameters, the
1055expansion of
1056.Li @
1057generates zero arguments, even when
1058.Li @
1059is double-quoted.
1060What this basically means, for example, is
1061if
1062.Li $1
1063is
1064.Dq Li abc
1065and
1066.Li $2
1067is
1068.Dq Li "def ghi" ,
1069then
1070.Dq Li $@
1071expands to
1072the two arguments:
1073.Bd -literal -offset indent
1074"abc"   "def ghi"
1075.Ed
1076.It Li $#
1077Expands to the number of positional parameters.
1078.It Li $?
1079Expands to the exit status of the most recent pipeline.
1080.It Li $-
1081(hyphen) Expands to the current option flags (the single-letter
1082option names concatenated into a string) as specified on
1083invocation, by the
1084.Ic set
1085built-in command, or implicitly
1086by the shell.
1087.It Li $$
1088Expands to the process ID of the invoked shell.
1089A subshell
1090retains the same value of
1091.Va $
1092as its parent.
1093.It Li $!
1094Expands to the process ID of the most recent background
1095command executed from the current shell.
1096For a
1097pipeline, the process ID is that of the last command in the
1098pipeline.
1099.It Li $0
1100(zero) Expands to the name of the shell or shell script.
1101.El
1102.Ss Word Expansions
1103This clause describes the various expansions that are
1104performed on words.
1105Not all expansions are performed on
1106every word, as explained later.
1107.Pp
1108Tilde expansions, parameter expansions, command substitutions,
1109arithmetic expansions, and quote removals that occur within
1110a single word expand to a single field.
1111It is only field
1112splitting or pathname expansion that can create multiple
1113fields from a single word.
1114The single exception to this rule is
1115the expansion of the special parameter
1116.Va @
1117within double-quotes,
1118as was described above.
1119.Pp
1120The order of word expansion is:
1121.Bl -enum
1122.It
1123Tilde Expansion, Parameter Expansion, Command Substitution,
1124Arithmetic Expansion (these all occur at the same time).
1125.It
1126Field Splitting is performed on fields generated by step (1)
1127unless the
1128.Va IFS
1129variable is null.
1130.It
1131Pathname Expansion (unless the
1132.Fl f
1133option is in effect).
1134.It
1135Quote Removal.
1136.El
1137.Pp
1138The
1139.Ql $
1140character is used to introduce parameter expansion, command
1141substitution, or arithmetic evaluation.
1142.Ss Tilde Expansion (substituting a user's home directory)
1143A word beginning with an unquoted tilde character
1144.Pq Ql ~
1145is
1146subjected to tilde expansion.
1147All the characters up to a slash
1148.Pq Ql /
1149or the end of the word are treated as a username
1150and are replaced with the user's home directory.
1151If the
1152username is missing (as in
1153.Pa ~/foobar ) ,
1154the tilde is replaced with the value of the
1155.Ev HOME
1156variable (the current user's home directory).
1157.Ss Parameter Expansion
1158The format for parameter expansion is as follows:
1159.Pp
1160.D1 Li ${ Ns Ar expression Ns Li }
1161.Pp
1162where
1163.Ar expression
1164consists of all characters until the matching
1165.Ql } .
1166Any
1167.Ql }
1168escaped by a backslash or within a quoted string, and characters in
1169embedded arithmetic expansions, command substitutions, and variable
1170expansions, are not examined in determining the matching
1171.Ql } .
1172.Pp
1173The simplest form for parameter expansion is:
1174.Pp
1175.D1 Li ${ Ns Ar parameter Ns Li }
1176.Pp
1177The value, if any, of
1178.Ar parameter
1179is substituted.
1180.Pp
1181The parameter name or symbol can be enclosed in braces, which are
1182optional except for positional parameters with more than one digit or
1183when parameter is followed by a character that could be interpreted as
1184part of the name.
1185If a parameter expansion occurs inside double-quotes:
1186.Bl -enum
1187.It
1188Pathname expansion is not performed on the results of the
1189expansion.
1190.It
1191Field splitting is not performed on the results of the
1192expansion, with the exception of the special parameter
1193.Va @ .
1194.El
1195.Pp
1196In addition, a parameter expansion can be modified by using one of the
1197following formats.
1198.Bl -tag -width indent
1199.It Li ${ Ns Ar parameter Ns Li :- Ns Ar word Ns Li }
1200Use Default Values.
1201If
1202.Ar parameter
1203is unset or null, the expansion of
1204.Ar word
1205is substituted; otherwise, the value of
1206.Ar parameter
1207is substituted.
1208.It Li ${ Ns Ar parameter Ns Li := Ns Ar word Ns Li }
1209Assign Default Values.
1210If
1211.Ar parameter
1212is unset or null, the expansion of
1213.Ar word
1214is assigned to
1215.Ar parameter .
1216In all cases, the
1217final value of
1218.Ar parameter
1219is substituted.
1220Only variables, not positional
1221parameters or special parameters, can be
1222assigned in this way.
1223.It Li ${ Ns Ar parameter Ns Li :? Ns Oo Ar word Oc Ns Li }
1224Indicate Error if Null or Unset.
1225If
1226.Ar parameter
1227is unset or null, the expansion of
1228.Ar word
1229(or a message indicating it is unset if
1230.Ar word
1231is omitted) is written to standard
1232error and the shell exits with a nonzero
1233exit status.
1234Otherwise, the value of
1235.Ar parameter
1236is substituted.
1237An
1238interactive shell need not exit.
1239.It Li ${ Ns Ar parameter Ns Li :+ Ns Ar word Ns Li }
1240Use Alternate Value.
1241If
1242.Ar parameter
1243is unset or null, null is substituted;
1244otherwise, the expansion of
1245.Ar word
1246is substituted.
1247.El
1248.Pp
1249In the parameter expansions shown previously, use of the colon in the
1250format results in a test for a parameter that is unset or null; omission
1251of the colon results in a test for a parameter that is only unset.
1252.Bl -tag -width indent
1253.It Li ${# Ns Ar parameter Ns Li }
1254String Length.
1255The length in characters of
1256the value of
1257.Ar parameter .
1258.El
1259.Pp
1260The following four varieties of parameter expansion provide for substring
1261processing.
1262In each case, pattern matching notation
1263(see
1264.Sx Shell Patterns ) ,
1265rather than regular expression notation,
1266is used to evaluate the patterns.
1267If parameter is one of the special parameters
1268.Va *
1269or
1270.Va @ ,
1271the result of the expansion is unspecified.
1272Enclosing the full parameter expansion string in double-quotes does not
1273cause the following four varieties of pattern characters to be quoted,
1274whereas quoting characters within the braces has this effect.
1275.Bl -tag -width indent
1276.It Li ${ Ns Ar parameter Ns Li % Ns Ar word Ns Li }
1277Remove Smallest Suffix Pattern.
1278The
1279.Ar word
1280is expanded to produce a pattern.
1281The
1282parameter expansion then results in
1283.Ar parameter ,
1284with the smallest portion of the
1285suffix matched by the pattern deleted.
1286.It Li ${ Ns Ar parameter Ns Li %% Ns Ar word Ns Li }
1287Remove Largest Suffix Pattern.
1288The
1289.Ar word
1290is expanded to produce a pattern.
1291The
1292parameter expansion then results in
1293.Ar parameter ,
1294with the largest portion of the
1295suffix matched by the pattern deleted.
1296.It Li ${ Ns Ar parameter Ns Li # Ns Ar word Ns Li }
1297Remove Smallest Prefix Pattern.
1298The
1299.Ar word
1300is expanded to produce a pattern.
1301The
1302parameter expansion then results in
1303.Ar parameter ,
1304with the smallest portion of the
1305prefix matched by the pattern deleted.
1306.It Li ${ Ns Ar parameter Ns Li ## Ns Ar word Ns Li }
1307Remove Largest Prefix Pattern.
1308The
1309.Ar word
1310is expanded to produce a pattern.
1311The
1312parameter expansion then results in
1313.Ar parameter ,
1314with the largest portion of the
1315prefix matched by the pattern deleted.
1316.El
1317.Ss Command Substitution
1318Command substitution allows the output of a command to be substituted in
1319place of the command name itself.
1320Command substitution occurs when
1321the command is enclosed as follows:
1322.Pp
1323.D1 Li $( Ns Ar command Ns Li )\&
1324.Pp
1325or the backquoted version:
1326.Pp
1327.D1 Li ` Ns Ar command Ns Li `
1328.Pp
1329The shell expands the command substitution by executing command in a
1330subshell environment and replacing the command substitution
1331with the standard output of the command,
1332removing sequences of one or more newlines at the end of the substitution.
1333Embedded newlines before the end of the output are not removed;
1334however, during field splitting, they may be translated into spaces
1335depending on the value of
1336.Va IFS
1337and the quoting that is in effect.
1338.Ss Arithmetic Expansion
1339Arithmetic expansion provides a mechanism for evaluating an arithmetic
1340expression and substituting its value.
1341The format for arithmetic expansion is as follows:
1342.Pp
1343.D1 Li $(( Ns Ar expression Ns Li ))
1344.Pp
1345The
1346.Ar expression
1347is treated as if it were in double-quotes, except
1348that a double-quote inside the expression is not treated specially.
1349The
1350shell expands all tokens in the
1351.Ar expression
1352for parameter expansion,
1353command substitution, and quote removal.
1354.Pp
1355Next, the shell treats this as an arithmetic expression and
1356substitutes the value of the expression.
1357.Ss White Space Splitting (Field Splitting)
1358After parameter expansion, command substitution, and
1359arithmetic expansion the shell scans the results of
1360expansions and substitutions that did not occur in double-quotes for
1361field splitting and multiple fields can result.
1362.Pp
1363The shell treats each character of the
1364.Va IFS
1365variable as a delimiter and uses
1366the delimiters to split the results of parameter expansion and command
1367substitution into fields.
1368.Ss Pathname Expansion (File Name Generation)
1369Unless the
1370.Fl f
1371option is set,
1372file name generation is performed
1373after word splitting is complete.
1374Each word is
1375viewed as a series of patterns, separated by slashes.
1376The
1377process of expansion replaces the word with the names of
1378all existing files whose names can be formed by replacing
1379each pattern with a string that matches the specified pattern.
1380There are two restrictions on this: first, a pattern cannot match
1381a string containing a slash, and second,
1382a pattern cannot match a string starting with a period
1383unless the first character of the pattern is a period.
1384The next section describes the patterns used for both
1385Pathname Expansion and the
1386.Ic case
1387command.
1388.Ss Shell Patterns
1389A pattern consists of normal characters, which match themselves,
1390and meta-characters.
1391The meta-characters are
1392.Ql \&! ,
1393.Ql * ,
1394.Ql \&? ,
1395and
1396.Ql \&[ .
1397These characters lose their special meanings if they are quoted.
1398When command or variable substitution is performed and the dollar sign
1399or back quotes are not double-quoted, the value of the
1400variable or the output of the command is scanned for these
1401characters and they are turned into meta-characters.
1402.Pp
1403An asterisk
1404.Pq Ql *
1405matches any string of characters.
1406A question mark
1407.Pq Ql \&?
1408matches any single character.
1409A left bracket
1410.Pq Ql \&[
1411introduces a character class.
1412The end of the character class is indicated by a
1413.Ql \&] ;
1414if the
1415.Ql \&]
1416is missing then the
1417.Ql \&[
1418matches a
1419.Ql \&[
1420rather than introducing a character class.
1421A character class matches any of the characters between the square brackets.
1422A range of characters may be specified using a minus sign.
1423The character class may be complemented by making an exclamation point
1424.Pq Ql !\&
1425the first character of the character class.
1426.Pp
1427To include a
1428.Ql \&]
1429in a character class, make it the first character listed
1430(after the
1431.Ql \&! ,
1432if any).
1433To include a
1434.Ql - ,
1435make it the first or last character listed.
1436.Ss Built-in Commands
1437This section lists the commands which
1438are built-in because they need to perform some operation
1439that cannot be performed by a separate process.
1440In addition to
1441these, built-in versions of essential utilities
1442are provided for efficiency.
1443.Bl -tag -width indent
1444.It Ic \&:
1445A null command that returns a 0 (true) exit value.
1446.It Ic \&. Ar file
1447The commands in the specified file are read and executed by the shell.
1448The
1449.Ic return
1450command may be used to return to the
1451.Ic \&.
1452command's caller.
1453If
1454.Ar file
1455contains any
1456.Ql /
1457characters, it is used as is.
1458Otherwise, the shell searches the
1459.Ev PATH
1460for the file.
1461If it is not found in the
1462.Ev PATH ,
1463it is sought in the current working directory.
1464.It Ic \&[
1465A built-in equivalent of
1466.Xr test 1 .
1467.It Ic alias Oo Ar name Ns Oo = Ns Ar string Oc ... Oc
1468If
1469.Ar name Ns = Ns Ar string
1470is specified, the shell defines the alias
1471.Ar name
1472with value
1473.Ar string .
1474If just
1475.Ar name
1476is specified, the value of the alias
1477.Ar name
1478is printed.
1479With no arguments, the
1480.Ic alias
1481built-in command prints the names and values of all defined aliases
1482(see
1483.Ic unalias ) .
1484Alias values are written with appropriate quoting so that they are
1485suitable for re-input to the shell.
1486Also see the
1487.Sx Aliases
1488subsection.
1489.It Ic bg Op Ar job ...
1490Continue the specified jobs
1491(or the current job if no jobs are given)
1492in the background.
1493.It Ic builtin Ar cmd Op Ar arg ...
1494Execute the specified built-in command,
1495.Ar cmd .
1496This is useful when the user wishes to override a shell function
1497with the same name as a built-in command.
1498.It Ic bind Oo Fl aeklrsv Oc Oo Ar key Oo Ar command Oc Oc
1499List or alter key bindings for the line editor.
1500This command is documented in
1501.Xr editrc 5 .
1502.It Ic cd Oo Fl L | P Oc Op Ar directory
1503Switch to the specified
1504.Ar directory ,
1505or to the directory specified in the
1506.Ev HOME
1507environment variable if no
1508.Ar directory
1509is specified.
1510If
1511.Ar directory
1512does not begin with
1513.Pa / , \&. ,
1514or
1515.Pa .. ,
1516then the directories listed in the
1517.Ev CDPATH
1518variable will be
1519searched for the specified
1520.Ar directory .
1521If
1522.Ev CDPATH
1523is unset, the current directory is searched.
1524The format of
1525.Ev CDPATH
1526is the same as that of
1527.Ev PATH .
1528In an interactive shell,
1529the
1530.Ic cd
1531command will print out the name of the directory
1532that it actually switched to
1533if this is different from the name that the user gave.
1534These may be different either because the
1535.Ev CDPATH
1536mechanism was used or because a symbolic link was crossed.
1537.Pp
1538If the
1539.Fl P
1540option is specified,
1541.Pa ..
1542is handled physically and symbolic links are resolved before
1543.Pa ..
1544components are processed.
1545If the
1546.Fl L
1547option is specified,
1548.Pa ..
1549is handled logically.
1550This is the default.
1551.It Ic chdir
1552A synonym for the
1553.Ic cd
1554built-in command.
1555.It Ic command Oo Fl p Oc Op Ar utility Op Ar argument ...
1556.It Ic command Oo Fl v | V Oc Op Ar utility
1557The first form of invocation executes the specified
1558.Ar utility
1559as a simple command (see the
1560.Sx Simple Commands
1561section).
1562.Pp
1563If the
1564.Fl p
1565option is specified, the command search is performed using a
1566default value of
1567.Ev PATH
1568that is guaranteed to find all of the standard utilities.
1569.Pp
1570If the
1571.Fl v
1572option is specified,
1573.Ar utility
1574is not executed but a description of its interpretation by the shell is
1575printed.
1576For ordinary commands the output is the path name; for shell built-in
1577commands, shell functions and keywords only the name is written.
1578Aliases are printed as
1579.Dq Ic alias Ar name Ns = Ns Ar value .
1580.Pp
1581The
1582.Fl V
1583option is identical to
1584.Fl v
1585except for the output.
1586It prints
1587.Dq Ar utility Ic is Ar description
1588where
1589.Ar description
1590is either
1591the path name to
1592.Ar utility ,
1593a shell builtin,
1594a shell function,
1595a shell keyword
1596or
1597an alias for
1598.Ar value .
1599.It Ic echo Oo Fl e | n Oc Op Ar string ...
1600Print a space-separated list of the arguments to the standard output
1601and append a newline character.
1602.Bl -tag -width indent
1603.It Fl n
1604Suppress the output of the trailing newline.
1605.It Fl e
1606Process C-style backslash escape sequences.
1607The
1608.Ic echo
1609command understands the following character escapes:
1610.Bl -tag -width indent
1611.It \ea
1612Alert (ring the terminal bell)
1613.It \eb
1614Backspace
1615.It \ec
1616Suppress the trailing newline (this has the side-effect of truncating the
1617line if it is not the last character)
1618.It \ee
1619The ESC character
1620.Tn ( ASCII
16210x1b)
1622.It \ef
1623Formfeed
1624.It \en
1625Newline
1626.It \er
1627Carriage return
1628.It \et
1629Horizontal tab
1630.It \ev
1631Vertical tab
1632.It \e\e
1633Literal backslash
1634.It \e0nnn
1635(Zero) The character whose octal value is
1636.Ar nnn
1637.El
1638.Pp
1639If
1640.Ar string
1641is not enclosed in quotes then the backslash itself must be escaped
1642with a backslash to protect it from the shell.
1643For example
1644.Bd -literal -offset indent
1645$ echo -e "a\evb"
1646a
1647 b
1648$ echo -e a\e\evb
1649a
1650 b
1651$ echo -e "a\e\eb"
1652a\eb
1653$ echo -e a\e\e\e\eb
1654a\eb
1655.Ed
1656.El
1657.Pp
1658Only one of the
1659.Fl e
1660and
1661.Fl n
1662options may be specified.
1663.It Ic eval Ar string ...
1664Concatenate all the arguments with spaces.
1665Then re-parse and execute the command.
1666.It Ic exec Op Ar command Op arg ...
1667Unless
1668.Ar command
1669is omitted,
1670the shell process is replaced with the specified program
1671(which must be a real program, not a shell built-in command or function).
1672Any redirections on the
1673.Ic exec
1674command are marked as permanent,
1675so that they are not undone when the
1676.Ic exec
1677command finishes.
1678.It Ic exit Op Ar exitstatus
1679Terminate the shell process.
1680If
1681.Ar exitstatus
1682is given
1683it is used as the exit status of the shell;
1684otherwise the exit status of the preceding command is used.
1685.It Ic export Ar name ...
1686.It Ic export Op Fl p
1687The specified names are exported so that they will
1688appear in the environment of subsequent commands.
1689The only way to un-export a variable is to
1690.Ic unset
1691it.
1692The shell allows the value of a variable to be set
1693at the same time as it is exported by writing
1694.Pp
1695.D1 Ic export Ar name Ns = Ns Ar value
1696.Pp
1697With no arguments the
1698.Ic export
1699command lists the names
1700of all exported variables.
1701If the
1702.Fl p
1703option is specified, the exported variables are printed as
1704.Dq Ic export Ar name Ns = Ns Ar value
1705lines, suitable for re-input to the shell.
1706.It Ic false
1707A null command that returns a non-zero (false) exit value.
1708.It Ic fc Oo Fl e Ar editor Oc Op Ar first Op Ar last
1709.It Ic fc Fl l Oo Fl nr Oc Op Ar first Op Ar last
1710.It Ic fc Fl s Oo Ar old Ns = Ns Ar new Oc Op Ar first
1711The
1712.Ic fc
1713built-in command lists, or edits and re-executes,
1714commands previously entered to an interactive shell.
1715.Bl -tag -width indent
1716.It Fl e Ar editor
1717Use the editor named by
1718.Ar editor
1719to edit the commands.
1720The
1721.Ar editor
1722string is a command name,
1723subject to search via the
1724.Ev PATH
1725variable.
1726The value in the
1727.Ev FCEDIT
1728variable is used as a default when
1729.Fl e
1730is not specified.
1731If
1732.Ev FCEDIT
1733is null or unset, the value of the
1734.Ev EDITOR
1735variable is used.
1736If
1737.Ev EDITOR
1738is null or unset,
1739.Xr ed 1
1740is used as the editor.
1741.It Fl l No (ell)
1742List the commands rather than invoking
1743an editor on them.
1744The commands are written in the
1745sequence indicated by the
1746.Ar first
1747and
1748.Ar last
1749operands, as affected by
1750.Fl r ,
1751with each command preceded by the command number.
1752.It Fl n
1753Suppress command numbers when listing with
1754.Fl l .
1755.It Fl r
1756Reverse the order of the commands listed
1757(with
1758.Fl l )
1759or edited
1760(with neither
1761.Fl l
1762nor
1763.Fl s ) .
1764.It Fl s
1765Re-execute the command without invoking an editor.
1766.It Ar first
1767.It Ar last
1768Select the commands to list or edit.
1769The number of previous commands that can be accessed
1770are determined by the value of the
1771.Ev HISTSIZE
1772variable.
1773The value of
1774.Ar first
1775or
1776.Ar last
1777or both are one of the following:
1778.Bl -tag -width indent
1779.It Oo Cm + Oc Ns Ar num
1780A positive number representing a command number;
1781command numbers can be displayed with the
1782.Fl l
1783option.
1784.It Fl Ar num
1785A negative decimal number representing the
1786command that was executed
1787.Ar num
1788of
1789commands previously.
1790For example, \-1 is the immediately previous command.
1791.It Ar string
1792A string indicating the most recently entered command
1793that begins with that string.
1794If the
1795.Ar old Ns = Ns Ar new
1796operand is not also specified with
1797.Fl s ,
1798the string form of the first operand cannot contain an embedded equal sign.
1799.El
1800.El
1801.Pp
1802The following environment variables affect the execution of
1803.Ic fc :
1804.Bl -tag -width ".Ev HISTSIZE"
1805.It Ev FCEDIT
1806Name of the editor to use for history editing.
1807.It Ev HISTSIZE
1808The number of previous commands that are accessible.
1809.El
1810.It Ic fg Op Ar job
1811Move the specified
1812.Ar job
1813or the current job to the foreground.
1814.It Ic getopts Ar optstring var
1815The
1816.Tn POSIX
1817.Ic getopts
1818command.
1819The
1820.Ic getopts
1821command deprecates the older
1822.Xr getopt 1
1823command.
1824The first argument should be a series of letters, each possibly
1825followed by a colon which indicates that the option takes an argument.
1826The specified variable is set to the parsed option.
1827The index of
1828the next argument is placed into the shell variable
1829.Va OPTIND .
1830If an option takes an argument, it is placed into the shell variable
1831.Va OPTARG .
1832If an invalid option is encountered,
1833.Ar var
1834is set to
1835.Ql \&? .
1836It returns a false value (1) when it encounters the end of the options.
1837.It Ic hash Oo Fl rv Oc Op Ar command ...
1838The shell maintains a hash table which remembers the locations of commands.
1839With no arguments whatsoever, the
1840.Ic hash
1841command prints out the contents of this table.
1842Entries which have not been looked at since the last
1843.Ic cd
1844command are marked with an asterisk;
1845it is possible for these entries to be invalid.
1846.Pp
1847With arguments, the
1848.Ic hash
1849command removes each specified
1850.Ar command
1851from the hash table (unless they are functions) and then locates it.
1852With the
1853.Fl v
1854option,
1855.Ic hash
1856prints the locations of the commands as it finds them.
1857The
1858.Fl r
1859option causes the
1860.Ic hash
1861command to delete all the entries in the hash table except for functions.
1862.It Ic jobid Op Ar job
1863Print the process IDs of the processes in the specified
1864.Ar job .
1865If the
1866.Ar job
1867argument is omitted, use the current job.
1868.It Ic jobs Oo Fl lps Oc Op Ar job ...
1869Print information about the specified jobs, or all jobs if no
1870.Ar job
1871argument is given.
1872The information printed includes job ID, status and command name.
1873.Pp
1874If the
1875.Fl l
1876option is specified, the PID of each job is also printed.
1877If the
1878.Fl p
1879option is specified, only the process IDs for the process group leaders
1880are printed, one per line.
1881If the
1882.Fl s
1883option is specified, only the PIDs of the job commands are printed, one per
1884line.
1885.It Ic local Oo Ar variable ... Oc Op Fl
1886See the
1887.Sx Functions
1888subsection.
1889.It Ic pwd Op Fl L | P
1890Print the path of the current directory.
1891The built-in command may
1892differ from the program of the same name because the
1893built-in command remembers what the current directory
1894is rather than recomputing it each time.
1895This makes
1896it faster.
1897However, if the current directory is
1898renamed,
1899the built-in version of
1900.Xr pwd 1
1901will continue to print the old name for the directory.
1902.Pp
1903If the
1904.Fl P
1905option is specified, symbolic links are resolved.
1906If the
1907.Fl L
1908option is specified, the shell's notion of the current directory
1909is printed (symbolic links are not resolved).
1910This is the default.
1911.It Ic read Oo Fl p Ar prompt Oc Oo
1912.Fl t Ar timeout Oc Oo Fl er Oc Ar variable ...
1913The
1914.Ar prompt
1915is printed if the
1916.Fl p
1917option is specified
1918and the standard input is a terminal.
1919Then a line is
1920read from the standard input.
1921The trailing newline
1922is deleted from the line and the line is split as
1923described in the section on
1924.Sx White Space Splitting (Field Splitting)
1925above, and
1926the pieces are assigned to the variables in order.
1927If there are more pieces than variables, the remaining
1928pieces (along with the characters in
1929.Va IFS
1930that separated them)
1931are assigned to the last variable.
1932If there are more variables than pieces, the remaining
1933variables are assigned the null string.
1934.Pp
1935Backslashes are treated specially, unless the
1936.Fl r
1937option is
1938specified.
1939If a backslash is followed by
1940a newline, the backslash and the newline will be
1941deleted.
1942If a backslash is followed by any other
1943character, the backslash will be deleted and the following
1944character will be treated as though it were not in
1945.Va IFS ,
1946even if it is.
1947.Pp
1948If the
1949.Fl t
1950option is specified and the
1951.Ar timeout
1952elapses before any input is supplied,
1953the
1954.Ic read
1955command will return an exit status of 1 without assigning any values.
1956The
1957.Ar timeout
1958value may optionally be followed by one of
1959.Ql s ,
1960.Ql m
1961or
1962.Ql h
1963to explicitly specify seconds, minutes or hours.
1964If none is supplied,
1965.Ql s
1966is assumed.
1967.Pp
1968The
1969.Fl e
1970option exists only for backward compatibility with older scripts.
1971.It Ic readonly Oo Fl p Oc Op Ar name ...
1972Each specified
1973.Ar name
1974is marked as read only,
1975so that it cannot be subsequently modified or unset.
1976The shell allows the value of a variable to be set
1977at the same time as it is marked read only
1978by using the following form:
1979.Pp
1980.D1 Ic readonly Ar name Ns = Ns Ar value
1981.Pp
1982With no arguments the
1983.Ic readonly
1984command lists the names of all read only variables.
1985If the
1986.Fl p
1987option is specified, the read-only variables are printed as
1988.Dq Ic readonly Ar name Ns = Ns Ar value
1989lines, suitable for re-input to the shell.
1990.It Ic return Op Ar exitstatus
1991See the
1992.Sx Functions
1993subsection.
1994.It Ic set Oo Fl /+abCEefIimnpTuVvx Oc Oo Fl /+o Ar longname Oc Oo
1995.Fl c Ar string Oc Op Fl - Ar arg ...
1996The
1997.Ic set
1998command performs three different functions:
1999.Bl -item
2000.It
2001With no arguments, it lists the values of all shell variables.
2002.It
2003If options are given,
2004either in short form or using the long
2005.Dq Fl /+o Ar longname
2006form,
2007it sets or clears the specified options as described in the section called
2008.Sx Argument List Processing .
2009.It
2010If the
2011.Dq Fl -
2012option is specified,
2013.Ic set
2014will replace the shell's positional parameters with the subsequent
2015arguments.
2016If no arguments follow the
2017.Dq Fl -
2018option,
2019all the positional parameters will be cleared,
2020which is equivalent to executing the command
2021.Dq Li "shift $#" .
2022The
2023.Dq Fl -
2024flag may be omitted when specifying arguments to be used
2025as positional replacement parameters.
2026This is not recommended,
2027because the first argument may begin with a dash
2028.Pq Ql -
2029or a plus
2030.Pq Ql + ,
2031which the
2032.Ic set
2033command will interpret as a request to enable or disable options.
2034.El
2035.It Ic setvar Ar variable value
2036Assigns the specified
2037.Ar value
2038to the specified
2039.Ar variable .
2040The
2041.Ic setvar
2042command is intended to be used in functions that
2043assign values to variables whose names are passed as parameters.
2044In general it is better to write
2045.Dq Ar variable Ns = Ns Ar value
2046rather than using
2047.Ic setvar .
2048.It Ic shift Op Ar n
2049Shift the positional parameters
2050.Ar n
2051times, or once if
2052.Ar n
2053is not specified.
2054A shift sets the value of
2055.Li $1
2056to the value of
2057.Li $2 ,
2058the value of
2059.Li $2
2060to the value of
2061.Li $3 ,
2062and so on,
2063decreasing the value of
2064.Li $#
2065by one.
2066If there are zero positional parameters, shifting does not do anything.
2067.It Ic test
2068A built-in equivalent of
2069.Xr test 1 .
2070.It Ic times
2071Print the amount of time spent executing the shell and its children.
2072The first output line shows the user and system times for the shell
2073itself, the second one contains the user and system times for the
2074children.
2075.It Ic trap Oo Ar action Oc Ar signal ...
2076.It Ic trap Fl l
2077Cause the shell to parse and execute
2078.Ar action
2079when any specified
2080.Ar signal
2081is received.
2082The signals are specified by name or number.
2083In addition, the pseudo-signal
2084.Cm EXIT
2085may be used to specify an
2086.Ar action
2087that is performed when the shell terminates.
2088The
2089.Ar action
2090may be an empty string or a dash
2091.Pq Ql - ;
2092the former causes the specified signal to be ignored
2093and the latter causes the default action to be taken.
2094Omitting the
2095.Ar action
2096is another way to request the default action, for compatibility reasons this
2097usage is not recommended though.
2098When the shell forks off a subshell,
2099it resets trapped (but not ignored) signals to the default action.
2100The
2101.Ic trap
2102command has no effect on signals that were ignored on entry to the shell.
2103.Pp
2104Option
2105.Fl l
2106causes the
2107.Ic trap
2108command to display a list of valid signal names.
2109.It Ic true
2110A null command that returns a 0 (true) exit value.
2111.It Ic type Op Ar name ...
2112Interpret each
2113.Ar name
2114as a command and print the resolution of the command search.
2115Possible resolutions are:
2116shell keyword, alias, shell built-in command, command, tracked alias
2117and not found.
2118For aliases the alias expansion is printed;
2119for commands and tracked aliases
2120the complete pathname of the command is printed.
2121.It Ic ulimit Oo Fl HSabcdflmnstuv Oc Op Ar limit
2122Set or display resource limits (see
2123.Xr getrlimit 2 ) .
2124If
2125.Ar limit
2126is specified, the named resource will be set;
2127otherwise the current resource value will be displayed.
2128.Pp
2129If
2130.Fl H
2131is specified, the hard limits will be set or displayed.
2132While everybody is allowed to reduce a hard limit,
2133only the superuser can increase it.
2134The
2135.Fl S
2136option
2137specifies the soft limits instead.
2138When displaying limits,
2139only one of
2140.Fl S
2141or
2142.Fl H
2143can be given.
2144The default is to display the soft limits,
2145and to set both the hard and the soft limits.
2146.Pp
2147Option
2148.Fl a
2149causes the
2150.Ic ulimit
2151command to display all resources.
2152The parameter
2153.Ar limit
2154is not acceptable in this mode.
2155.Pp
2156The remaining options specify which resource value is to be
2157displayed or modified.
2158They are mutually exclusive.
2159.Bl -tag -width indent
2160.It Fl b Ar sbsize
2161The maximum size of socket buffer usage, in bytes.
2162.It Fl c Ar coredumpsize
2163The maximal size of core dump files, in 512-byte blocks.
2164.It Fl d Ar datasize
2165The maximal size of the data segment of a process, in kilobytes.
2166.It Fl f Ar filesize
2167The maximal size of a file, in 512-byte blocks.
2168.It Fl l Ar lockedmem
2169The maximal size of memory that can be locked by a process, in
2170kilobytes.
2171.It Fl m Ar memoryuse
2172The maximal resident set size of a process, in kilobytes.
2173.It Fl n Ar nofiles
2174The maximal number of descriptors that could be opened by a process.
2175.It Fl s Ar stacksize
2176The maximal size of the stack segment, in kilobytes.
2177.It Fl t Ar time
2178The maximal amount of CPU time to be used by each process, in seconds.
2179.It Fl u Ar userproc
2180The maximal number of simultaneous processes for this user ID.
2181.It Fl v Ar virtualmem
2182The maximal virtual size of a process, in kilobytes.
2183.El
2184.It Ic umask Oo Fl S Oc Op Ar mask
2185Set the file creation mask (see
2186.Xr umask 2 )
2187to the octal or symbolic (see
2188.Xr chmod 1 )
2189value specified by
2190.Ar mask .
2191If the argument is omitted, the current mask value is printed.
2192If the
2193.Fl S
2194option is specified, the output is symbolic, otherwise the output is octal.
2195.It Ic unalias Oo Fl a Oc Op Ar name ...
2196The specified alias names are removed.
2197If
2198.Fl a
2199is specified, all aliases are removed.
2200.It Ic unset Oo Fl fv Oc Ar name ...
2201The specified variables or functions are unset and unexported.
2202If the
2203.Fl v
2204option is specified or no options are given, the
2205.Ar name
2206arguments are treated as variable names.
2207If the
2208.Fl f
2209option is specified, the
2210.Ar name
2211arguments are treated as function names.
2212.It Ic wait Op Ar job
2213Wait for the specified
2214.Ar job
2215to complete and return the exit status of the last process in the
2216.Ar job .
2217If the argument is omitted, wait for all jobs to complete
2218and return an exit status of zero.
2219.El
2220.Ss Commandline Editing
2221When
2222.Nm
2223is being used interactively from a terminal, the current command
2224and the command history
2225(see
2226.Ic fc
2227in
2228.Sx Built-in Commands )
2229can be edited using
2230.Nm vi Ns -mode
2231command line editing.
2232This mode uses commands similar
2233to a subset of those described in the
2234.Xr vi 1
2235man page.
2236The command
2237.Dq Li "set -o vi"
2238(or
2239.Dq Li "set -V" )
2240enables
2241.Nm vi Ns -mode
2242editing and places
2243.Nm
2244into
2245.Nm vi
2246insert mode.
2247With
2248.Nm vi Ns -mode
2249enabled,
2250.Nm
2251can be switched between insert mode and command mode by typing
2252.Aq ESC .
2253Hitting
2254.Aq return
2255while in command mode will pass the line to the shell.
2256.Pp
2257Similarly, the
2258.Dq Li "set -o emacs"
2259(or
2260.Dq Li "set -E" )
2261command can be used to enable a subset of
2262.Nm emacs Ns -style
2263command line editing features.
2264.Sh ENVIRONMENT
2265The following environment variables affect the execution of
2266.Nm :
2267.Bl -tag -width ".Ev HISTSIZE"
2268.It Ev CDPATH
2269The search path used with the
2270.Ic cd
2271built-in.
2272.It Ev EDITOR
2273The fallback editor used with the
2274.Ic fc
2275built-in.
2276If not set, the default editor is
2277.Xr ed 1 .
2278.It Ev FCEDIT
2279The default editor used with the
2280.Ic fc
2281built-in.
2282.It Ev HISTSIZE
2283The number of previous commands that are accessible.
2284.It Ev HOME
2285The starting directory of
2286.Nm .
2287.It Ev IFS
2288Input Field Separators.
2289This is normally set to
2290.Aq space ,
2291.Aq tab ,
2292and
2293.Aq newline .
2294See the
2295.Sx White Space Splitting
2296section for more details.
2297.It Ev MAIL
2298The name of a mail file, that will be checked for the arrival of new
2299mail.
2300Overridden by
2301.Ev MAILPATH .
2302.It Ev MAILPATH
2303A colon
2304.Pq Ql \&:
2305separated list of file names, for the shell to check for incoming
2306mail.
2307This environment setting overrides the
2308.Ev MAIL
2309setting.
2310There is a maximum of 10 mailboxes that can be monitored at once.
2311.It Ev PATH
2312The default search path for executables.
2313See the
2314.Sx Path Search
2315section for details.
2316.It Ev PS1
2317The primary prompt string, which defaults to
2318.Dq Li "$ " ,
2319unless you are the superuser, in which case it defaults to
2320.Dq Li "# " .
2321.It Ev PS2
2322The secondary prompt string, which defaults to
2323.Dq Li "> " .
2324.It Ev PS4
2325The prefix for the trace output (if
2326.Fl x
2327is active).
2328The default is
2329.Dq Li "+ " .
2330.It Ev TERM
2331The default terminal setting for the shell.
2332This is inherited by children of the shell, and is used in the history
2333editing modes.
2334.El
2335.Sh EXIT STATUS
2336Errors that are detected by the shell, such as a syntax error, will
2337cause the shell to exit with a non-zero exit status.
2338If the shell is not an interactive shell, the execution of the shell
2339file will be aborted.
2340Otherwise the shell will return the exit status of the last command
2341executed, or if the
2342.Ic exit
2343builtin is used with a numeric argument, it
2344will return the argument.
2345.Sh SEE ALSO
2346.Xr builtin 1 ,
2347.Xr chsh 1 ,
2348.Xr echo 1 ,
2349.Xr ed 1 ,
2350.Xr emacs 1 ,
2351.Xr expr 1 ,
2352.Xr getopt 1 ,
2353.Xr pwd 1 ,
2354.Xr test 1 ,
2355.Xr vi 1 ,
2356.Xr execve 2 ,
2357.Xr getrlimit 2 ,
2358.Xr umask 2 ,
2359.Xr editrc 5
2360.Sh HISTORY
2361A
2362.Nm
2363command, the Thompson shell, appeared in
2364.At v1 .
2365It was superseded in
2366.At v7
2367by the Bourne shell, which inherited the name
2368.Nm .
2369.Pp
2370This version of
2371.Nm
2372was rewritten in 1989 under the
2373.Bx
2374license after the Bourne shell from
2375.At V.4 .
2376.Sh AUTHORS
2377This version of
2378.Nm
2379was originally written by
2380.An Kenneth Almquist .
2381.Sh BUGS
2382The
2383.Nm
2384utility does not recognize multibyte characters.
2385