man/man1/rc.1 - plan9 - Git at Google

 .TH RC 1
 .SH NAME
 rc, cd, eval, exec, exit, flag, rfork, shift, wait, whatis, ., ~ \- command language
 .SH SYNOPSIS
 .B rc
 [
 .B -srdiIlxepvV
 ]
 [
 .B -c command
 ]
 [
 .I file
 [
 .I arg ...
 ]]
 .SH DESCRIPTION
 .I Rc
 is the Plan 9 shell.
 It executes command lines read from a terminal or a file or, with the
 .B -c
 flag, from
 .I rc's
 argument list.
 .SS Command Lines
 A command line is a sequence of commands, separated by ampersands or semicolons
 .RB ( &
 or
 .BR ; ),
 terminated by a newline.
 The commands are executed in sequence
 from left to right.
 .I Rc
 does not wait for a command followed by
 .B &
 to finish executing before starting
 the following command.
 Whenever a command followed by
 .B &
 is executed, its process id is assigned to the
 .I rc
 variable
 .BR $apid .
 Whenever a command
 .I not
 followed by
 .B &
 exits or is terminated, the
 .I rc
 variable
 .B $status
 gets the process's wait message (see
 .IR wait (3));
 it will be the null string if the command was successful.
 .PP
 A long command line may be continued on subsequent lines by typing
 a backslash
 .RB ( \e )
 followed by a newline.
 This sequence is treated as though it were a blank.
 Backslash is not otherwise a special character.
 .PP
 A number-sign
 .RB ( # )
 and any following characters up to (but not including) the next newline
 are ignored, except in quotation marks.
 .SS Simple Commands
 A simple command is a sequence of arguments interspersed with I/O redirections.
 If the first argument is the name of an
 .I rc
 function or of one of
 .I rc's
 built-in commands, it is executed by
 .IR rc .
 Otherwise if the name starts with a slash
 .RB ( / ),
 it must be the path name of the program to be executed.
 Names containing no initial slash are searched for in
 a list of directory names stored in
 .BR $path .
 The first executable file of the given name found
 in a directory in
 .B $path
 is the program to be executed.
 To be executable, the user must have execute permission (see
 .IR stat (3))
 and the file must be either an executable binary
 for the current machine's CPU type, or a shell script.
 Shell scripts begin with a line containing the full path name of a shell
 (usually
 .BR /bin/rc ),
 prefixed by
 .LR #! .
 .PP
 The first word of a simple command cannot be a keyword unless it is
 quoted or otherwise disguised.
 The keywords are
 .EX
 	for in while if not switch fn ~ ! @
 .EE
 .SS Arguments and Variables
 A number of constructions may be used where
 .I rc's
 syntax requires an argument to appear.
 In many cases a construction's
 value will be a list of arguments rather than a single string.
 .PP
 The simplest kind of argument is the unquoted word:
 a sequence of one or more characters none of which is a blank, tab,
 newline, or any of the following:
 .EX
 	# ; & | ^ $ = ` ' { } ( ) < >
 .EE
 An unquoted word that contains any of the characters
 .B *
 .B ?
 .B [
 is a pattern for matching against file names.
 The character
 .B *
 matches any sequence of characters,
 .B ?
 matches any single character, and
 .BI [ class ]
 matches any character in the
 .IR class .
 If the first character of
 .I class
 is
 .BR ~ ,
 the class is complemented.
 The
 .I class
 may also contain pairs of characters separated by
 .BR - ,
 standing for all characters lexically between the two.
 The character
 .B /
 must appear explicitly in a pattern, as must the
 first character of the path name components
 .B .
 and
 .BR .. .
 A pattern is replaced by a list of arguments, one for each path name matched,
 except that a pattern matching no names is not replaced by the empty list,
 but rather stands for itself.
 Pattern matching is done after all other
 operations.
 Thus,
 .EX
 	x=/tmp echo $x^/*.c
 .EE
 matches
 .BR /tmp/*.c ,
 rather than matching
 .B "/*.c
 and then prefixing
 .BR /tmp .
 .PP
 A quoted word is a sequence of characters surrounded by single quotes
 .RB ( ' ).
 A single quote is represented in a quoted word by a pair of quotes
 .RB ( '' ).
 .PP
 Each of the following is an argument.
 .PD 0
 .HP
 .BI ( arguments )
 .br
 The value of a sequence of arguments enclosed in parentheses is
 a list comprising the members of each element of the sequence.
 Argument lists have no recursive structure, although their syntax may
 suggest it.
 The following are entirely equivalent:
 .EX
 	echo hi there everybody
 	((echo) (hi there) everybody)
 .EE
 .HP
 .BI $ argument
 .HP
 .BI $ argument ( subscript )
 .br
 The
 .I argument
 after the
 .B $
 is the name of a variable whose value is substituted.
 Multiple levels
 of indirection are possible, but of questionable utility.
 Variable values
 are lists of strings.
 If
 .I argument
 is a number
 .IR n ,
 the value is the
 .IR n th
 element of
 .BR $* ,
 unless
 .B $*
 doesn't have
 .I n
 elements, in which case the value is empty.
 If
 .I argument
 is followed by a parenthesized list of subscripts, the
 value substituted is a list composed of the requested elements (origin 1).
 The parenthesis must follow the variable name with no spaces.
 Subscripts can also take the form
 .IB m - n
 or
 .IB m -
 to indicate a sequence of elements.
 Assignments to variables are described below.
 .HP
 .BI $# argument
 .br
 The value is the number of elements in the named variable.
 A variable
 never assigned a value has zero elements.
 .HP
 $"\c
 .I argument
 .br
 The value is a single string containing the components of the named variable
 separated by spaces.  A variable with zero elements yields the empty string.
 .HP
 .BI `{ command }
 .br
 .I rc
 executes the
 .I command
 and reads its standard output, splitting it into a list of arguments,
 using characters in
 .B $ifs
 as separators.
 If
 .B $ifs
 is not otherwise set, its value is
 .BR "'\ \et\en'" .
 .HP
 .BI <{ command }
 .HP
 .BI >{ command }
 .br
 The
 .I command
 is executed asynchronously with its standard output or standard input
 connected to a pipe.
 The value of the argument is the name of a file
 referring to the other end of the pipe.
 This allows the construction of
 non-linear pipelines.
 For example, the following runs two commands
 .B old
 and
 .B new
 and uses
 .B cmp
 to compare their outputs
 .EX
 	cmp <{old} <{new}
 .EE
 .HP
 .BI <>{ command }
 .br
 The
 .I command
 is executed asynchronously with its standard input and
 output each connected to a pipe.  The value of the argument
 is a pair of file names referring to the two other ends
 of the pipes, in the order corresponding to the symbols
 .B <
 and
 .B >
 (first the pipe connected to the command's standard output,
 then the pipe connected to its standard input).
 .HP
 .IB argument ^ argument
 .br
 The
 .B ^
 operator concatenates its two operands.
 If the two operands
 have the same number of components, they are concatenated pairwise.
 If not,
 then one operand must have one component, and the other must be non-empty,
 and concatenation is distributive.
 .PD
 .SS Free Carets
 In most circumstances,
 .I rc
 will insert the
 .B ^
 operator automatically between words that are not separated by white space.
 Whenever one of
 .B $
 .B '
 .B `
 follows a quoted or unquoted word or an unquoted word follows a quoted word
 with no intervening blanks or tabs,
 a
 .B ^
 is inserted between the two.
 If an unquoted word immediately follows a
 .BR $
 and contains a character other than an alphanumeric, underscore,
 or
 .BR * ,
 a
 .B ^
 is inserted before the first such character.
 Thus
 .IP
 .B cc -$flags $stem.c
 .LP
 is equivalent to
 .IP
 .B cc -^$flags $stem^.c
 .SS I/O Redirections
 The sequence
 .BI > file
 redirects the standard output file (file descriptor 1, normally the
 terminal) to the named
 .IR file ;
 .BI >> file
 appends standard output to the file.
 The standard input file (file descriptor 0, also normally the terminal)
 may be redirected from a file by the sequence
 .BI < file \f1,
 or from an inline `here document'
 by the sequence
 .BI << eof-marker\f1.
 The contents of a here document are lines of text taken from the command
 input stream up to a line containing nothing but the
 .IR eof-marker ,
 which may be either a quoted or unquoted word.
 If
 .I eof-marker
 is unquoted, variable names of the form
 .BI $ word
 have their values substituted from
 .I rc's
 environment.
 If
 .BI $ word
 is followed by a caret
 .RB ( ^ ),
 the caret is deleted.
 If
 .I eof-marker
 is quoted, no substitution occurs.
 .PP
 Redirections may be applied to a file-descriptor other than standard input
 or output by qualifying the redirection operator
 with a number in square brackets.
 For example, the diagnostic output (file descriptor 2)
 may be redirected by writing
 .BR "cc junk.c >[2]junk" .
 .PP
 A file descriptor may be redirected to an already open descriptor by writing
 .BI >[ fd0 = fd1 ]
 or
 .BI <[ fd0 = fd1 ]\f1.
 .I Fd1
 is a previously opened file descriptor and
 .I fd0
 becomes a new copy (in the sense of
 .IR dup (3))
 of it.
 A file descriptor may be closed by writing
 .BI >[ fd0 =]
 or
 .BI <[ fd0 =]\f1.
 .PP
 Redirections are executed from left to right.
 Therefore,
 .B cc junk.c >/dev/null >[2=1]
 and
 .B cc junk.c >[2=1] >/dev/null
 have different effects: the first puts standard output in
 .BR /dev/null
 and then puts diagnostic output in the same place, where the second
 directs diagnostic output to the terminal and sends standard output to
 .BR /dev/null .
 .SS Compound Commands
 A pair of commands separated by a pipe operator
 .RB ( | )
 is a command.
 The standard output of the left command is sent through a pipe
 to the standard input of the right command.
 The pipe operator may be decorated
 to use different file descriptors.
 .BI |[ fd ]
 connects the output end of the pipe to file descriptor
 .I fd
 rather than 1.
 .BI |[ fd0 = fd1 ]
 connects output to
 .I fd1
 of the left command and input to
 .I fd0
 of the right command.
 .PP
 A pair of commands separated by
 .B &&
 or
 .B ||
 is a command.
 In either case, the left command is executed and its exit status examined.
 If the operator is
 .B &&
 the right command is executed if the left command's status is null.
 .B ||
 causes the right command to be executed if the left command's status is non-null.
 .PP
 The exit status of a command may be inverted (non-null is changed to null, null
 is changed to non-null) by preceding it with a
 .BR ! .
 .PP
 The
 .B |
 operator has highest precedence, and is left-associative (i.e. binds tighter
 to the left than the right).
 .B !
 has intermediate precedence, and
 .B &&
 and
 .B ||
 have the lowest precedence.
 .PP
 The unary
 .B @
 operator, with precedence equal to
 .BR ! ,
 causes its operand to be executed in a subshell.
 .PP
 Each of the following is a command.
 .PD 0
 .HP
 .B if (
 .I list
 .B )
 .I command
 .br
 A
 .I list
 is a sequence of commands, separated by
 .BR & ,
 .BR ; ,
 or newline.
 It is executed and
 if its exit status is null, the
 .I command
 is executed.
 .HP
 .B if not
 .I command
 .br
 The immediately preceding command must have been
 .BI if( list )
 .IR command .
 If its condition was non-zero, the
 .I command
 is executed.
 .HP
 .BI for( name
 .B in
 .IB arguments )
 .I command
 .HP
 .BI for( name )
 .I command
 .br
 The
 .I command
 is executed once for each
 .IR argument
 with that argument assigned to
 .IR name .
 If the argument list is omitted,
 .B $*
 is used.
 .HP
 .BI while( list )
 .I command
 .br
 The
 .I list
 is executed repeatedly until its exit status is non-null.
 Each time it returns null status, the
 .I command
 is executed.
 An empty
 .I list
 is taken to give null status.
 .HP
 .BI "switch(" argument "){" list }
 .br
 The
 .IR list
 is searched for simple commands beginning with the word
 .BR case .
 (The search is only at the `top level' of the
 .IR list .
 That is,
 .B cases
 in nested constructs are not found.)
 .I Argument
 is matched against each word following
 .B case
 using the pattern-matching algorithm described above, except that
 .B /
 and the first characters of
 .B .
 and
 .B ..
 need not be matched explicitly.
 When a match is found, commands in the list are executed up to the next
 following
 .B case
 command (at the top level) or the closing brace.
 .HP
 .BI { list }
 .br
 Braces serve to alter the grouping of commands implied by operator
 priorities.
 The
 .I body
 is a sequence of commands separated by
 .BR & ,
 .BR ; ,
 or newline.
 .HP
 .BI "fn " name { list }
 .HP
 .BI "fn " name
 .br
 The first form defines a function with the given
 .IR name .
 Subsequently, whenever a command whose first argument is
 .I name
 is encountered, the current value of
 the remainder of the command's argument list will be assigned to
 .BR $* ,
 after saving its current value, and
 .I rc
 will execute the
 .IR list .
 The second form removes
 .IR name 's
 function definition.
 .HP
 .BI "fn " note { list }
 .br
 .HP
 .BI "fn " note
 .br
 A function with a special name will be called when
 .I rc
 receives a corresponding note; see
 .IR notify (3).
 The valid note names (and corresponding notes) are
 .B sighup
 .RB ( hangup ),
 .B sigint
 .RB ( interrupt ),
 .BR sigalrm
 .RB ( alarm ),
 and
 .B sigfpe
 (floating point trap).
 By default
 .I rc
 exits on receiving any signal, except when run interactively,
 in which case interrupts and quits normally cause
 .I rc
 to stop whatever it's doing and start reading a new command.
 The second form causes
 .I rc
 to handle a signal in the default manner.
 .I Rc
 recognizes an artificial note,
 .BR sigexit ,
 which occurs when
 .I rc
 is about to finish executing.
 .HP
 .IB name = "argument command"
 .br
 Any command may be preceded by a sequence of assignments
 interspersed with redirections.
 The assignments remain in effect until the end of the command, unless
 the command is empty (i.e. the assignments stand alone), in which case
 they are effective until rescinded by later assignments.
 .PD
 .SS Built-in Commands
 These commands are executed internally by
 .IR rc ,
 usually because their execution changes or depends on
 .IR rc 's
 internal state.
 .PD 0
 .HP
 .BI . " file ..."
 .br
 Execute commands from
 .IR file .
 .B $*
 is set for the duration to the remainder of the argument list following
 .IR file .
 .I File
 is searched for using
 .BR $path .
 .HP
 .BI builtin " command ..."
 .br
 Execute
 .I command
 as usual except that any function named
 .I command
 is ignored in favor of the built-in meaning.
 .HP
 .BI "cd [" dir "]"
 .br
 Change the current directory to
 .IR dir .
 The default argument is
 .BR $home .
 .I dir
 is searched for in each of the directories mentioned in
 .BR $cdpath .
 .HP
 .BI "eval [" "arg ..." "]"
 .br
 The arguments are concatenated separated by spaces into a single string,
 read as input to
 .IR rc ,
 and executed.
 .HP
 .BI "exec [" "command ..." "]"
 .br
 This instance of
 .I rc
 replaces itself with the given (non-built-in)
 .IR command .
 .HP
 .BI "flag " f " [+-]"
 .br
 Either set
 .RB ( + ),
 clear
 .RB ( - ),
 or test (neither
 .B +
 nor
 .BR - )
 the flag
 .IR f ,
 where
 .I f
 is a single character, one of the command line flags (see Invocation, below).
 .HP
 .BI "exit [" status "]"
 .br
 Exit with the given exit status.
 If none is given, the current value of
 .B $status
 is used.
 .HP
 .BR "rfork " [ nNeEsfFm ]
 .br
 Become a new process group using
 .BI rfork( flags )
 where
 .I flags
 is composed of the bitwise OR of the
 .B rfork
 flags specified by the option letters
 (see
 .IR fork (2)).
 If no
 .I flags
 are given, they default to
 .BR ens .
 The
 .I flags
 and their meanings are:
 .B n
 is
 .BR RFNAMEG ;
 .B N
 is
 .BR RFCNAMEG ;
 .B e
 is
 .BR RFENVG ;
 .B E
 is
 .BR RFCENVG ;
 .B s
 is
 .BR RFNOTEG ;
 .B f
 is
 .BR RFFDG ;
 .B F
 is
 .BR RFCFDG ;
 and
 .B m
 is
 .BR RFNOMNT .
 .HP
 .BI "shift [" n "]"
 .br
 Delete the first
 .IR n
 (default 1)
 elements of
 .BR $* .
 .HP
 .BI "wait [" pid "]"
 .br
 Wait for the process with the given
 .I pid
 to exit.
 If no
 .I pid
 is given, all outstanding processes are waited for.
 .HP
 .BI whatis " name ..."
 .br
 Print the value of each
 .I name
 in a form suitable for input to
 .IR rc .
 The output is
 an assignment to any variable,
 the definition of any function,
 a call to
 .B builtin
 for any built-in command, or
 the completed pathname of any executable file.
 .HP
 .BI ~ " subject pattern ..."
 .br
 The
 .I subject
 is matched against each
 .I pattern
 in sequence.
 If it matches any pattern,
 .B $status
 is set to zero.
 Otherwise,
 .B $status
 is set to one.
 Patterns are the same as for file name matching, except that
 .B /
 and the first character of
 .B .
 and
 .B ..
 need not be matched explicitly.
 The
 .I patterns
 are not subjected to
 file name matching before the
 .B ~
 command is executed, so they need not be enclosed in quotation marks.
 .PD
 .SS Environment
 The
 .I environment
 is a list of strings made available to executing binaries by the
 kernel.
 .I Rc
 creates an environment entry for each variable whose value is non-empty,
 and for each function.
 The string for a variable entry has the variable's name followed by
 .B =
 and its value.
 If the value has more than one component, these
 are separated by SOH (001)
 characters.
 The string for a function is just the
 .I rc
 input that defines the function.
 The name of a function in the environment is the function name
 preceded by
 .LR fn# .
 .PP
 When
 .I rc
 starts executing it reads variable and function definitions from its
 environment.
 .SS Special Variables
 The following variables are set or used by
 .IR rc .
 .PD 0
 .TP \w'\fL$promptXX'u
 .B $*
 Set to
 .IR rc 's
 argument list during initialization.
 Whenever a
 .B .
 command or a function is executed, the current value is saved and
 .B $*
 receives the new argument list.
 The saved value is restored on completion of the
 .B .
 or function.
 .TP
 .B $apid
 Whenever a process is started asynchronously with
 .BR & ,
 .B $apid
 is set to its process id.
 .TP
 .B $home
 The default directory for
 .BR cd .
 .TP
 .B $ifs
 The input field separators used in backquote substitutions.
 If
 .B $ifs
 is not set in
 .IR rc 's
 environment, it is initialized to blank, tab and newline.
 .TP
 .B $path
 The search path used to find commands and input files
 for the
 .B .
 command.
 If not set in the environment, it is initialized by
 parsing the
 .B $PATH
 variable
 (as in
 .IR sh (1))
 or by
 .BR "path=(.\ /bin)" .
 The variables
 .B $path
 and
 .B $PATH
 are maintained together: changes to one will be reflected in the other.
 .\" Its use is discouraged; instead use
 .\" .IR bind (1)
 .\" to build a
 .\" .B /bin
 .\" containing what's needed.
 .TP
 .B $pid
 Set during initialization to
 .IR rc 's
 process id.
 .TP
 .B $prompt
 When
 .I rc
 is run interactively, the first component of
 .B $prompt
 is printed before reading each command.
 The second component is printed whenever a newline is typed and more lines
 are required to complete the command.
 If not set in the environment, it is initialized by
 .BR "prompt=('%\ '\ '\ ')" .
 .TP
 .B $status
 Set to the wait message of the last-executed program.
 (unless started with
 .BR &).
 .B !
 and
 .B ~
 also change
 .BR $status .
 Its value is used to control execution in
 .BR && ,
 .BR || ,
 .B if
 and
 .B while
 commands.
 When
 .I rc
 exits at end-of-file of its input or on executing an
 .B exit
 command with no argument,
 .B $status
 is its exit status.
 .PD
 .SS Invocation
 If
 .I rc
 is started with no arguments it reads commands from standard input.
 Otherwise its first non-flag argument is the name of a file from which
 to read commands (but see
 .B -c
 below).
 Subsequent arguments become the initial value of
 .BR $* .
 .I Rc
 accepts the following command-line flags.
 .PD 0
 .TP \w'\fL-c\ \fIstring\fLXX'u
 .BI -c " string"
 Commands are read from
 .IR string .
 .TP
 .B -s
 Print out exit status after any command where the status is non-null.
 .TP
 .B -e
 Exit if
 .B $status
 is non-null after executing a simple command.
 .TP
 .B -i
 If
 .B -i
 is present, or
 .I rc
 is given no arguments and its standard input is a terminal,
 it runs interactively.
 Commands are prompted for using
 .BR $prompt .
 .TP
 .B -I
 Makes sure
 .I rc
 is not run interactively.
 .TP
 .B -l
 If
 .B -l
 is given or the first character of argument zero is
 .BR - ,
 .I rc
 reads commands from
 .BR $home/lib/profile ,
 if it exists, before reading its normal input.
 .TP
 .B -p
 A no-op.
 .TP
 .B -d
 A no-op.
 .TP
 .B -v
 Echo input on file descriptor 2 as it is read.
 .TP
 .B -x
 Print each simple command before executing it.
 .TP
 .B -r
 Print debugging information (internal form of commands
 as they are executed).
 .PD
 .SH SOURCE
 .B \*9/src/cmd/rc
 .SH "SEE ALSO"
 Tom Duff,
 ``Rc \- The Plan 9 Shell''.
 .SH BUGS
 There should be a way to match patterns against whole lists rather than
 just single strings.
 .PP
 Using
 .B ~
 to check the value of
 .B $status
 changes
 .BR $status .
 .PP
 Functions that use here documents don't work.
 .PP
 Free carets don't get inserted next to keywords.
 .PP
 The
 .BI <{ command }
 syntax depends on the underlying operating system
 providing a file descriptor device tree at
 .BR /dev/fd .
 .PP
 Some FreeBSD installations
 does not provide file descriptors greater than 2
 in
 .BR /dev/fd .
 To fix this, add
 .IP
 .EX
 /fdescfs    /dev/fd    fdescfs    rw    0    0
 .EE
 .LP
 to
 .BR /etc/fstab ,
 and then
 .B mount
 .BR /dev/fd .
 (Adding the line to
 .B fstab
 ensures causes FreeBSD to mount the file system
 automatically at boot time.)
	.TH RC 1
	.SH NAME
	rc, cd, eval, exec, exit, flag, rfork, shift, wait, whatis, ., ~ \- command language
	.SH SYNOPSIS
	.B rc
	[
	.B -srdiIlxepvV
	]
	[
	.B -c command
	]
	[
	.I file
	[
	.I arg ...
	]]
	.SH DESCRIPTION
	.I Rc
	is the Plan 9 shell.
	It executes command lines read from a terminal or a file or, with the
	.B -c
	flag, from
	.I rc's
	argument list.
	.SS Command Lines
	A command line is a sequence of commands, separated by ampersands or semicolons
	.RB ( &
	or
	.BR ; ),
	terminated by a newline.
	The commands are executed in sequence
	from left to right.
	.I Rc
	does not wait for a command followed by
	.B &
	to finish executing before starting
	the following command.
	Whenever a command followed by
	.B &
	is executed, its process id is assigned to the
	.I rc
	variable
	.BR $apid .
	Whenever a command
	.I not
	followed by
	.B &
	exits or is terminated, the
	.I rc
	variable
	.B $status
	gets the process's wait message (see
	.IR wait (3));
	it will be the null string if the command was successful.
	.PP
	A long command line may be continued on subsequent lines by typing
	a backslash
	.RB ( \e )
	followed by a newline.
	This sequence is treated as though it were a blank.
	Backslash is not otherwise a special character.
	.PP
	A number-sign
	.RB ( # )
	and any following characters up to (but not including) the next newline
	are ignored, except in quotation marks.
	.SS Simple Commands
	A simple command is a sequence of arguments interspersed with I/O redirections.
	If the first argument is the name of an
	.I rc
	function or of one of
	.I rc's
	built-in commands, it is executed by
	.IR rc .
	Otherwise if the name starts with a slash
	.RB ( / ),
	it must be the path name of the program to be executed.
	Names containing no initial slash are searched for in
	a list of directory names stored in
	.BR $path .
	The first executable file of the given name found
	in a directory in
	.B $path
	is the program to be executed.
	To be executable, the user must have execute permission (see
	.IR stat (3))
	and the file must be either an executable binary
	for the current machine's CPU type, or a shell script.
	Shell scripts begin with a line containing the full path name of a shell
	(usually
	.BR /bin/rc ),
	prefixed by
	.LR #! .
	.PP
	The first word of a simple command cannot be a keyword unless it is
	quoted or otherwise disguised.
	The keywords are
	.EX
	for in while if not switch fn ~ ! @
	.EE
	.SS Arguments and Variables
	A number of constructions may be used where
	.I rc's
	syntax requires an argument to appear.
	In many cases a construction's
	value will be a list of arguments rather than a single string.
	.PP
	The simplest kind of argument is the unquoted word:
	a sequence of one or more characters none of which is a blank, tab,
	newline, or any of the following:
	.EX
	# ; & \| ^ $ = ` ' { } ( ) < >
	.EE
	An unquoted word that contains any of the characters
	.B *
	.B ?
	.B [
	is a pattern for matching against file names.
	The character
	.B *
	matches any sequence of characters,
	.B ?
	matches any single character, and
	.BI [ class ]
	matches any character in the
	.IR class .
	If the first character of
	.I class
	is
	.BR ~ ,
	the class is complemented.
	The
	.I class
	may also contain pairs of characters separated by
	.BR - ,
	standing for all characters lexically between the two.
	The character
	.B /
	must appear explicitly in a pattern, as must the
	first character of the path name components
	.B .
	and
	.BR .. .
	A pattern is replaced by a list of arguments, one for each path name matched,
	except that a pattern matching no names is not replaced by the empty list,
	but rather stands for itself.
	Pattern matching is done after all other
	operations.
	Thus,
	.EX
	x=/tmp echo $x^/*.c
	.EE
	matches
	.BR /tmp/*.c ,
	rather than matching
	.B "/*.c
	and then prefixing
	.BR /tmp .
	.PP
	A quoted word is a sequence of characters surrounded by single quotes
	.RB ( ' ).
	A single quote is represented in a quoted word by a pair of quotes
	.RB ( '' ).
	.PP
	Each of the following is an argument.
	.PD 0
	.HP
	.BI ( arguments )
	.br
	The value of a sequence of arguments enclosed in parentheses is
	a list comprising the members of each element of the sequence.
	Argument lists have no recursive structure, although their syntax may
	suggest it.
	The following are entirely equivalent:
	.EX
	echo hi there everybody
	((echo) (hi there) everybody)
	.EE
	.HP
	.BI $ argument
	.HP
	.BI $ argument ( subscript )
	.br
	The
	.I argument
	after the
	.B $
	is the name of a variable whose value is substituted.
	Multiple levels
	of indirection are possible, but of questionable utility.
	Variable values
	are lists of strings.
	If
	.I argument
	is a number
	.IR n ,
	the value is the
	.IR n th
	element of
	.BR $* ,
	unless
	.B $*
	doesn't have
	.I n
	elements, in which case the value is empty.
	If
	.I argument
	is followed by a parenthesized list of subscripts, the
	value substituted is a list composed of the requested elements (origin 1).
	The parenthesis must follow the variable name with no spaces.
	Subscripts can also take the form
	.IB m - n
	or
	.IB m -
	to indicate a sequence of elements.
	Assignments to variables are described below.
	.HP
	.BI $# argument
	.br
	The value is the number of elements in the named variable.
	A variable
	never assigned a value has zero elements.
	.HP
	$"\c
	.I argument
	.br
	The value is a single string containing the components of the named variable
	separated by spaces. A variable with zero elements yields the empty string.
	.HP
	.BI `{ command }
	.br
	.I rc
	executes the
	.I command
	and reads its standard output, splitting it into a list of arguments,
	using characters in
	.B $ifs
	as separators.
	If
	.B $ifs
	is not otherwise set, its value is
	.BR "'\ \et\en'" .
	.HP
	.BI <{ command }
	.HP
	.BI >{ command }
	.br
	The
	.I command
	is executed asynchronously with its standard output or standard input
	connected to a pipe.
	The value of the argument is the name of a file
	referring to the other end of the pipe.
	This allows the construction of
	non-linear pipelines.
	For example, the following runs two commands
	.B old
	and
	.B new
	and uses
	.B cmp
	to compare their outputs
	.EX
	cmp <{old} <{new}
	.EE
	.HP
	.BI <>{ command }
	.br
	The
	.I command
	is executed asynchronously with its standard input and
	output each connected to a pipe. The value of the argument
	is a pair of file names referring to the two other ends
	of the pipes, in the order corresponding to the symbols
	.B <
	and
	.B >
	(first the pipe connected to the command's standard output,
	then the pipe connected to its standard input).
	.HP
	.IB argument ^ argument
	.br
	The
	.B ^
	operator concatenates its two operands.
	If the two operands
	have the same number of components, they are concatenated pairwise.
	If not,
	then one operand must have one component, and the other must be non-empty,
	and concatenation is distributive.
	.PD
	.SS Free Carets
	In most circumstances,
	.I rc
	will insert the
	.B ^
	operator automatically between words that are not separated by white space.
	Whenever one of
	.B $
	.B '
	.B `
	follows a quoted or unquoted word or an unquoted word follows a quoted word
	with no intervening blanks or tabs,
	a
	.B ^
	is inserted between the two.
	If an unquoted word immediately follows a
	.BR $
	and contains a character other than an alphanumeric, underscore,
	or
	.BR * ,
	a
	.B ^
	is inserted before the first such character.
	Thus
	.IP
	.B cc -$flags $stem.c
	.LP
	is equivalent to
	.IP
	.B cc -^$flags $stem^.c
	.SS I/O Redirections
	The sequence
	.BI > file
	redirects the standard output file (file descriptor 1, normally the
	terminal) to the named
	.IR file ;
	.BI >> file
	appends standard output to the file.
	The standard input file (file descriptor 0, also normally the terminal)
	may be redirected from a file by the sequence
	.BI < file \f1,
	or from an inline `here document'
	by the sequence
	.BI << eof-marker\f1.
	The contents of a here document are lines of text taken from the command
	input stream up to a line containing nothing but the
	.IR eof-marker ,
	which may be either a quoted or unquoted word.
	If
	.I eof-marker
	is unquoted, variable names of the form
	.BI $ word
	have their values substituted from
	.I rc's
	environment.
	If
	.BI $ word
	is followed by a caret
	.RB ( ^ ),
	the caret is deleted.
	If
	.I eof-marker
	is quoted, no substitution occurs.
	.PP
	Redirections may be applied to a file-descriptor other than standard input
	or output by qualifying the redirection operator
	with a number in square brackets.
	For example, the diagnostic output (file descriptor 2)
	may be redirected by writing
	.BR "cc junk.c >[2]junk" .
	.PP
	A file descriptor may be redirected to an already open descriptor by writing
	.BI >[ fd0 = fd1 ]
	or
	.BI <[ fd0 = fd1 ]\f1.
	.I Fd1
	is a previously opened file descriptor and
	.I fd0
	becomes a new copy (in the sense of
	.IR dup (3))
	of it.
	A file descriptor may be closed by writing
	.BI >[ fd0 =]
	or
	.BI <[ fd0 =]\f1.
	.PP
	Redirections are executed from left to right.
	Therefore,
	.B cc junk.c >/dev/null >[2=1]
	and
	.B cc junk.c >[2=1] >/dev/null
	have different effects: the first puts standard output in
	.BR /dev/null
	and then puts diagnostic output in the same place, where the second
	directs diagnostic output to the terminal and sends standard output to
	.BR /dev/null .
	.SS Compound Commands
	A pair of commands separated by a pipe operator
	.RB ( \| )
	is a command.
	The standard output of the left command is sent through a pipe
	to the standard input of the right command.
	The pipe operator may be decorated
	to use different file descriptors.
	.BI \|[ fd ]
	connects the output end of the pipe to file descriptor
	.I fd
	rather than 1.
	.BI \|[ fd0 = fd1 ]
	connects output to
	.I fd1
	of the left command and input to
	.I fd0
	of the right command.
	.PP
	A pair of commands separated by
	.B &&
	or
	.B \|\|
	is a command.
	In either case, the left command is executed and its exit status examined.
	If the operator is
	.B &&
	the right command is executed if the left command's status is null.
	.B \|\|
	causes the right command to be executed if the left command's status is non-null.
	.PP
	The exit status of a command may be inverted (non-null is changed to null, null
	is changed to non-null) by preceding it with a
	.BR ! .
	.PP
	The
	.B \|
	operator has highest precedence, and is left-associative (i.e. binds tighter
	to the left than the right).
	.B !
	has intermediate precedence, and
	.B &&
	and
	.B \|\|
	have the lowest precedence.
	.PP
	The unary
	.B @
	operator, with precedence equal to
	.BR ! ,
	causes its operand to be executed in a subshell.
	.PP
	Each of the following is a command.
	.PD 0
	.HP
	.B if (
	.I list
	.B )
	.I command
	.br
	A
	.I list
	is a sequence of commands, separated by
	.BR & ,
	.BR ; ,
	or newline.
	It is executed and
	if its exit status is null, the
	.I command
	is executed.
	.HP
	.B if not
	.I command
	.br
	The immediately preceding command must have been
	.BI if( list )
	.IR command .
	If its condition was non-zero, the
	.I command
	is executed.
	.HP
	.BI for( name
	.B in
	.IB arguments )
	.I command
	.HP
	.BI for( name )
	.I command
	.br
	The
	.I command
	is executed once for each
	.IR argument
	with that argument assigned to
	.IR name .
	If the argument list is omitted,
	.B $*
	is used.
	.HP
	.BI while( list )
	.I command
	.br
	The
	.I list
	is executed repeatedly until its exit status is non-null.
	Each time it returns null status, the
	.I command
	is executed.
	An empty
	.I list
	is taken to give null status.
	.HP
	.BI "switch(" argument "){" list }
	.br
	The
	.IR list
	is searched for simple commands beginning with the word
	.BR case .
	(The search is only at the `top level' of the
	.IR list .
	That is,
	.B cases
	in nested constructs are not found.)
	.I Argument
	is matched against each word following
	.B case
	using the pattern-matching algorithm described above, except that
	.B /
	and the first characters of
	.B .
	and
	.B ..
	need not be matched explicitly.
	When a match is found, commands in the list are executed up to the next
	following
	.B case
	command (at the top level) or the closing brace.
	.HP
	.BI { list }
	.br
	Braces serve to alter the grouping of commands implied by operator
	priorities.
	The
	.I body
	is a sequence of commands separated by
	.BR & ,
	.BR ; ,
	or newline.
	.HP
	.BI "fn " name { list }
	.HP
	.BI "fn " name
	.br
	The first form defines a function with the given
	.IR name .
	Subsequently, whenever a command whose first argument is
	.I name
	is encountered, the current value of
	the remainder of the command's argument list will be assigned to
	.BR $* ,
	after saving its current value, and
	.I rc
	will execute the
	.IR list .
	The second form removes
	.IR name 's
	function definition.
	.HP
	.BI "fn " note { list }
	.br
	.HP
	.BI "fn " note
	.br
	A function with a special name will be called when
	.I rc
	receives a corresponding note; see
	.IR notify (3).
	The valid note names (and corresponding notes) are
	.B sighup
	.RB ( hangup ),
	.B sigint
	.RB ( interrupt ),
	.BR sigalrm
	.RB ( alarm ),
	and
	.B sigfpe
	(floating point trap).
	By default
	.I rc
	exits on receiving any signal, except when run interactively,
	in which case interrupts and quits normally cause
	.I rc
	to stop whatever it's doing and start reading a new command.
	The second form causes
	.I rc
	to handle a signal in the default manner.
	.I Rc
	recognizes an artificial note,
	.BR sigexit ,
	which occurs when
	.I rc
	is about to finish executing.
	.HP
	.IB name = "argument command"
	.br
	Any command may be preceded by a sequence of assignments
	interspersed with redirections.
	The assignments remain in effect until the end of the command, unless
	the command is empty (i.e. the assignments stand alone), in which case
	they are effective until rescinded by later assignments.
	.PD
	.SS Built-in Commands
	These commands are executed internally by
	.IR rc ,
	usually because their execution changes or depends on
	.IR rc 's
	internal state.
	.PD 0
	.HP
	.BI . " file ..."
	.br
	Execute commands from
	.IR file .
	.B $*
	is set for the duration to the remainder of the argument list following
	.IR file .
	.I File
	is searched for using
	.BR $path .
	.HP
	.BI builtin " command ..."
	.br
	Execute
	.I command
	as usual except that any function named
	.I command
	is ignored in favor of the built-in meaning.
	.HP
	.BI "cd [" dir "]"
	.br
	Change the current directory to
	.IR dir .
	The default argument is
	.BR $home .
	.I dir
	is searched for in each of the directories mentioned in
	.BR $cdpath .
	.HP
	.BI "eval [" "arg ..." "]"
	.br
	The arguments are concatenated separated by spaces into a single string,
	read as input to
	.IR rc ,
	and executed.
	.HP
	.BI "exec [" "command ..." "]"
	.br
	This instance of
	.I rc
	replaces itself with the given (non-built-in)
	.IR command .
	.HP
	.BI "flag " f " [+-]"
	.br
	Either set
	.RB ( + ),
	clear
	.RB ( - ),
	or test (neither
	.B +
	nor
	.BR - )
	the flag
	.IR f ,
	where
	.I f
	is a single character, one of the command line flags (see Invocation, below).
	.HP
	.BI "exit [" status "]"
	.br
	Exit with the given exit status.
	If none is given, the current value of
	.B $status
	is used.
	.HP
	.BR "rfork " [ nNeEsfFm ]
	.br
	Become a new process group using
	.BI rfork( flags )
	where
	.I flags
	is composed of the bitwise OR of the
	.B rfork
	flags specified by the option letters
	(see
	.IR fork (2)).
	If no
	.I flags
	are given, they default to
	.BR ens .
	The
	.I flags
	and their meanings are:
	.B n
	is
	.BR RFNAMEG ;
	.B N
	is
	.BR RFCNAMEG ;
	.B e
	is
	.BR RFENVG ;
	.B E
	is
	.BR RFCENVG ;
	.B s
	is
	.BR RFNOTEG ;
	.B f
	is
	.BR RFFDG ;
	.B F
	is
	.BR RFCFDG ;
	and
	.B m
	is
	.BR RFNOMNT .
	.HP
	.BI "shift [" n "]"
	.br
	Delete the first
	.IR n
	(default 1)
	elements of
	.BR $* .
	.HP
	.BI "wait [" pid "]"
	.br
	Wait for the process with the given
	.I pid
	to exit.
	If no
	.I pid
	is given, all outstanding processes are waited for.
	.HP
	.BI whatis " name ..."
	.br
	Print the value of each
	.I name
	in a form suitable for input to
	.IR rc .
	The output is
	an assignment to any variable,
	the definition of any function,
	a call to
	.B builtin
	for any built-in command, or
	the completed pathname of any executable file.
	.HP
	.BI ~ " subject pattern ..."
	.br
	The
	.I subject
	is matched against each
	.I pattern
	in sequence.
	If it matches any pattern,
	.B $status
	is set to zero.
	Otherwise,
	.B $status
	is set to one.
	Patterns are the same as for file name matching, except that
	.B /
	and the first character of
	.B .
	and
	.B ..
	need not be matched explicitly.
	The
	.I patterns
	are not subjected to
	file name matching before the
	.B ~
	command is executed, so they need not be enclosed in quotation marks.
	.PD
	.SS Environment
	The
	.I environment
	is a list of strings made available to executing binaries by the
	kernel.
	.I Rc
	creates an environment entry for each variable whose value is non-empty,
	and for each function.
	The string for a variable entry has the variable's name followed by
	.B =
	and its value.
	If the value has more than one component, these
	are separated by SOH (001)
	characters.
	The string for a function is just the
	.I rc
	input that defines the function.
	The name of a function in the environment is the function name
	preceded by
	.LR fn# .
	.PP
	When
	.I rc
	starts executing it reads variable and function definitions from its
	environment.
	.SS Special Variables
	The following variables are set or used by
	.IR rc .
	.PD 0
	.TP \w'\fL$promptXX'u
	.B $*
	Set to
	.IR rc 's
	argument list during initialization.
	Whenever a
	.B .
	command or a function is executed, the current value is saved and
	.B $*
	receives the new argument list.
	The saved value is restored on completion of the
	.B .
	or function.
	.TP
	.B $apid
	Whenever a process is started asynchronously with
	.BR & ,
	.B $apid
	is set to its process id.
	.TP
	.B $home
	The default directory for
	.BR cd .
	.TP
	.B $ifs
	The input field separators used in backquote substitutions.
	If
	.B $ifs
	is not set in
	.IR rc 's
	environment, it is initialized to blank, tab and newline.
	.TP
	.B $path
	The search path used to find commands and input files
	for the
	.B .
	command.
	If not set in the environment, it is initialized by
	parsing the
	.B $PATH
	variable
	(as in
	.IR sh (1))
	or by
	.BR "path=(.\ /bin)" .
	The variables
	.B $path
	and
	.B $PATH
	are maintained together: changes to one will be reflected in the other.
	.\" Its use is discouraged; instead use
	.\" .IR bind (1)
	.\" to build a
	.\" .B /bin
	.\" containing what's needed.
	.TP
	.B $pid
	Set during initialization to
	.IR rc 's
	process id.
	.TP
	.B $prompt
	When
	.I rc
	is run interactively, the first component of
	.B $prompt
	is printed before reading each command.
	The second component is printed whenever a newline is typed and more lines
	are required to complete the command.
	If not set in the environment, it is initialized by
	.BR "prompt=('%\ '\ '\ ')" .
	.TP
	.B $status
	Set to the wait message of the last-executed program.
	(unless started with
	.BR &).
	.B !
	and
	.B ~
	also change
	.BR $status .
	Its value is used to control execution in
	.BR && ,
	.BR \|\| ,
	.B if
	and
	.B while
	commands.
	When
	.I rc
	exits at end-of-file of its input or on executing an
	.B exit
	command with no argument,
	.B $status
	is its exit status.
	.PD
	.SS Invocation
	If
	.I rc
	is started with no arguments it reads commands from standard input.
	Otherwise its first non-flag argument is the name of a file from which
	to read commands (but see
	.B -c
	below).
	Subsequent arguments become the initial value of
	.BR $* .
	.I Rc
	accepts the following command-line flags.
	.PD 0
	.TP \w'\fL-c\ \fIstring\fLXX'u
	.BI -c " string"
	Commands are read from
	.IR string .
	.TP
	.B -s
	Print out exit status after any command where the status is non-null.
	.TP
	.B -e
	Exit if
	.B $status
	is non-null after executing a simple command.
	.TP
	.B -i
	If
	.B -i
	is present, or
	.I rc
	is given no arguments and its standard input is a terminal,
	it runs interactively.
	Commands are prompted for using
	.BR $prompt .
	.TP
	.B -I
	Makes sure
	.I rc
	is not run interactively.
	.TP
	.B -l
	If
	.B -l
	is given or the first character of argument zero is
	.BR - ,
	.I rc
	reads commands from
	.BR $home/lib/profile ,
	if it exists, before reading its normal input.
	.TP
	.B -p
	A no-op.
	.TP
	.B -d
	A no-op.
	.TP
	.B -v
	Echo input on file descriptor 2 as it is read.
	.TP
	.B -x
	Print each simple command before executing it.
	.TP
	.B -r
	Print debugging information (internal form of commands
	as they are executed).
	.PD
	.SH SOURCE
	.B \*9/src/cmd/rc
	.SH "SEE ALSO"
	Tom Duff,
	``Rc \- The Plan 9 Shell''.
	.SH BUGS
	There should be a way to match patterns against whole lists rather than
	just single strings.
	.PP
	Using
	.B ~
	to check the value of
	.B $status
	changes
	.BR $status .
	.PP
	Functions that use here documents don't work.
	.PP
	Free carets don't get inserted next to keywords.
	.PP
	The
	.BI <{ command }
	syntax depends on the underlying operating system
	providing a file descriptor device tree at
	.BR /dev/fd .
	.PP
	Some FreeBSD installations
	does not provide file descriptors greater than 2
	in
	.BR /dev/fd .
	To fix this, add
	.IP
	.EX
	/fdescfs /dev/fd fdescfs rw 0 0
	.EE
	.LP
	to
	.BR /etc/fstab ,
	and then
	.B mount
	.BR /dev/fd .
	(Adding the line to
	.B fstab
	ensures causes FreeBSD to mount the file system
	automatically at boot time.)