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RC

RC

Section: User Commands (1) Updated: 2003-07-17
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NAME

rc - shell  

SYNOPSIS

rc [-deiIlnopsvx] [-c command] [arguments]  

DESCRIPTION

rc is a command interpreter and programming language similar to sh(1). It is based on the AT&T Plan 9 shell of the same name. The shell offers a C-like syntax (much more so than the C shell), and a powerful mechanism for manipulating variables. It is reasonably small and reasonably fast, especially when compared to contemporary shells. Its use is intended to be interactive, but the language lends itself well to scripts.  

OPTIONS

R-c
If R-c is present, commands are executed from the immediately following argument. Any further arguments to rc are placed in R$*R. R$* Thus:






Rrc -c 'echo $*' 1 2 3

prints out






R1 2 3

R-d
This flag causes rc not to ignore RSIGQUIT or RSIGTERMR. RSIGTERM Thus rc can be made to dump core if sent RSIGQUITR. RSIGQUIT This flag is only useful for debugging rc.
R-e
If the R-e flag is present, then rc will exit if the exit status of a command is false (nonzero). rc will not exit, however, if a conditional fails, e.g., an Rif() command.
R-i
If the R-i flag is present or if the input to rc is from a terminal (as determined by isatty(3)) then rc will be in interactive mode. That is, a prompt (from R$prompt(1)R) R$prompt(1) will be printed before an input line is taken, and rc will ignore RSIGINTR. RSIGINT
R-I
If the R-I flag is present, or if the input to rc is not from a terminal, then rc will not be in interactive mode. No prompts will be printed, and RSIGINT will cause rc to exit.
R-l
If the R-l flag is present, or if rc's Rargv[0][0] is a dash R(R-R), R(R- R( then rc will behave as a login shell. That is, it will run commands from R$home/.rcrcR, R$home/.rcrc if this file exists, before reading any other input.
R-n
This flag causes rc to read its input and parse it, but not to execute any commands. This is useful for syntax checking on scripts. If used in combination with the R-x flag, rc will print each command as it is parsed in a form similar to the one used for exporting functions into the environment.
R-o
This flag prevents the usual practice of trying to open R/dev/null on file descriptors 0, 1, and 2, if any of those descriptors are inherited closed.
R-p
This flag prevents rc from initializing shell functions from the environment. This allows rc to run in a protected mode, whereby it becomes more difficult for an rc script to be subverted by placing false commands in the environment. (Note that the presence of this flag does not mean that it is safe to run setuid rc scripts; the usual caveats about the setuid bit still apply.)
R-s
This flag causes rc to read from standard input. Any arguments are placed in R$*R. R$*
R-v
This flag causes rc to echo its input to standard error as it is read.
R-x
This flag causes rc to print every command on standard error before it is executed. It can be useful for debugging rc scripts.

 

COMMANDS

A simple command is a sequence of words, separated by white space (space and tab) characters that ends with a newline, semicolon R(R;R), R(R; R( or ampersand R(R&R). R(R& R( The first word of a command is the name of that command. If the name begins with R/R, R/ R./R, R./ or R../R, R../ then the name is used as an absolute path name referring to an executable file. Otherwise, the name of the command is looked up in a table of shell functions, builtin commands, or as a file in the directories named by R$pathR. R$path  

Background Tasks

A command ending with R& is run in the background; that is, the shell returns immediately rather than waiting for the command to complete. Background commands have R/dev/null connected to their standard input unless an explicit redirection for standard input is used.  

Subshells

A command prefixed with an at-sign R(R@R) R(R@ R( is executed in a subshell. This insulates the parent shell from the effects of state changing operations such as a cd or a variable assignment. For example:






R@ {cd ..; make}

will run make(1) in the parent directory R(R..R), R(R.. R( but leaves the shell running in the current directory.  

Line continuation

A long logical line may be continued over several physical lines by terminating each line (except the last) with a backslash R(R\R). R(R\ R( The backslash-newline sequence is treated as a space. A backslash is not otherwise special to rc. (In addition, inside quotes a backslash loses its special meaning even when it is followed by a newline.)  

Quoting

rc interprets several characters specially; special characters automatically terminate words. The following characters are special:






R# ; & | ^ $ = ` ' { } ( ) < >

The single quote R(R'R) R(R' R( prevents special treatment of any character other than itself. All characters, including control characters, newlines, and backslashes between two quote characters are treated as an uninterpreted string. A quote character itself may be quoted by placing two quotes in a row. The minimal sequence needed to enter the quote character is R''''R. R'''' The empty string is represented by R''R. R'' Thus:






Recho 'What''s the plan, Stan?'

prints out






RWhat's the plan, Stan?

The number sign R(R#R) R(R# R( begins a comment in rc. All characters up to but not including the next newline are ignored. Note that backslash continuation does not work inside a comment, i.e., the backslash is ignored along with everything else.  

Grouping

Zero or more commands may be grouped within braces R(``R{R'' R(``R{ R(`` and R``R}R''), R``R} R`` and are then treated as one command. Braces do not otherwise define scope; they are used only for command grouping. In particular, be wary of the command:






Rfor (i) {





R    command





R} | command

Since pipe binds tighter than RforR, Rfor this command does not perform what the user expects it to. Instead, enclose the whole Rfor statement in braces:






R{for (i) command} | command

Fortunately, rc's grammar is simple enough that a (confident) user can understand it by examining the skeletal yacc(1) grammar at the end of this man page (see the section entitled GRAMMAR).  

Input and output

The standard output may be redirected to a file with






Rcommand > file

and the standard input may be taken from a file with






Rcommand < file

Redirections can appear anywhere in the line: the word following the redirection symbol is the filename and must be quoted if it contains spaces or other special characters. These are all equivalent.






Recho 1 2 3 > foo





R> foo echo 1 2 3





Recho 1 2 > foo 3

File descriptors other than 0 and 1 may be specified also. For example, to redirect standard error to a file, use:






Rcommand >[2] file

In order to duplicate a file descriptor, use R>[InR=ImR]. R>[InR=Im R>[InR= R>[In R>[ Thus to redirect both standard output and standard error to the same file, use






Rcommand > file >[2=1]

As in sh, redirections are processed from left to right. Thus this sequence






Rcommand >[2=1] > file

is usually a mistake. It first duplicates standard error to standard output; then redirects standard output to a file, leaving standard error wherever standard output originally was.

To close a file descriptor that may be open, use R>[InR=]. R>[In R>[ For example, to close file descriptor 7:






Rcommand >[7=]

Note that no spaces may appear in these constructs:






Rcommand > [2] file

would send the output of the command to a file named R[2]R, R[2] with the intended filename appearing in the command's argument list.

In order to place the output of a command at the end of an already existing file, use:






Rcommand >> file

If the file does not exist, then it is created.

``Here documents'' are supported as in sh with the use of






Rcommand << 'eof-marker'

Subsequent lines form the standard input of the command, till a line containing just the marker, in this case Reof-markerR, Reof-marker is encountered.

If the end-of-file marker is enclosed in quotes, then no variable substitution occurs inside the here document. Otherwise, every variable is substituted by its space-separated-list value (see Flat Lists, below), and if a R^ character follows a variable name, it is deleted. This allows the unambiguous use of variables adjacent to text, as in






R$variable^follow

To include a literal R$ in a here document when an unquoted end-of-file marker is being used, enter it as R$$R. R$$

Additionally, rc supports ``here strings'', which are like here documents, except that input is taken directly from a string on the command line. Their use is illustrated here:






Rcat <<< 'this is a here string' | wc

(This feature enables rc to export functions using here documents into the environment; the author does not expect users to find this feature useful.)  

Pipes

Two or more commands may be combined in a pipeline by placing the vertical bar R(R|R) R(R| R( between them. The standard output (file descriptor 1) of the command on the left is tied to the standard input (file descriptor 0) of the command on the right. The notation R|[InR=ImR] R|[InR=Im R|[InR= R|[In R|[ indicates that file descriptor n of the left process is connected to file descriptor m of the right process. R|[InR] R|[In R|[ is a shorthand for R|[InR=0]. R|[In R|[ As an example, to pipe the standard error of a command to wc(1), use:






Rcommand |[2] wc

As with file redirections, no spaces may occur in the construct specifying numbered file descriptors.

The exit status of a pipeline is considered true if and only if every command in the pipeline exits true.  

Commands as Arguments

Some commands, like cmp(1) or diff(1), take their arguments on the command line, and do not read input from standard input. It is convenient sometimes to build nonlinear pipelines so that a command like cmp can read the output of two other commands at once. rc does it like this:






Rcmp <{command} <{command}

compares the output of the two commands in braces. Note: since this form of redirection is implemented with some kind of pipe, and since one cannot lseek(2) on a pipe, commands that use lseek(2) will hang. For example, some versions of diff(1) use lseek(2) on their inputs.

Data can be sent down a pipe to several commands using tee(1) and the output version of this notation:






Recho hi there | tee >{sed 's/^/p1 /'} >{sed 's/^/p2 /'}

 

CONTROL STRUCTURES

The following may be used for control flow in rc:  

If-Else Statements

Rif (ItestR) { Rif (Itest Rif (
cmd

R} else Icmd R} else
The test is executed, and if its return status is zero, the first command is executed, otherwise the second is. Braces are not mandatory around the commands. However, an Relse statement is valid only if it follows a close-brace on the same line. Otherwise, the Rif is taken to be a simple-if:






Rif (test)





R    command

 

While and For Loops

Rwhile (ItestR)I cmd Rwhile (ItestR) Rwhile (Itest Rwhile (
rc executes the test and performs the command as long as the test is true.
Rfor (IvarR in IlistR)I cmd Rfor (IvarR in IlistR) Rfor (IvarR in Ilist Rfor (IvarR in Rfor (Ivar Rfor (
rc sets var to each element of list (which may contain variables and backquote substitutions) and runs cmd. If R``Rin R`` list'' is omitted, then rc will set var to each element of R$*R. R$* For example:






Rfor (i in `{ls -F | grep '\*$' | sed 's/\*$//'}) { commands }

will set R$i to the name of each file in the current directory that is executable.
 

Switch

Rswitch (IlistR) { caseI ...R } Rswitch (IlistR) { caseI ... Rswitch (IlistR) { case Rswitch (Ilist Rswitch (
rc looks inside the braces after a Rswitch for statements beginning with the word RcaseR. Rcase If any of the patterns following Rcase match the list supplied to RswitchR, Rswitch then the commands up until the next Rcase statement are executed. The metacharacters R*R, R* R[ or R? should not be quoted; matching is performed only against the strings in list, not against file names. (Matching for case statements is the same as for the R~ command.)
 

Logical Operators

There are a number of operators in rc which depend on the exit status of a command.






Rcommand && command

executes the first command and then executes the second command if and only if the first command exits with a zero exit status (``true'' in Unix).






Rcommand || command

executes the first command and then executes the second command if and only if the first command exits with a nonzero exit status (``false'' in Unix).






R! command

negates the exit status of a command.  

PATTERN MATCHING

There are two forms of pattern matching in rc. One is traditional shell globbing. This occurs in matching for file names in argument lists:






Rcommand argument argument ...

When the characters R*R, R* R[ or R? occur in an argument or command, rc looks at the argument as a pattern for matching against files. (Contrary to the behavior other shells exhibit, rc will only perform pattern matching if a metacharacter occurs unquoted and literally in the input. Thus,






Rfoo='*'





Recho $foo

will always echo just a star. In order for non-literal metacharacters to be expanded, an Reval statement must be used in order to rescan the input.) Pattern matching occurs according to the following rules: a R* matches any number (including zero) of characters. A R? matches any single character, and a R[ followed by a number of characters followed by a R] matches a single character in that class. The rules for character class matching are the same as those for ed(1), with the exception that character class negation is achieved with the tilde R(R~R), R(R~ R( not the caret R(R^R), R(R^ R( since the caret already means something else in rc.

rc also matches patterns against strings with the R~ command:






R~ subject pattern pattern ...

R~ sets R$status to zero if and only if a supplied pattern matches any single element of the subject list. Thus






R~ foo f*

sets status to zero, while






R~ (bar baz) f*

sets status to one. The null list is matched by the null list, so






R~ $foo ()

checks to see whether R$foo is empty or not. This may also be achieved by the test






R~ $#foo 0

Note that inside a R~ command rc does not match patterns against file names, so it is not necessary to quote the characters R*R, R* R[ and R?R. R? However, rc does expand the subject against filenames if it contains metacharacters. Thus, the command






R~ * ?

returns true if any of the files in the current directory have a single-character name. If the R~ command is given a list as its first argument, then a successful match against any of the elements of that list will cause R~ to return true. For example:






R~ (foo goo zoo) z*

is true.  

LISTS AND VARIABLES

The primary data structure in rc is the list, which is a sequence of words. Parentheses are used to group lists. The empty list is represented by R()R. R() Lists have no hierarchical structure; a list inside another list is expanded so the outer list contains all the elements of the inner list. Thus, the following are all equivalent






Rone two three






R(one two three)






R((one) () ((two three)))

Note that the null string, R''R, R'' and the null list, R()R, R() are two very different things. Assigning the null string to a variable is a valid operation, but it does not remove its definition.






Rnull = '' empty = () echo $#null $#empty

produces the output






R1 0

 

List Concatenation

Two lists may be joined by the concatenation operator R(R^R). R(R^ R( Concatenation works according to the following rules: if the two lists have the same number of elements, then concatenation is pairwise:






Recho (a- b- c-)^(1 2 3)

produces the output






Ra-1 b-2 c-3

Otherwise, at least one of the lists must have a single element, and then the concatenation is distributive:






Rcc -^(O g c) (malloc alloca)^.c

has the effect of performing the command






Rcc -O -g -c malloc.c alloca.c

A single word is a list of length one, so






Recho foo^bar

produces the output






Rfoobar

 

Free Carets

rc inserts carets (concatenation operators) for free in certain situations, in order to save some typing on the user's behalf. For example, the above example could also be typed in as:






Ropts=(O g c) files=(malloc alloca) cc -$opts $files.c

rc takes care to insert a free-caret between the R``R-R'' R``R- R`` and R$optsR, R$opts as well as between R$files and R.cR. R.c The rule for free carets is as follows: if a word or keyword is immediately followed by another word, keyword, dollar-sign or backquote, then rc inserts a caret between them.  

Variables

A list may be assigned to a variable, using the notation:










IvarR = IlistIvarR = 
Ivar


The special variable R* may also be assigned to using this notation; rc has no set builtin.

Any non-empty sequence of characters, except a sequence including only digits, may be used as a variable name. Any character except R= may be used, but special characters must be quoted. All user-defined variables are exported into the environment.

The value of a variable is referenced with the dollar R(R$R) R(R$ R( operator:








R$IvarR$


Any variable which has not been assigned a value returns the null list, R()R, R() when referenced. Multiple references are allowed:






Ra = foo





Rb = a





Recho $ $ b

prints






Rfoo

A variable's definition may also be removed by assigning the null list to a variable:








IvarR=()Ivar


For ``free careting'' to work correctly, rc must make certain assumptions about what characters may appear in a variable name. rc assumes that a variable name consists only of alphanumeric characters, underscore R(R_R) R(R_ R( and star R(R*R). R(R* R( To reference a variable with other characters in its name, quote the variable name. Thus:






Recho $'we$Ird:Variab!le'

 

Local Variables

Any number of variable assignments may be made local to a single command by typing:






Ra=foo b=bar ... command

The command may be a compound command, so for example:






Rpath=. ifs=() {







R    R...R    






R}

sets Rpath to R. and removes Rifs for the duration of one long compound command.  

Variable Subscripts

Variables may be subscripted with the notation










R$var(InR)R$var(In
R$var(


where n is a list of integers (origin 1). The opening parenthesis must immediately follow the variable name. The list of subscripts need not be in order or even unique. Thus,






Ra=(one two three)





Recho $a(3 3 3)

prints






Rthree three three

If n references a nonexistent element, then R$var(InR) R$var(In R$var( returns the null list. The notation R$In, R$ where n is an integer, is a shorthand for R$*(InR). R$*(In R$*( Thus, rc's arguments may be referred to as R$1R, R$1 R$2R, R$2 and so on.

Note also that the list of subscripts may be given by any of rc's list operations:






R$var(`{awk 'BEGIN{for(i=1;i<=10;i++)print i;exit; }'})

returns the first 10 elements of R$varR. R$var

To count the number of elements in a variable, use






R$#var

This returns a single-element list, with the number of elements in R$varR. R$var  

Flat Lists

In order to create a single-element list from a multi-element list, with the components space-separated, use the dollar-caret R(R$^R) R(R$^ R( operator:






R$^var

This is useful when the normal list concatenation rules need to be bypassed. For example, to append a single period at the end of R$pathR, R$path use:






Recho $^path.

 

Backquote Substitution

A list may be formed from the output of a command by using backquote substitution:






R`{ command }

returns a list formed from the standard output of the command in braces. R$ifs is used to split the output into list elements. By default, R$ifs has the value space-tab-newline. The braces may be omitted if the command is a single word. Thus R`ls may be used instead of R`{ls}R. R`{ls} This last feature is useful when defining functions that expand to useful argument lists. A frequent use is:






Rfn src { echo *.[chy] }

followed by






Rwc `src

(This will print out a word-count of all C source files in the current directory.)

In order to override the value of R$ifs for a single backquote substitution, use:






R`` (ifs-list) { command }

R$ifs will be temporarily ignored and the command's output will be split as specified by the list following the double backquote. For example:






R`` ($nl :) {cat /etc/passwd}

splits up R/etc/passwd into fields, assuming that R$nl contains a newline as its value.  

SPECIAL VARIABLES

Several variables are known to rc and are treated specially. In the following list, ``default'' indicates that rc gives the variable a default value on startup; ``no-export'' indicates that the variable is never exported; and ``read-only'' indicates that an attempt to set the variable will silently have no effect.

Also, ``alias'' means that the variable is aliased to the same name in capitals. For example, an assignment to R$cdpath causes an automatic assignment to R$CDPATHR, R$CDPATH and vice-versa. If R$CDPATH is set when rc is started, its value is imported into R$cdpathR. R$cdpath R$cdpath and R$path are rc lists; R$CDPATH and R$PATH are colon-separated lists. Only the names spelt in capitals are exported into the environment.

R*R (no-export) R*
The argument list of rc. R$1, $2, etc. are the same as R$*(1)R, R$*(1) R$*(2)R, R$*(2) etc.
R0R (default no-export) R0
The variable R$0 holds the value of Rargv[0] with which rc was invoked. Additionally, R$0 is set to the name of a function for the duration of the execution of that function, and R$0 is also set to the name of the file being interpreted for the duration of a R. command. R$0 is not an element of R$*R, R$* and is never treated as one.
RapidR (no-export) Rapid
The process ID of the last process started in the background.
RapidsR (no-export read-only) Rapids
A list whose elements are the process IDs of all background processes which are still alive, or which have died and have not been waited for yet.
RbqstatusR (no-export) Rbqstatus
The exit status of the rc forked to execute the most recent backquote substitution. Note that, unlike R$statusR, R$status R$bqstatus is always a single element list (see EXIT STATUS below). For example:






Recho foo |grep bar; whatis status

prints






Rstatus=(0 1)

whereas






Rx=`{echo foo |grep bar}; whatis bqstatus

prints






Rbqstatus=1

RcdpathR (alias) Rcdpath
A list of directories to search for the target of a cd command. The empty string stands for the current directory. Note that if the R$cdpath variable does not contain the current directory, then the current directory will not be searched; this allows directory searching to begin in a directory other than the current directory.
Rhistory
R$history contains the name of a file to which commands are appended as rc reads them. This facilitates the use of a stand-alone history program (such as history(1)) which parses the contents of the history file and presents them to rc for reinterpretation. If R$history is not set, then rc does not append commands to any file.
RhomeR (alias) Rhome
The default directory for the builtin cd command, and the directory in which rc looks to find its initialization file, R.rcrcR, R.rcrc if rc has been started up as a login shell.
RifsR (default) Rifs
The internal field separator, used for splitting up the output of backquote commands for digestion as a list. On startup, rc assigns the list containing the characters space, tab, and newline to R$ifsR. R$ifs
RpathR (alias) Rpath
This is a list of directories to search in for commands. The empty string stands for the current directory. If neither R$PATH nor R$path is set at startup time, R$path assumes a default value suitable for your system. This is typically R(/usr/local/bin /usr/bin /usr/ucb /bin .)
RpidR (default no-export) Rpid
On startup, R$pid is initialized to the numeric process ID of the currently running rc.
RpromptR (default) Rprompt
This variable holds the two prompts (in list form, of course) that rc prints. R$prompt(1) is printed before each command is read, and R$prompt(2) is printed when input is expected to continue on the next line. rc sets R$prompt to R('; ' '') by default. The reason for this is that it enables an rc user to grab commands from previous lines using a mouse, and to present them to rc for re-interpretation; the semicolon prompt is simply ignored by rc. The null R$prompt(2) also has its justification: an rc script, when typed interactively, will not leave R$prompt(2)R's R$prompt(2) on the screen, and can therefore be grabbed by a mouse and placed directly into a file for use as a shell script, without further editing being necessary.
RpromptR (function) Rprompt
If this function is defined, then it gets executed every time rc is about to print R$prompt(1)R. R$prompt(1)
RstatusR (no-export read-only) Rstatus
The exit status of the last command. If the command exited with a numeric value, that number is the status. If the command died with a signal, the status is the name of that signal; if a core file was created, the string R``R+coreR'' R``R+core R`` is appended. The value of R$status for a pipeline is a list, with one entry, as above, for each process in the pipeline. For example, the command






Rls | wc

usually sets R$status to R(0 0)R. R(0 0)
RversionR (default) Rversion
On startup, the first element of this list variable is initialized to a string which identifies this version of rc. The second element is initialized to a string which can be found by ident(1) and the what command of sccs(1).
 

FUNCTIONS

rc functions are identical to rc scripts, except that they are stored in memory and are automatically exported into the environment. A shell function is declared as:






Rfn name { commands }

rc scans the definition until the close-brace, so the function can span more than one line. The function definition may be removed by typing






Rfn name

(One or more names may be specified. With an accompanying definition, all names receive the same definition. This is sometimes useful for assigning the same signal handler to many signals. Without a definition, all named functions are deleted.) When a function is executed, R$* is set to the arguments to that function for the duration of the command. Thus a reasonable definition for RlR, Rl a shorthand for ls(1), could be:






Rfn l { ls -FC $* }

but not






Rfn l { ls -FC } # WRONG

 

INTERRUPTS AND SIGNALS

rc recognizes a number of signals, and allows the user to define shell functions which act as signal handlers. rc by default traps RSIGINT when it is in interactive mode. RSIGQUIT and RSIGTERM are ignored, unless rc has been invoked with the R-d flag. However, user-defined signal handlers may be written for these and all other signals. The way to define a signal handler is to write a function by the name of the signal in lower case. Thus:






Rfn sighup { echo hangup; rm /tmp/rc$pid.*; exit }

In addition to Unix signals, rc recognizes the artificial signal RSIGEXIT which occurs as rc is about to exit.

In order to remove a signal handler's definition, remove it as though it were a regular function. For example:






Rfn sigint

returns the handler of RSIGINT to the default value. In order to ignore a signal, set the signal handler's value to R{}R. R{} Thus:






Rfn sigint {}

causes RSIGINT to be ignored by the shell. Only signals that are being ignored are passed on to programs run by rc; signal functions are not exported.

On System V-based Unix systems, rc will not allow you to trap RSIGCLDR. RSIGCLD  

BUILTIN COMMANDS

Builtin commands execute in the context of the shell, but otherwise behave exactly like other commands. Although !, ~ and @ are not strictly speaking builtin commands, they can usually be used as such.
. [-i] file [arg ...]
Reads file as input to rc and executes its contents. With a R-i flag, input is interactive. Thus from within a shell script,






R. -i /dev/tty

does the ``right thing''.
break
Breaks from the innermost Rfor or RwhileR, Rwhile as in C. It is an error to invoke break outside of a loop. (Note that there is no break keyword between commands in Rswitch statements, unlike C.)
builtin command [arg ...]
Executes the command ignoring any function definition of the same name. This command is present to allow functions with the same names as builtins to use the underlying builtin or binary. For example:






Rfn ls { builtin ls -FC $* }

is a reasonable way to pass a default set of arguments to RlsR(1), Rls whereas






Rfn ls { ls -FC $* } # WRONG

is a non-terminating recursion, which will cause Rrc to exhaust its stack space and (eventually) terminate if it is executed.
cd [directory]
Changes the current directory to directory. The variable R$cdpath is searched for possible locations of directory, analogous to the searching of R$path for executable files. With no argument, cd changes the current directory to R$homeR. R$home
echo [-n] [--] [arg ...]
Prints its arguments to standard output, terminated by a newline. Arguments are separated by spaces. If the first argument is R-n no final newline is printed. If the first argument is R--R, R-- then all other arguments are echoed literally. This is used for echoing a literal R-nR. R-n
eval [list]
Concatenates the elements of list with spaces and feeds the resulting string to rc for re-scanning. This is the only time input is rescanned in rc.
exec [arg ...]
Replaces rc with the given command. If the exec contains only redirections, then these redirections apply to the current shell and the shell does not exit. For example,






Rexec >[2] err.out

places further output to standard error in the file err.out.
exit [status]
Cause the current shell to exit with the given exit status. If no argument is given, the current value of R$status is used.
limit [-h] [resource [value]]
Similar to the csh(1) limit builtin, this command operates upon the BSD-style resource limits of a process. The R-h flag displays/alters the hard limits. The resources which can be shown or altered are cputime, filesize, datasize, stacksize, coredumpsize, memoryuse, and, where supported, descriptors, memoryuse, memoryrss, maxproc, memorylocked, and filelocks. For example:






Rlimit coredumpsize 0

disables core dumps. To set a soft limit equal to the hard limit:






Rlimit `{limit -h datasize}

newpgrp
Puts rc into a new process group. This builtin is useful for making rc behave like a job-control shell in a hostile environment. One example is the NeXT Terminal program, which implicitly assumes that each shell it forks will put itself into a new process group.
return [n]
Returns from the current function, with status n, where n is a valid exit status, or a list of them. Thus it is legal to have






Rreturn (sigpipe 1 2 3)

(This is commonly used to allow a function to return with the exit status of a previously executed pipeline of commands.) If n is omitted, then R$status is left unchanged. It is an error to invoke return when not inside a function.
shift [n]
Deletes n elements from the beginning of R$* and shifts the other elements down by n. n defaults to 1.
umask [mask]
Sets the current umask (see umask(2)) to the octal mask. If no argument is present, the current mask value is printed.
wait [pid]
Waits for process with the specified pid, which must have been started by rc, to exit. If no pid is specified, rc waits for all its child processes to exit.
whatis [-b] [-f] [-p] [-s] [-v] [--] [name ...]
Prints a definition of the named objects. For builtins, Rbuiltin foo is printed; for functions, including signal handlers, their definitions are printed; for executable files, path names are printed; and for variables, their values are printed. The flags restrict output to builtins, functions, executable programs, signal handlers, and variables, respectively. If no names are specified, rc lists all objects of that type. (This is not permitted for R-pR.) R-p Without arguments, Rwhatis is equivalent to Rwhatis -fvR, Rwhatis -fv and prints the values of all shell variables and functions.
Note that whatis output is suitable for input to rc; by saving the output of whatis in a file, it should be possible to recreate the state of rc by sourcing this file with a R. command. Another note: Rwhatis -s > file cannot be used to store the state of rc's signal handlers in a file, because builtins with redirections are run in a subshell, and rc always restores signal handlers to their default value after a Rfork()R. Rfork()
Since whatis uses getopt(3) to parse its arguments, you can use the special argument R-- to terminate its flags. This allows you to use names beginning with a dash, such as the history(1) commands. For example,






Rwhatis -- -p

 

EXAMPLES

The shift builtin only shifts R$*R. R$* This function can shift any variable (except R$lshiftR). R$lshift






Rfn lshift { lshift=$*; *=$$1; shift $lshift(2); $lshift(1)=$* }

With this definition in place,






Rwalrus = (shoes ships sealing-wax cabbages kings)





Rlshift walrus 3





Rwhatis walrus

prints






Rwalrus=(cabbages kings)

The R$^var operator flattens a list by separating each element with a space. This function allows the separator to be an arbitrary string.






Rfn lflat {





R  lflat=$*; *=$$1





R  while () {





R    echo -n $1; shift





R    ~ $#* 0 && break





R    echo -n $lflat(2)





R}

With this definition in place,






Rhops=(uunet mcvax ukc tlg)





Rlflat hops !

prints (with no final newline)






Ruunet!mcvax!ukc!tlg

 

EXIT STATUS

The exit status of rc is normally the same as that of the last command executed. If the last command was a pipeline, rc exits R0 if every command in the pipeline did; otherwise it exits R1R. R1

rc can be made to exit with a particular status using the exit builtin.  

GRAMMAR

Here is rc's grammar, edited to remove semantic actions.

R%term ANDAND BACKBACK BANG CASE COUNT DUP ELSE END FLAT FN FOR IF IN
%term OROR PIPE REDIR SUB SUBSHELL SWITCH TWIDDLE WHILE WORD HUH

%left WHILE ')' ELSE
%left ANDAND OROR '\n'
%left BANG SUBSHELL
%left PIPE
%right '$'
%left SUB

%start rc

%%

rc: line end
        | error end

end: END /* EOF */ | '\n'

cmdsa: cmd ';' | cmd '&'

line: cmd | cmdsa line

body: cmd | cmdsan body

cmdsan: cmdsa | cmd '\n'

brace: '{' body '}'

paren: '(' body ')'

assign: first '=' word

epilog: /* empty */ | redir epilog

redir: DUP | REDIR word

case: CASE words ';' | CASE words '\n'

cbody: cmd | case cbody | cmdsan cbody

iftail: cmd     %prec ELSE
        | brace ELSE optnl cmd

cmd     : /* empty */   %prec WHILE
        | simple
        | brace epilog
        | IF paren optnl iftail
        | FOR '(' word IN words ')' optnl cmd
        | FOR '(' word ')' optnl cmd
        | WHILE paren optnl cmd 
        | SWITCH '(' word ')' optnl '{' cbody '}'
        | TWIDDLE optcaret word words
        | cmd ANDAND optnl cmd
        | cmd OROR optnl cmd
        | cmd PIPE optnl cmd
        | redir cmd     %prec BANG
        | assign cmd    %prec BANG
        | BANG optcaret cmd
        | SUBSHELL optcaret cmd
        | FN words brace
        | FN words

optcaret: /* empty */ | '^'

simple: first | simple word | simple redir

first: comword | first '^' sword

sword: comword | keyword

word: sword | word '^' sword

comword: '$' sword
        | '$' sword SUB words ')'
        | COUNT sword
        | FLAT sword
        | '`' sword
        | '`' brace
        | BACKBACK word brace | BACKBACK word sword
        | '(' words ')'
        | REDIR brace
        | WORD

keyword: FOR | IN | WHILE | IF | SWITCH
        | FN | ELSE | CASE | TWIDDLE | BANG | SUBSHELL

words: /* empty */ | words word

optnl: /* empty */ | optnl '\n'

 

FILES

R$HOME/.rcrcR, R$HOME/.rcrc R/tmp/rc*R, R/tmp/rc* R/dev/null  

CREDITS

rc was written by Byron Rakitzis, with valuable help from Paul Haahr, Hugh Redelmeier and David Sanderson. The design of this shell was copied from the rc that Tom Duff wrote at Bell Labs.  

BUGS

There is a compile-time limit on the number of R; separated commands in a line: usually 500. This is sometimes a problem for automatically generated scripts: substituting the newline character for R; avoids the limit.

On modern systems that support R/dev/fd or R/proc/self/fdR, R/proc/self/fd R<{foo} style redirection is implemented that way. However, on older systems it is implemented with named pipes. Allegedly, it is sometimes possible to foil rc into removing the FIFO it places in R/tmp prematurely, or it is even possible to cause rc to hang. (The current maintainer has never seen this, but then he doesn't use systems which lack R/dev/fd any more. If anybody can reproduce this problem, please let the maintainer know.)

The echo command does not need to be a builtin. It is one for reasons of performance and portability (of rc scripts).

There should be a way to avoid exporting a variable.

Extra parentheses around a R~ expression or a R! expression are a syntax error. Thus, this code is illegal.






Rwhile ((~ $1 -*) && (! ~ $1 --)) { ...

The redundant inner parentheses must be omitted.

Variable subscripting cannot be used in here documents.

The Rlimit builtin silently ignores extra arguments.

Bug reports should be mailed to R<tjg@star.le.ac.uk>R. R<tjg@star.le.ac.uk>  

INCOMPATIBILITIES

Here is a list of features which distinguish this incarnation of rc from the one described in the Bell Labs manual pages:

The Tenth Edition rc does not have the else keyword. Instead, if is optionally followed by an if not clause which is executed if the preceding if test does not succeed.

Backquotes are slightly different in Tenth Edition rc: a backquote must always be followed by a left-brace. This restriction is not present for single-word commands in this rc.

For R. file, the Tenth Edition rc searches R$path for file. This rc does not, since it is not considered useful.

The list flattening operator, R$^fooR, R$^foo is spelt R$"foo in those versions of the Bell Labs rc which have it.

The following are all new with this version of rc: The R-n flag, here strings (they facilitate exporting of functions with here documents into the environment), the return and break keywords, the echo builtin, the Rbqstatus and Rversion variables, the support for the GNU readline(3) library, and the support for the Rprompt function. This rc also sets R$0 to the name of a function being executed/file being sourced.  

SEE ALSO

``rc --- A Shell for Plan 9 and UNIX Systems'', Unix Research System, Tenth Edition, Volume 2. (Saunders College Publishing)

Rhttp://www.star.le.ac.uk/~tjg/rc/misc/tdR, Rhttp://www.star.le.ac.uk/~tjg/rc/misc/td an updated version of the above paper.

history(1)


 

Index

NAME
SYNOPSIS
DESCRIPTION
OPTIONS
COMMANDS
Background Tasks
Subshells
Line continuation
Quoting
Grouping
Input and output
Pipes
Commands as Arguments
CONTROL STRUCTURES
If-Else Statements
While and For Loops
Switch
Logical Operators
PATTERN MATCHING
LISTS AND VARIABLES
List Concatenation
Free Carets
Variables
Local Variables
Variable Subscripts
Flat Lists
Backquote Substitution
SPECIAL VARIABLES
FUNCTIONS
INTERRUPTS AND SIGNALS
BUILTIN COMMANDS
EXAMPLES
EXIT STATUS
GRAMMAR
FILES
CREDITS
BUGS
INCOMPATIBILITIES
SEE ALSO

This document was created by man2html, using the manual pages.
Time: 21:25:22 GMT, April 16, 2011