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KSH(1)				 User commands				KSH(1)

NAME
       ksh - Public domain Korn	shell

SYNOPSIS
       ksh [+-abCefhikmnprsuvxX] [+-o option] [	[ -c command-string [command-
       name] | -s | file ] [argument ...] ]

DESCRIPTION
       ksh  is a command interpreter that is intended for both interactive and
       shell script use.  Its command language is  a  superset	of  the	 sh(1)
       shell language.

   Shell Startup
       The following options can be specified only on the command line:

       -c command-string
	      the shell	executes the command(s)	contained in command-string

       -i     interactive mode -- see below

       -l     login shell -- see below interactive mode	-- see below

       -s     the shell	reads commands from standard input; all	non-option ar-
	      guments are positional parameters

       -r     restricted mode -- see below

       In  addition  to	 the  above, the options described in the set built-in
       command can also	be used	on the command line.

       If neither the -c nor the -s options are	specified, the	first  non-op-
       tion  argument  specifies  the  name of a file the shell	reads commands
       from; if	there are no non-option	arguments, the	shell  reads  commands
       from  standard input.  The name of the shell (i.e., the contents	of the
       $0) parameter is	determined as follows: if the -c option	 is  used  and
       there is	a non-option argument, it is used as the name; if commands are
       being  read  from  a  file, the file is used as the name; otherwise the
       name the	shell was called with (i.e., argv[0]) is used.

       A shell is interactive if the -i	option is used or if both standard in-
       put and standard	error are attached to a	tty.  An interactive shell has
       job control enabled (if available), ignores the INT, QUIT and TERM sig-
       nals, and prints	prompts	before reading input (see PS1 and PS2  parame-
       ters).	For  non-interactive  shells, the trackall option is on	by de-
       fault (see set command below).

       A shell is restricted if	the -r option is used or if either  the	 base-
       name of the name	the shell is invoked with or the SHELL parameter match
       the  pattern  *r*sh (e.g., rsh, rksh, rpdksh, etc.).  The following re-
       strictions come into effect after the shell processes any  profile  and
       $ENV files:
	 •    the cd command is	disabled
	 •    the SHELL, ENV and PATH parameters can't be changed
	 •    command names can't be specified with absolute or	relative paths
	 •    the -p option of the command built-in can't be used
	 •    redirections  that  create files can't be	used (i.e., >, >|, >>,
	      <>)

       A shell is privileged if	the -p option is used or if the	 real  user-id
       or  group-id  does not match the	effective user-id or group-id (see ge-
       tuid(2),	getgid(2)).  A privileged shell	does not  process  $HOME/.pro-
       file nor	the ENV	parameter (see below), instead the file	/etc/suid_pro-
       file  is	processed.  Clearing the privileged option causes the shell to
       set its effective user-id (group-id) to its real	user-id	(group-id).

       If the basename of the name the shell is	called	with  (i.e.,  argv[0])
       starts with - or	if the -l option is used, the shell is assumed to be a
       login  shell and	the shell reads	and executes the contents of /etc/pro-
       file and	$HOME/.profile if they exist and are readable.

       If the ENV parameter is set when	the shell starts (or, in the  case  of
       login shells, after any profiles	are processed),	its value is subjected
       to  parameter,  command,	 arithmetic and	tilde substitution and the re-
       sulting file (if	any) is	read and executed.  If ENV  parameter  is  not
       set  (and  not  null) and pdksh was compiled with the DEFAULT_ENV macro
       defined,	the file named in that macro is	included (after	the above men-
       tioned substitutions have been performed).

       The exit	status of the shell is 127 if the command  file	 specified  on
       the command line	could not be opened, or	non-zero if a fatal syntax er-
       ror occurred during the execution of a script.  In the absence of fatal
       errors,	the exit status	is that	of the last command executed, or zero,
       if no command is	executed.

   Command Syntax
       The shell begins	parsing	its input by breaking it into  words.	Words,
       which  are  sequences  of  characters, are delimited by unquoted	white-
       space characters	(space,	tab and	newline) or meta-characters (<,	>,  |,
       ;,  &,  ( and )).  Aside	from delimiting	words, spaces and tabs are ig-
       nored, while newlines usually delimit  commands.	  The  meta-characters
       are  used  in building the following tokens: <, <&, <<, >, >&, >>, etc.
       are used	to specify redirections	(see Input/Output Redirection  below);
       |  is  used to create pipelines;	|& is used to create co-processes (see
       Co-Processes below); ; is used to separate commands; & is used to  cre-
       ate  asynchronous  pipelines; &&	and || are used	to specify conditional
       execution; ;; is	used in	case statements; (( .. )) are used  in	arith-
       metic expressions; and lastly, (	.. ) are used to create	subshells.

       White-space  and	meta-characters	can be quoted individually using back-
       slash (\), or in	groups using double (")	or single  (')	quotes.	  Note
       that  the  following characters are also	treated	specially by the shell
       and must	be quoted if they are to represent themselves: \, ", ',	#,  $,
       `,  ~,  {,  }, *, ? and [.  The first three of these are	the above men-
       tioned quoting characters (see Quoting below); #, if used at the	begin-
       ning of a word, introduces a comment -- everything after	the  #	up  to
       the  nearest newline is ignored;	$ is used to introduce parameter, com-
       mand and	arithmetic substitutions (see Substitution  below);  `	intro-
       duces an	old-style command substitution (see Substitution below); ~ be-
       gins a directory	expansion (see Tilde Expansion below); { and } delimit
       csh(1) style alternations (see Brace Expansion below); and, finally, *,
       ?  and  [  are used in file name	generation (see	File Name Patterns be-
       low).

       As words	and tokens are parsed, the shell  builds  commands,  of	 which
       there are two basic types: simple-commands, typically programs that are
       executed,  and compound-commands, such as for and if statements,	group-
       ing constructs and function definitions.

       A simple-command	consists of some combination of	parameter  assignments
       (see  Parameters	 below),  input/output	redirections (see Input/Output
       Redirections below), and	command	words; the only	 restriction  is  that
       parameter  assignments  come  before  any  command  words.  The command
       words, if any, define the command that is to be executed	and its	 argu-
       ments.	The  command may be a shell built-in command, a	function or an
       external	command, i.e., a separate executable file that is located  us-
       ing  the	 PATH  parameter (see Command Execution	below).	 Note that all
       command constructs have an exit status: for external commands, this  is
       related	to the status returned by wait(2) (if the command could	not be
       found, the exit status is 127, if it could not be  executed,  the  exit
       status  is  126); the exit status of other command constructs (built-in
       commands, functions, compound-commands, pipelines, lists, etc.) are all
       well defined and	are described where the	construct is  described.   The
       exit  status  of	 a command consisting only of parameter	assignments is
       that of the last	command	substitution performed	during	the  parameter
       assignment or zero if there were	no command substitutions.

       Commands	 can  be chained together using	the | token to form pipelines,
       in which	the standard output of each command but	the last is piped (see
       pipe(2))	to the standard	input of the following command.	 The exit sta-
       tus of a	pipeline is that of its	last command.  A pipeline may be  pre-
       fixed  by  the  !  reserved  word  which	 causes	the exit status	of the
       pipeline	to be logically	complemented: if the original status was 0 the
       complemented status will	be 1, and if the original status  was  not  0,
       then the	complemented status will be 0.

       Lists  of commands can be created by separating pipelines by any	of the
       following tokens: &&, ||, &, |& and ;.  The first two  are  for	condi-
       tional execution: cmd1 && cmd2 executes cmd2 only if the	exit status of
       cmd1  is	 zero; || is the opposite -- cmd2 is executed only if the exit
       status of cmd1 is non-zero.  && and || have equal precedence  which  is
       higher than that	of &, |& and ;,	which also have	equal precedence.  The
       &  token	 causes	 the  preceding	command	to be executed asynchronously,
       that is,	the shell starts the command, but does not wait	for it to com-
       plete (the shell	does keep track	of the status of asynchronous commands
       -- see Job Control below).  When	an  asynchronous  command  is  started
       when  job  control  is disabled (i.e., in most scripts),	the command is
       started with signals INT	and QUIT ignored  and  with  input  redirected
       from  /dev/null	(however,  redirections	 specified in the asynchronous
       command have precedence).  The |& operator starts a co-process which is
       special kind of asynchronous process (see  Co-Processes	below).	  Note
       that  a	command	 must  follow the && and || operators, while a command
       need not	follow &, |& and ;.  The exit status of	a list is that of  the
       last  command  executed,	 with the exception of asynchronous lists, for
       which the exit status is	0.

       Compound	commands are created using the	following  reserved  words  --
       these  words  are  only recognized if they are unquoted and if they are
       used as the first word of a command (i.e., they can't  be  preceded  by
       parameter assignments or	redirections):
			 case	else   function	  then	  !
			 do	esac   if	  time	  [[
			 done	fi     in	  until	  {
			 elif	for    select	  while	  }
       Note: Some shells (but not this one) execute control structure commands
       in  a  subshell	when  one  or more of their file descriptors are redi-
       rected, so any  environment  changes  inside  them  may	fail.	To  be
       portable,  the  exec  statement should be used instead to redirect file
       descriptors before the control structure.

       In the following	compound command descriptions, command lists  (denoted
       as  list)  that	are  followed  by reserved words must end with a semi-
       colon, a	newline	or a (syntactically correct) reserved word.  For exam-
       ple,
	      {	echo foo; echo bar; }
	      {	echo foo; echo bar<newline>}
	      {	{ echo foo; echo bar; }	}
       are all valid, but
	      {	echo foo; echo bar }
       is not.

       ( list )
	      Execute list in a	subshell.  There is no implicit	 way  to  pass
	      environment changes from a subshell back to its parent.

       { list }
	      Compound	construct;  list  is  executed,	but not	in a subshell.
	      Note that	{ and }	are reserved words, not	meta-characters.

       case word in [ [(] pattern [| pattern] ... ) list ;; ] ... esac
	      The case statement attempts to match word	against	the  specified
	      patterns;	 the  list  associated	with  the  first  successfully
	      matched pattern is executed.  Patterns used in  case  statements
	      are  the	same  as those used for	file name patterns except that
	      the restrictions regarding . and / are dropped.  Note  that  any
	      unquoted space before and	after a	pattern	is stripped; any space
	      with  a  pattern must be quoted.	Both the word and the patterns
	      are subject to parameter,	command, and  arithmetic  substitution
	      as well as tilde substitution.  For historical reasons, open and
	      close braces may be used instead of in and esac (e.g., case $foo
	      {	 *) echo bar; }).  The exit status of a	case statement is that
	      of the executed list; if no list is executed, the	exit status is
	      zero.

       for name	[ in word ... term ] do	list done
	      where term is either a newline or	a ;.  For  each	 word  in  the
	      specified	 word  list, the parameter name	is set to the word and
	      list is executed.	 If in is not used to specify a	word list, the
	      positional parameters ("$1", "$2", etc.) are used	instead.   For
	      historical reasons, open and close braces	may be used instead of
	      do  and  done (e.g., for i; { echo $i; }).  The exit status of a
	      for statement is the last	exit status of list; if	list is	 never
	      executed,	the exit status	is zero.

       if list then list [elif list then list] ... [else list] fi
	      If the exit status of the	first list is zero, the	second list is
	      executed;	otherwise the list following the elif, if any, is exe-
	      cuted with similar consequences.	If all the lists following the
	      if  and  elifs  fail (i.e., exit with non-zero status), the list
	      following	the else is executed.  The exit	status of an if	state-
	      ment is that of non-conditional list that	 is  executed;	if  no
	      non-conditional list is executed,	the exit status	is zero.

       select name [ in	word ... term ]	do list	done
	      where  term  is  either  a newline or a ;.  The select statement
	      provides an automatic method of presenting the user with a  menu
	      and  selecting  from  it.	  An  enumerated list of the specified
	      words is printed on standard error, followed by a	 prompt	 (PS3,
	      normally	`#?  ').  A number corresponding to one	of the enumer-
	      ated words is then read from standard input, name	is set to  the
	      selected word (or	is unset if the	selection is not valid), REPLY
	      is  set  to  what	was read (leading/trailing space is stripped),
	      and list is executed.  If	a blank	line (i.e., zero or  more  IFS
	      characters) is entered, the menu is re-printed without executing
	      list.   When  list  completes, the enumerated list is printed if
	      REPLY is null, the prompt	is printed and so on.  This process is
	      continues	until an end-of-file is	read, an interrupt is received
	      or a break statement is executed inside the loop.	  If  in  word
	      ...  is omitted, the positional parameters are used (i.e., "$1",
	      "$2", etc.).  For	historical reasons, open and close braces  may
	      be  used	instead	of do and done (e.g., select i;	{ echo $i; }).
	      The exit status of a select statement is zero if a break	state-
	      ment is used to exit the loop, non-zero otherwise.

       until list do list done
	      This  works  like	 while,	 except	that the body is executed only
	      while the	exit status of the first list is non-zero.

       while list do list done
	      A	while is a prechecked loop.  Its body is executed as often  as
	      the exit status of the first list	is zero.  The exit status of a
	      while  statement is the last exit	status of the list in the body
	      of the loop; if the body is not executed,	 the  exit  status  is
	      zero.

       function	name { list }
	      Defines  the  function  name.   See  Functions below.  Note that
	      redirections specified after a function definition are performed
	      whenever the function is executed, not when the function defini-
	      tion is executed.

       name () command
	      Mostly the same as function.  See	Functions below.

       time [ -p ] [ pipeline ]
	      The time reserved	word is	described  in  the  Command  Execution
	      section.

       (( expression ))
	      The arithmetic expression	expression is evaluated; equivalent to
	      let  "expression".   See Arithmetic Expressions and the let com-
	      mand below.

       [[ expression ]]
	      Similar to the test and [	... ] commands (described later), with
	      the following exceptions:
		•    Field splitting and file name  generation	are  not  per-
		     formed on arguments.
		•    The  -a  (and) and	-o (or)	operators are replaced with &&
		     and ||, respectively.
		•    Operators (e.g., -f, =, !,	etc.) must be unquoted.
		•    The second	operand	of != and = expressions	 are  patterns
		     (e.g., the	comparison in
					[[ foobar = f*r	]]
		     succeeds).
		•    There  are	two additional binary operators: < and > which
		     return true if their first	string operand is  less	 than,
		     or	 greater  than,	 their	second string operand, respec-
		     tively.
		•    The single	argument form of test, which tests if the  ar-
		     gument has	non-zero length, is not	valid -	explicit oper-
		     ators must	be always be used, e.g., instead of
					      [	str ]
		     use
					   [[ -n str ]]
		•    Parameter,	 command and arithmetic	substitutions are per-
		     formed as expressions are evaluated and  lazy  expression
		     evaluation	 is  used  for	the && and || operators.  This
		     means that	in the statement
				  [[ -r	foo && $(< foo)	= b*r ]]
		     the $(< foo) is evaluated if and only if the file foo ex-
		     ists and is readable.

   Quoting
       Quoting is used to prevent the shell from treating characters or	 words
       specially.   There  are	three  methods of quoting: First, \ quotes the
       following character, unless it is at the	end of a line, in  which  case
       both  the  \  and the newline are stripped.  Second, a single quote (')
       quotes everything up to the next	single quote (this  may	 span  lines).
       Third,  a double	quote (") quotes all characters, except	$, ` and \, up
       to the next unquoted double quote.  $ and ` inside double  quotes  have
       their  usual  meaning (i.e., parameter, command or arithmetic substitu-
       tion) except no field splitting is carried out on the results  of  dou-
       ble-quoted substitutions.  If a \ inside	a double-quoted	string is fol-
       lowed by	\, $, `	or ", it is replaced by	the second character; if it is
       followed	 by a newline, both the	\ and the newline are stripped;	other-
       wise, both the \	and the	character following are	unchanged.

       Note: see POSIX Mode below for a	special	rule  regarding	 sequences  of
       the form	"...`...\"...`..".

   Aliases
       There  are  two	types  of  aliases: normal command aliases and tracked
       aliases.	 Command aliases are normally used as a	short hand for a  long
       or  often  used command.	 The shell expands command aliases (i.e., sub-
       stitutes	the alias name for its value) when it reads the	first word  of
       a  command.   An	 expanded  alias  is  re-processed  to	check for more
       aliases.	 If a command alias ends in a space or tab, the	following word
       is also checked for alias expansion.  The alias expansion process stops
       when a word that	is not an alias	is found, when a quoted	word is	 found
       or when an alias	word that is currently being expanded is found.

       The following command aliases are defined automatically by the shell:
	      autoload='typeset	-fu'
	      functions='typeset -f'
	      hash='alias -t'
	      history='fc -l'
	      integer='typeset -i'
	      local='typeset'
	      login='exec login'
	      newgrp='exec newgrp'
	      nohup='nohup '
	      r='fc -e -'
	      stop='kill -STOP'
	      suspend='kill -STOP $$'
	      type='whence -v'

       Tracked aliases allow the shell to remember where it found a particular
       command.	  The  first  time  the	shell does a path search for a command
       that is marked as a tracked alias, it saves the full path of  the  com-
       mand.   The  next  time	the  command is	executed, the shell checks the
       saved path to see that it is still valid, and if	so,  avoids  repeating
       the path	search.	 Tracked aliases can be	listed and created using alias
       -t.   Note  that	changing the PATH parameter clears the saved paths for
       all tracked aliases.  If	the trackall  option  is  set  (i.e.,  set  -o
       trackall	or set -h), the	shell tracks all commands.  This option	is set
       automatically for non-interactive shells.  For interactive shells, only
       the  following  commands	are automatically tracked: cat,	cc, chmod, cp,
       date, ed, emacs,	grep, ls, mail,	make, mv, pr, rm, sed, sh, vi and who.

   Substitution
       The first step the shell	takes in executing a simple-command is to per-
       form substitutions on the words of the command.	There are three	 kinds
       of  substitution: parameter, command and	arithmetic.  Parameter substi-
       tutions,	which are described in detail in the next  section,  take  the
       form $name or ${...}; command substitutions take	the form $(command) or
       `command`; and arithmetic substitutions take the	form $((expression)).

       If  a substitution appears outside of double quotes, the	results	of the
       substitution are	generally subject to word or field splitting according
       to the current value of the IFS parameter.  The IFS parameter specifies
       a list of characters which are used to break a string up	 into  several
       words;  any  characters from the	set space, tab and newline that	appear
       in the IFS characters are called	IFS white space.  Sequences of one  or
       more  IFS  white	space characters, in combination with zero or one non-
       IFS white space characters delimit a field.  As a special case, leading
       and trailing IFS	white space is stripped	(i.e., no leading or  trailing
       empty  field is created by it); leading or trailing non-IFS white space
       does create an empty field.  Example: if	IFS is set to `<space>:',  the
       sequence	 of  characters	 `<space>A<space>:<space><space>B::D' contains
       four fields: `A', `B', `' and `D'.  Note	that if	the IFS	 parameter  is
       set to the null string, no field	splitting is done; if the parameter is
       unset, the default value	of space, tab and newline is used.

       The  results of substitution are, unless	otherwise specified, also sub-
       ject to brace expansion and file	name expansion (see the	relevant  sec-
       tions below).

       A command substitution is replaced by the output	generated by the spec-
       ified  command,	which  is run in a subshell.  For $(command) substitu-
       tions, normal quoting rules are used when command is  parsed,  however,
       for the `command` form, a \ followed by any of $, ` or \	is stripped (a
       \  followed by any other	character is unchanged).  As a special case in
       command substitutions, a	command	of the form < file is  interpreted  to
       mean  substitute	 the contents of file ($(< foo)	has the	same effect as
       $(cat foo), but it is carried out more efficiently because  no  process
       is started).
       NOTE: $(command)	expressions are	currently parsed by finding the	match-
       ing  parenthesis,  regardless of	quoting.  This will hopefully be fixed
       soon.

       Arithmetic substitutions	are replaced by	the value of the specified ex-
       pression.  For example, the command echo	 $((2+3*4))  prints  14.   See
       Arithmetic Expressions for a description	of an expression.

   Parameters
       Parameters  are	shell variables; they can be assigned values and their
       values can be accessed using a  parameter  substitution.	  A  parameter
       name is either one of the special single	punctuation or digit character
       parameters  described  below, or	a letter followed by zero or more let-
       ters or digits (`_' counts as a letter).	 The later form	can be treated
       as arrays by appending an array index of	the form: [expr] where expr is
       an arithmetic expression.  Array	indicies are currently limited to  the
       range 0 through 1023, inclusive.	 Parameter substitutions take the form
       $name,  ${name}	or  ${name[expr]}, where name is a parameter name.  If
       substitution is performed on a parameter	(or an	array  parameter  ele-
       ment)  that is not set, a null string is	substituted unless the nounset
       option (set -o nounset or set -u) is set, in which case	an  error  oc-
       curs.

       Parameters  can	be  assigned  values  in a number of ways.  First, the
       shell implicitly	sets some parameters like #, PWD, etc.;	 this  is  the
       only  way the special single character parameters are set.  Second, pa-
       rameters	are imported from the shell's environment at startup.	Third,
       parameters  can	be  assigned  values on	the command line, for example,
       `FOO=bar' sets the parameter FOO	to bar;	multiple parameter assignments
       can be given on a single	command	line and they can  be  followed	 by  a
       simple-command,	in  which  case	the assignments	are in effect only for
       the duration of the command (such assignments are  also	exported,  see
       below for implications of this).	 Note that both	the parameter name and
       the  =  must be unquoted	for the	shell to recognize a parameter assign-
       ment.  The fourth way of	setting	a parameter is with the	export,	 read-
       only and	typeset	commands; see their descriptions in the	Command	Execu-
       tion  section.	Fifth,	for and	select loops set parameters as well as
       the getopts, read and set -A commands.  Lastly, parameters can  be  as-
       signed  values using assignment operators inside	arithmetic expressions
       (see Arithmetic Expressions below) or using the ${name=value}  form  of
       parameter substitution (see below).

       Parameters  with	 the export attribute (set using the export or typeset
       -x commands, or by parameter assignments	followed by  simple  commands)
       are  put	 in  the  environment  (see environ(5))	of commands run	by the
       shell as	name=value pairs.  The order in	which parameters appear	in the
       environment of a	command	is unspecified.	 When the shell	starts up,  it
       extracts	parameters and their values from its environment and automati-
       cally sets the export attribute for those parameters.

       Modifiers can be	applied	to the ${name} form of parameter substitution:

       ${name:-word}
	      if  name	is set and not null, it	is substituted,	otherwise word
	      is substituted.

       ${name:+word}
	      if name is set and not  null,  word  is  substituted,  otherwise
	      nothing is substituted.

       ${name:=word}
	      if  name is set and not null, it is substituted, otherwise it is
	      assigned word and	the resulting value of name is substituted.

       ${name:?word}
	      if name is set and not null, it is substituted,  otherwise  word
	      is  printed  on  standard	error (preceded	by name:) and an error
	      occurs (normally causing termination of a	shell script, function
	      or .-script).  If	word is	omitted	the string `parameter null  or
	      not set' is used instead.

       In  the above modifiers,	the : can be omitted, in which case the	condi-
       tions only depend on name being set (as opposed to set and  not	null).
       If  word	 is needed, parameter, command,	arithmetic and tilde substitu-
       tion are	performed on it; if word is not	needed,	it is not evaluated.

       The following forms of parameter	substitution can also be used:

       ${#name}
	      The number of positional parameters if name is *,	@  or  is  not
	      specified, or the	length of the string value of parameter	name.

       ${#name[*]}, ${#name[@]}
	      The number of elements in	the array name.

       ${name#pattern},	${name##pattern}
	      If pattern matches the beginning of the value of parameter name,
	      the  matched text	is deleted from	the result of substitution.  A
	      single # results in the shortest match, two #'s results  in  the
	      longest match.

       ${name%pattern},	${name%%pattern}
	      Like  ${..#..}  substitution, but	it deletes from	the end	of the
	      value.

       The following special parameters	are implicitly set by  the  shell  and
       cannot be set directly using assignments:

       !      Process  id of the last background process started.  If no back-
	      ground processes have been started, the parameter	is not set.

       #      The number of positional parameters (i.e., $1, $2, etc.).

       $      The process ID of	the shell, or the PID of the original shell if
	      it is a subshell.

       -      The concatenation	of the current single letter options (see  set
	      command below for	list of	options).

       ?      The  exit	 status	of the last non-asynchronous command executed.
	      If the last command was killed by	a signal, $?  is  set  to  128
	      plus the signal number.

       0      The name the shell was invoked with (i.e., argv[0]), or the com-
	      mand-name	 if it was invoked with	the -c option and the command-
	      name was supplied, or the	file argument, if it was supplied.  If
	      the posix	option is not set, $0 is the name of the current func-
	      tion or script.

       1 ... 9
	      The first	nine positional	parameters that	were supplied  to  the
	      shell,  function or .-script.  Further positional	parameters may
	      be accessed using	${number}.

       *      All positional parameters	(except	 parameter  0),	 i.e.,	$1  $2
	      $3....   If  used	outside	of double quotes, parameters are sepa-
	      rate words (which	are subjected  to  word	 splitting);  if  used
	      within  double  quotes,  parameters  are	separated by the first
	      character	of the IFS parameter (or the empty string  if  IFS  is
	      null).

       @      Same  as	$*,  unless  it	is used	inside double quotes, in which
	      case a separate word is generated	for each positional  parameter
	      -	 if  there  are	no positional parameters, no word is generated
	      ("$@" can	be used	to access arguments, verbatim, without loosing
	      null arguments or	splitting arguments with spaces).

       The following parameters	are set	and/or used by the shell:

       _ (underscore)
	      When an external command is executed by the shell, this  parame-
	      ter  is set in the environment of	the new	process	to the path of
	      the executed command.  In	interactive  use,  this	 parameter  is
	      also  set	 in  the parent	shell to the last word of the previous
	      command.	When MAILPATH messages are evaluated,  this  parameter
	      contains the name	of the file that changed (see MAILPATH parame-
	      ter below).

       CDPATH Search  path for the cd built-in command.	 Works the same	way as
	      PATH for those directories not beginning with / in cd  commands.
	      Note  that  if CDPATH is set and does not	contain	. nor an empty
	      path, the	current	directory is not searched.

       COLUMNS
	      Set to the number	of columns on the terminal  or	window.	  Cur-
	      rently  set  to  the  cols  value	as reported by stty(1) if that
	      value is non-zero.  This parameter is used  by  the  interactive
	      line  editing  modes, and	by select, set -o and kill -l commands
	      to format	information in columns.

       EDITOR If the VISUAL parameter is not set, this parameter controls  the
	      command  line  editing  mode for interactive shells.  See	VISUAL
	      parameter	below for how this works.

       ENV    If this parameter	is found to be set after any profile files are
	      executed,	the expanded value is used as a	shell  start-up	 file.
	      It typically contains function and alias definitions.

       ERRNO  Integer  value  of  the  shell's errno variable -- indicates the
	      reason the last system call failed.

	      Not implemented yet.

       EXECSHELL
	      If set, this parameter is	assumed	to contain the shell  that  is
	      to  be  used to execute commands that execve(2) fails to execute
	      and which	do not start with a `#!	shell' sequence.

       FCEDIT The editor used by the fc	command	(see below).

       FPATH  Like PATH, but used when an undefined function  is  executed  to
	      locate the file defining the function.  It is also searched when
	      a	 command  can't	 be found using	PATH.  See Functions below for
	      more information.

       HISTFILE
	      The name of the file used	to store history.  When	 assigned  to,
	      history  is loaded from the specified file.  Also, several invo-
	      cations of the shell running on the same machine will share his-
	      tory if their HISTFILE parameters	all point at the same file.
	      NOTE: if HISTFILE	isn't set, no history file is used.   This  is
	      different	  from	 the   original	  Korn	 shell,	  which	  uses
	      $HOME/.sh_history; in future, pdksh may also use a default  his-
	      tory file.

       HISTSIZE
	      The number of commands normally stored for history, default 128.

       HOME   The  default  directory for the cd command and the value substi-
	      tuted for	an unqualified ~ (see Tilde Expansion below).

       IFS    Internal field separator,	used during substitution  and  by  the
	      read  command, to	split values into distinct arguments; normally
	      set to space, tab	and newline.  See Substitution above  for  de-
	      tails.
	      Note:  this  parameter is	not imported from the environment when
	      the shell	is started.

       KSH_VERSION
	      The version of shell and the date	the version was	created	(read-
	      only).  See also the version commands in Emacs Editing Mode  and
	      Vi Editing Mode sections,	below.

       LINENO The  line	 number	 of  the function or shell script that is cur-
	      rently being executed.

       LINES  Set to the number	of lines on the	terminal or window.

	      Not implemented yet.

       MAIL   If set, the user will be informed	of the arrival of mail in  the
	      named file.  This	parameter is ignored if	the MAILPATH parameter
	      is set.

       MAILCHECK
	      How  often,  in  seconds,	 the  shell will check for mail	in the
	      file(s) specified	by MAIL	or MAILPATH.  If 0, the	 shell	checks
	      before each prompt.  The default is 600 (10 minutes).

       MAILPATH
	      A	list of	files to be checked for	mail.  The list	is colon sepa-
	      rated,  and each file may	be followed by a ? and a message to be
	      printed if new mail has arrived.	Command, parameter and	arith-
	      metic substitution is performed on the message, and, during sub-
	      stitution,  the parameter	$_ contains the	name of	the file.  The
	      default message is you have mail in $_.

       OLDPWD The previous working directory.  Unset if	cd  has	 not  success-
	      fully  changed  directories  since  the shell started, or	if the
	      shell doesn't know where it is.

       OPTARG When using getopts, it contains the argument for	a  parsed  op-
	      tion, if it requires one.

       OPTIND The  index  of  the  last	argument processed when	using getopts.
	      Assigning	1 to this parameter causes getopts  to	process	 argu-
	      ments from the beginning the next	time it	is invoked.

       PATH   A	 colon	separated  list	 of directories	that are searched when
	      looking for commands and .'d files.  An empty  string  resulting
	      from  a  leading	or  trailing  colon, or	two adjacent colons is
	      treated as a `.',	the current directory.

       POSIXLY_CORRECT
	      If set, this parameter causes the	posix option  to  be  enabled.
	      See POSIX	Mode below.

       PPID   The process ID of	the shell's parent (readonly).

       PS1    PS1  is  the  primary prompt for interactive shells.  Parameter,
	      command and arithmetic substitutions are performed, and !	is re-
	      placed with the current command number (see fc  command  below).
	      A	literal	! can be put in	the prompt by placing !! in PS1.  Note
	      that  since  the command line editors try	to figure out how long
	      the prompt is (so	they know  how	far  it	 is  to	 edge  of  the
	      screen), escape codes in the prompt tend to mess things up.  You
	      can  tell	 the shell not to count	certain	sequences (such	as es-
	      cape codes) by prefixing your prompt with	a non-printing charac-
	      ter (such	as control-A) followed by a carriage return  and  then
	      delimiting  the  escape  codes with this non-printing character.
	      If you don't have	any non-printing  characters,  you're  out  of
	      luck...  BTW, don't blame	me for this hack; it's in the original
	      ksh.  Default is `$ ' for	non-root users,	`# ' for root..

       PS2    Secondary	 prompt	 string, by default `> ', used when more input
	      is needed	to complete a command.

       PS3    Prompt used by select statement when reading a  menu  selection.
	      Default is `#? '.

       PS4    Used  to prefix commands that are	printed	during execution trac-
	      ing (see set -x command below).  Parameter, command  and	arith-
	      metic substitutions are performed	before it is printed.  Default
	      is `+ '.

       PWD    The  current  working  directory.	  Maybe	unset or null if shell
	      doesn't know where it is.

       RANDOM A	simple random number generator.	 Every time RANDOM  is	refer-
	      enced, it	is assigned the	next number in a random	number series.
	      The point	in the series can be set by assigning a	number to RAN-
	      DOM (see rand(3)).

       REPLY  Default  parameter  for  the read	command	if no names are	given.
	      Also used	in select loops	to store the value that	is  read  from
	      standard input.

       SECONDS
	      The number of seconds since the shell started or,	if the parame-
	      ter  has	been  assigned an integer value, the number of seconds
	      since the	assignment plus	the value that was assigned.

       TMOUT  If set to	a positive integer in an interactive shell, it	speci-
	      fies the maximum number of seconds the shell will	wait for input
	      after  printing  the  primary  prompt (PS1).  If the time	is ex-
	      ceeded, the shell	exits.

       TMPDIR The directory shell temporary files are created in.  If this pa-
	      rameter is not set, or does not contain the absolute path	 of  a
	      writable directory, temporary files are created in /tmp.

       VISUAL If  set,	this  parameter	controls the command line editing mode
	      for interactive shells.  If the last component of	the path spec-
	      ified in this parameter contains the string vi, emacs or	gmacs,
	      the  vi, emacs or	gmacs (Gosling emacs) editing mode is enabled,
	      respectively.

   Tilde Expansion
       Tilde expansion,	which is done in parallel with parameter substitution,
       is done on words	starting with an unquoted ~.  The characters following
       the tilde, up to	the first /, if	any, are assumed to be a  login	 name.
       If the login name is empty, + or	-, the value of	the HOME, PWD, or OLD-
       PWD  parameter  is  substituted,	respectively.  Otherwise, the password
       file is searched	for the	login name, and	the tilde expression  is  sub-
       stituted	 with  the  user's  home  directory.  If the login name	is not
       found in	the password file or if	any quoting or parameter  substitution
       occurs in the login name, no substitution is performed.

       In parameter assignments	(those preceding a simple-command or those oc-
       curring	in  the	 arguments  of	alias, export, readonly, and typeset),
       tilde expansion is done after any unquoted colon	(:), and  login	 names
       are also	delimited by colons.

       The  home  directory  of	previously expanded login names	are cached and
       re-used.	 The alias -d command may be used to list, change and  add  to
       this cache (e.g., `alias	-d fac=/usr/local/facilities; cd ~fac/bin').

   Brace Expansion (alternation)
       Brace expressions, which	take the form
	      prefix{str1,...,strN}suffix
       are  expanded to	N words, each of which is the concatenation of prefix,
       stri and	suffix (e.g., `a{c,b{X,Y},d}e'	expands	 to  four  word:  ace,
       abXe,  abYe,  and ade).	As noted in the	example, brace expressions can
       be nested and the resulting words are not  sorted.   Brace  expressions
       must contain an unquoted	comma (,) for expansion	to occur (i.e.,	{} and
       {foo}  are not expanded).  Brace	expansion is carried out after parame-
       ter substitution	and before file	name generation.

   File	Name Patterns
       A file name pattern is a	word containing	one or more unquoted  ?	 or  *
       characters or [..] sequences.  Once brace expansion has been performed,
       the  shell replaces file	name patterns with the sorted names of all the
       files that match	the pattern (if	no files match,	the word is  left  un-
       changed).  The pattern elements have the	following meaning:

       ?      matches any single character.

       *      matches any sequence of characters.

       [..]   matches  any  of	the characters inside the brackets.  Ranges of
	      characters can be	specified by separating	two characters by a -,
	      e.g., [a0-9] matches the letter a	or any	digit.	 In  order  to
	      represent	itself,	a - must either	be quoted or the first or last
	      character	 in the	character list.	 Similarly, a ]	must be	quoted
	      or the first character in	the list if it is represent itself in-
	      stead of the end of the list.  Also, a !	appearing at the start
	      of the list has special meaning (see below), so to represent it-
	      self it must be quoted or	appear later in	the list.

       [!..]  like [..], except	it matches any character not inside the	brack-
	      ets.

       *(pattern| ... |pattern)
	      matches any string of characters that matches zero or  more  oc-
	      curances	of  the	 specified  patterns.	Example:  the  pattern
	      *(foo|bar) matches the strings `',  `foo',  `bar',  `foobarfoo',
	      etc..

       +(pattern| ... |pattern)
	      matches any string of characters that matches one	or more	occur-
	      ances   of   the	 specified  patterns.	Example:  the  pattern
	      +(foo|bar) matches the strings `foo', `bar', `foobarfoo',	etc..

       ?(pattern| ... |pattern)
	      matches the empty	string or a string that	 matches  one  of  the
	      specified	  patterns.   Example:	the  pattern  ?(foo|bar)  only
	      matches the strings `', `foo' and	`bar'.

       @(pattern| ... |pattern)
	      matches a	string that matches one	 of  the  specified  patterns.
	      Example:	the  pattern @(foo|bar)	only matches the strings `foo'
	      and `bar'.

       !(pattern| ... |pattern)
	      matches any string that does not match one of the	specified pat-
	      terns.  Examples:	the pattern !(foo|bar) matches all strings ex-
	      cept `foo' and `bar'; the	pattern	!(*) matches no	 strings;  the
	      pattern !(?)* matches all	strings	(think about it).

       Note that pdksh currently never matches . and .., but the original ksh,
       Bourne sh and bash do, so this may have to change (too bad).

       Note  that none of the above pattern elements match either a period (.)
       at the start of a file name or a	slash (/), even	if they	are explicitly
       used in a [..] sequence;	also, the names	. and ..  are  never  matched,
       even by the pattern .*.

       If  the	markdirs  option is set, any directories that result from file
       name generation are marked with a trailing /.

       The POSIX character classes (i.e., [:class-name:] inside	a [..] expres-
       sion) are not yet implemented.

   Input/Output	Redirection
       When a command is executed, its standard	 input,	 standard  output  and
       standard	error (file descriptors	0, 1 and 2, respectively) are normally
       inherited  from	the  shell.   Three exceptions to this are commands in
       pipelines, for which standard input and/or standard  output  are	 those
       set  up by the pipeline,	asynchronous commands created when job control
       is disabled, for	which standard input  is  initially  set  to  be  from
       /dev/null,  and	commands  for  which any of the	following redirections
       have been specified:

       > file standard output is redirected to file.  If file does not	exist,
	      it  is  created; if it does exist, is a regular file and the no-
	      clobber option is	set, an	error occurs, otherwise	 the  file  is
	      truncated.   Note	 that  this  means the command cmd < foo > foo
	      will open	foo for	reading	and then truncate it when it opens  it
	      for writing, before cmd gets a chance to actually	read foo.

       >| file
	      same  as	>, except the file is truncated, even if the noclobber
	      option is	set.

       >> file
	      same as >, except	the file an existing file is appended  to  in-
	      stead  of	 being	truncated.  Also, the file is opened in	append
	      mode, so writes always go	to the end of the file (see open(2)).

       < file standard input is	redirected from	 file,	which  is  opened  for
	      reading.

       <> file
	      same as <, except	the file is opened for reading and writing.

       << marker
	      after  reading the command line containing this kind of redirec-
	      tion (called a here document), the shell copies lines  from  the
	      command  source  into  a	temporary  file	 until a line matching
	      marker is	read.  When the	command	is executed, standard input is
	      redirected from the  temporary  file.   If  marker  contains  no
	      quoted  characters,  the	contents  of  the  temporary  file are
	      processed	as if enclosed in double quotes	each time the  command
	      is  executed, so parameter, command and arithmetic substitutions
	      are performed, along with	backslash (\) escapes for $, `,	\  and
	      \newline.	  If multiple here documents are used on the same com-
	      mand line, they are saved	in order.

       <<- marker
	      same as <<, except leading tabs are stripped from	lines  in  the
	      here document.

       <& fd  standard input is	duplicated from	file descriptor	fd.  fd	can be
	      a	 single	 digit,	 indicating the	number of an existing file de-
	      scriptor,	the letter p, indicating the file  descriptor  associ-
	      ated with	the output of the current co-process, or the character
	      -, indicating standard input is to be closed.

       >& fd  same as <&, except the operation is done on standard output.

       In  any	of  the	 above redirections, the file descriptor that is redi-
       rected (i.e., standard input or	standard  output)  can	be  explicitly
       given  by  preceding  the  redirection with a single digit.  Parameter,
       command and arithmetic substitutions, tilde substitutions and  (if  the
       shell  is  interactive)	file  name generation are all performed	on the
       file, marker and	fd arguments of	redirections.  Note however, that  the
       results	of  any	file name generation are only used if a	single file is
       matched;	if multiple files match, the word  with	 the  unexpanded  file
       name  generation	 characters  is	used.  Note that in restricted shells,
       redirections which can create files cannot be used.

       For simple-commands, redirections may appear anywhere in	 the  command,
       for  compound-commands (if statements, etc.), any redirections must ap-
       pear at the end.	 Redirections are processed after pipelines  are  cre-
       ated and	in the order they are given, so
	      cat /foo/bar 2>&1	> /dev/null | cat -n
       will print an error with	a line number prepended	to it.

   Arithmetic Expressions
       Integer arithmetic expressions can be used with the let command,	inside
       $((..)) expressions, inside array references (e.g., name[expr]),	as nu-
       meric  arguments	to the test command, and as the	value of an assignment
       to an integer parameter.

       Expression may contain alpha-numeric parameter identifiers, array  ref-
       erences,	and integer constants and may be combined with the following C
       operators (listed and grouped in	increasing order of precedence).

       Unary operators:
	      +	- ! ~ ++ --

       Binary operators:
	      ,
	      =	*= /= %= += -= <<= >>= &= ^= |=
	      ||
	      &&
	      |
	      ^
	      &
	      == !=
	      <	<= >= >
	      << >>
	      +	-
	      *	/ %

       Ternary operator:
	      ?: (precedence is	immediately higher than	assignment)

       Grouping	operators:
	      (	)

       Integer constants may be	specified with arbitrary bases using the nota-
       tion  base#number, where	base is	a decimal integer specifying the base,
       and number is a number in the specified base.

       The operators are evaluated as follows:

	      unary +
		     result is the argument (included for completeness).

	      unary -
		     negation.

	      !	     logical not; the result is	1 if argument is  zero,	 0  if
		     not.

	      ~	     arithmetic	(bit-wise) not.

	      ++     increment;	 must be applied to a parameter	(not a literal
		     or	other expression) - the	parameter is incremented by 1.
		     When used as a prefix operator, the result	is the	incre-
		     mented value of the parameter, when used as a postfix op-
		     erator,  the  result is the original value	of the parame-
		     ter.

	      ++     similar to	++, except the paramter	is decremented by 1.

	      ,	     separates two arithmetic expressions; the left hand  side
		     is	 evaluated first, then the right.  The result is value
		     of	the expression on the right hand side.

	      =	     assignment; variable on the left is set to	the  value  on
		     the right.

	      *= /= %= += -= <<= >>= &=	^= |=
		     assignment	 operators;  <var> <op>= <expr>	is the same as
		     <var> = <var> <op>	( <expr> ).

	      ||     logical or; the result is 1 if either  argument  is  non-
		     zero,  0 if not.  The right argument is evaluated only if
		     the left argument is zero.

	      &&     logical and; the result is	1 if both arguments  are  non-
		     zero,  0 if not.  The right argument is evaluated only if
		     the left argument is non-zero.

	      |	     arithmetic	(bit-wise) or.

	      ^	     arithmetic	(bit-wise) exclusive-or.

	      &	     arithmetic	(bit-wise) and.

	      ==     equal; the	result is 1 if both arguments are equal, 0  if
		     not.

	      !=     not equal;	the result is 0	if both	arguments are equal, 1
		     if	not.

	      <	     less  than;  the result is	1 if the left argument is less
		     than the right, 0 if not.

	      <= >= >
		     less than or equal, greater than or equal,	greater	 than.
		     See <.

	      << >>  shift  left (right); the result is	the left argument with
		     its bits shifted left (right) by the amount given in  the
		     right argument.

	      +	- * /
		     addition, subtraction, multiplication, and	division.

	      %	     remainder;	the result is the remainder of the division of
		     the  left	argument by the	right.	The sign of the	result
		     is	unspecified if either argument is negative.

	      <arg1> ? <arg2> :	<arg3>
		     if	<arg1> is non-zero, the	result	is  <arg2>,  otherwise
		     <arg3>.

   Co-Processes
       A  co-process,  which is	a pipeline created with	the |& operator, is an
       asynchronous process that the shell can both write to (using print  -p)
       and  read from (using read -p).	The input and output of	the co-process
       can also	be manipulated using >&p and <&p  redirections,	 respectively.
       Once  a co-process has been started, another can't be started until the
       co-process exits, or until the co-process input has been	redirected us-
       ing an exec n>&p	redirection.  If a co-process's	input is redirected in
       this way, the next co-process to	be started will	share the output  with
       the  first  co-process, unless the output of the	initial	co-process has
       been redirected using an	exec n<&p redirection.

       Some notes concerning co-processes:
	 •    the only way to close the	co-process input  (so  the  co-process
	      reads  an	 end-of-file)  is  to redirect the input to a numbered
	      file descriptor and then close that file descriptor (e.g.,  exec
	      3>&p;exec	3>&-).
	 •    in  order	 for  co-processes to share a common output, the shell
	      must keep	the write portion of the output	pipe open.  This means
	      that end of file will not	be  detected  until  all  co-processes
	      sharing  the  co-process output have exited (when	they all exit,
	      the shell	closes its copy	of the pipe).  This can	be avoided  by
	      redirecting  the	output	to a numbered file descriptor (as this
	      also causes the shell to close its copy).	 Note that this	behav-
	      iour is slightly different from the original  Korn  shell	 which
	      closes  its  copy	of the write portion of	the co-processs	output
	      when the most recently started co-process	(instead of  when  all
	      sharing co-processes) exits.
	 •    print -p will ignore SIGPIPE signals during writes if the	signal
	      is not being trapped or ignored; the same	is not true if the co-
	      process input has	been duplicated	to another file	descriptor and
	      print -un	is used.

   Functions
       Functions  are  defined using either Korn shell function	name syntax or
       the Bourne/POSIX	shell name() syntax (see below for the difference  be-
       tween  the  two	forms).	 Functions are like .-scripts in that they are
       executed	in the current environment, however, unlike  .-scripts,	 shell
       arguments (i.e.,	positional parameters, $1, etc.) are never visible in-
       side  them.   When  the shell is	determining the	location of a command,
       functions are searched after special built-in commands, and before reg-
       ular and	non-regular built-ins, and before the PATH is searched.

       An existing function may	be deleted using unset	-f  function-name.   A
       list of functions can be	obtained using typeset +f and the function de-
       finitions  can be listed	using typeset -f.  autoload (which is an alias
       for typeset -fu)	may be used to create undefined	functions; when	an un-
       defined function	is executed, the shell searches	the path specified  in
       the  FPATH  parameter  for  a  file with	the same name as the function,
       which, if found is read and executed.  If after executing the file, the
       named function is found to be defined, the function is executed,	other-
       wise, the normal	command	search is continued (i.e., the shell  searches
       the  regular  built-in command table and	PATH).	Note that if a command
       is not found using PATH,	an attempt is made to autoload a function  us-
       ing FPATH (this is an undocumented feature of the original Korn shell).

       Functions  can  have two	attributes, trace and export, which can	be set
       with typeset -ft	and typeset -fx, respectively.	When a traced function
       is executed, the	shell's	xtrace option is turned	on for	the  functions
       duration,  otherwise  the  xtrace option	is turned off.	The export at-
       tribute of functions is currently  not  used.   In  the	original  Korn
       shell,  exported	 functions  are	visible	to shell scripts that are exe-
       cuted.

       Since functions are executed in the current shell environment,  parame-
       ter  assignments	 made  inside functions	are visible after the function
       completes.  If this is not the desired effect, the typeset command  can
       be  used	inside a function to create a local parameter.	Note that spe-
       cial parameters (e.g., $$, $!) can't be scoped in this way.

       The exit	status of a function is	that of	the last command  executed  in
       the  function.	A function can be made to finish immediately using the
       return command; this may	also be	used to	explicitly  specify  the  exit
       status.

       Functions  defined  with	the function reserved word are treated differ-
       ently in	the following ways from	functions defined with	the  ()	 nota-
       tion:
	 •    the  $0  parameter  is  set to the name of the function (Bourne-
	      style functions leave $0 untouched).
	 •    parameter	assignments preceeding function	calls are not kept  in
	      the  shell  environment  (executing  Bourne-style	functions will
	      keep assignments).
	 •    OPTIND is	saved/reset and	restored on entry and  exit  from  the
	      function so getopts can be used properly both inside and outside
	      the  function (Bourne-style functions leave OPTIND untouched, so
	      using getopts inside a function interferes  with	using  getopts
	      outside the function).  In the future, the following differences
	      will also	be added:
	 •    A	 separate trap/signal environment will be used during the exe-
	      cution of	functions.  This will mean that	 traps	set  inside  a
	      function	will not affect	the shell's traps and signals that are
	      not ignored in the shell (but may	be trapped)  will  have	 their
	      default effect in	a function.
	 •    The  EXIT	trap, if set in	a function, will be executed after the
	      function returns.

   POSIX Mode
       The shell is intended to	be POSIX compliant, however,  in  some	cases,
       POSIX behaviour is contrary either to the original Korn shell behaviour
       or to user convenience.	How the	shell behaves in these cases is	deter-
       mined  by  the state of the posix option	(set -o	posix) -- if it	is on,
       the POSIX behaviour is followed,	otherwise it is	not.  The posix	option
       is set automatically when the shell starts up if	the  environment  con-
       tains  the  POSIXLY_CORRECT parameter.  (The shell can also be compiled
       so that it is in	POSIX mode by default, however this is usually not de-
       sirable).

       The following is	a list of things that are affected by the state	of the
       posix option:
	 •    \" inside	double quoted `..`  command  substitutions:  in	 posix
	      mode,  the \" is interpreted when	the command is interpreted; in
	      non-posix	mode, the backslash is	stripped  before  the  command
	      substitution  is interpreted.  For example, echo "`echo \"hi\"`"
	      produces `"hi"' in posix mode, `hi' in non-posix mode.  To avoid
	      problems,	use the	$(...)	form of	command	substitution.
	 •    kill -l output: in posix mode, signal names  are	listed	one  a
	      single  line;  in	 non-posix mode, signal	numbers, names and de-
	      scriptions are printed in	columns.  In future, a new option  (-v
	      perhaps) will be added to	distinguish the	two behaviours.
	 •    fg exit status: in posix mode, the exit status is	0 if no	errors
	      occur;  in  non-posix  mode, the exit status is that of the last
	      foregrounded job.
	 •    eval exit	status:	if eval	gets to	see an	empty  command	(e.g.,
	      eval  "`false`"),	 its  exit status in posix mode	will be	0.  In
	      non-posix	mode, it will be the exit status of the	 last  command
	      substitution that	was done in the	processing of the arguments to
	      eval (or 0 if there were no command substitutions).
	 •    getopts:	in  posix  mode,  options must start with a -; in non-
	      posix mode, options can start with either	- or +.
	 •    brace expansion (also known  as  alternation):  in  posix	 mode,
	      brace  expansion is disabled; in non-posix mode, brace expansion
	      enabled.	Note that set -o posix (or setting the POSIXLY_CORRECT
	      parameter) automatically turns the braceexpand option off,  how-
	      ever it can be explicitly	turned on later.
	 •    set  -: in posix mode, this does not clear the verbose or	xtrace
	      options; in non-posix mode, it does.
	 •    set exit status: in posix	mode, the exit status of set is	 0  if
	      there  are no errors; in non-posix mode, the exit	status is that
	      of any command substitutions performed  in  generating  the  set
	      command.	 For  example,	`set  -- `false`; echo $?' prints 0 in
	      posix mode, 1 in non-posix mode.	This construct is used in most
	      shell scripts that use the old getopt(1) command.
	 •    argument expansion of alias, export, readonly, and typeset  com-
	      mands:  in  posix	 mode, normal argument expansion done; in non-
	      posix mode, field	splitting, file	globing, brace	expansion  and
	      (normal)	tilde  expansion  are turned off, and assignment tilde
	      expansion	is turned on.
	 •    signal specification: in posix mode, signals can be specified as
	      digits only if signal numbers match POSIX	values	(i.e.,	HUP=1,
	      INT=2,  QUIT=3,  ABRT=6,	KILL=9,	ALRM=14, and TERM=15); in non-
	      posix mode, signals can be always	digits.
	 •    alias expansion: in posix	mode, alias expansion is only  carried
	      out  when	reading	command	words; in non-posix mode, alias	expan-
	      sion is carried out on any word following	an alias that ended in
	      a	space.	For example, the following for loop
	      alias a='for ' i='j'
	      a	i in 1 2; do echo i=$i j=$j; done
       uses parameter i	in posix mode, j in non-posix mode.
	 •    test: in posix mode, the expression "-t" (preceded by some  num-
	      ber  of "!" arguments) is	always true as it is a non-zero	length
	      string; in non-posix mode, it tests if file descriptor  1	 is  a
	      tty  (i.e.,  the	fd argument to the -t test may be left out and
	      defaults to 1).

   Command Execution
       After evaluation	of command line	arguments, redirections	and  parameter
       assignments,  the  type of command is determined: a special built-in, a
       function, a regular built-in or the name	of a file to execute found us-
       ing the PATH parameter.	The checks are made in the above order.	  Spe-
       cial  built-in commands differ from other commands in that the PATH pa-
       rameter is not used to find them, an error during their	execution  can
       cause  a	 non-interactive  shell	to exit	and parameter assignments that
       are specified before the	command	are kept after the command  completes.
       Just to confuse things, if the posix option is turned off (see set com-
       mand  below)  some  special  commands are very special in that no field
       splitting, file globing,	brace expansion	nor tilde  expansion  is  pre-
       formed  on arguments that look like assignments.	 Regular built-in com-
       mands are different only	in that	the PATH parameter is not used to find
       them.

       The original ksh	and POSIX differ somewhat in which commands  are  con-
       sidered special or regular:

       POSIX special commands
	      .		 continue   exit       return	  trap
	      :		 eval	    export     set	  unset
	      break	 exec	    readonly   shift

       Additional ksh special commands
	      builtin	 times	    typeset

       Very special commands (non-posix	mode)
	      alias	 readonly   set	       typeset

       POSIX regular commands
	      alias	 command    fg	       kill	  umask
	      bg	 false	    getopts    read	  unalias
	      cd	 fc	    jobs       true	  wait

       Additional ksh regular commands
	      [		 let	    pwd	       ulimit
	      echo	 print	    test       whence

       In  the	future,	the additional ksh special and regular commands	may be
       treated differently from	the POSIX special and regular commands.

       Once the	type of	the command has	been determined, any command line  pa-
       rameter	assignments are	performed and exported for the duration	of the
       command.

       The following describes the special and regular built-in	commands:

       . file [arg1 ...]
	      Execute the commands in file in the  current  environment.   The
	      file  is	searched for in	the directories	of PATH.  If arguments
	      are given, the positional	parameters may be used to access  them
	      while  file  is  being executed.	If no arguments	are given, the
	      positional parameters are	those of the environment  the  command
	      is used in.

       : [ ... ]
	      The null command.	 Exit status is	set to zero.

       alias [ -d | +-t	[-r] ] [+-px] [+-] [name1[=value1] ...]
	      Without  arguments, alias	lists all aliases.  For	any name with-
	      out a value, the existing	alias is  listed.   Any	 name  with  a
	      value defines an alias (see Aliases above).

	      When  listing  aliases,  one  of	two formats is used: normally,
	      aliases are listed as name=value,	where value is quoted; if  op-
	      tions  were  preceded with + or a	lone + is given	on the command
	      line, only name is printed.  In addition,	if the	-p  option  is
	      used, each alias is prefixed with	the string "alias ".

	      The -x option sets (+x clears) the export	attribute of an	alias,
	      or, if no	names are given, lists the aliases with	the export at-
	      tribute (exporting an alias has no affect).

	      The   -t	option	indicates  that	 tracked  aliases  are	to  be
	      listed/set (values specified on the command line are ignored for
	      tracked aliases).	 The -r	 option	 indicates  that  all  tracked
	      aliases are to be	reset.

	      The  -d causes directory aliases,	which are used in tilde	expan-
	      sion, to be listed or set	(see Tilde Expansion above).

       bg [job ...]
	      Resume the specified stopped job(s) in the  background.	If  no
	      jobs  are	specified, %+ is assumed.  This	command	is only	avail-
	      able on systems which support job	control.  See Job Control  be-
	      low for more information.

       bind [-m] [key[=editing-command]	...]
	      Set  or  view  the  current  emacs  command  editing  key	 bind-
	      ings/macros.  See	Emacs Editing Mode below for  a	 complete  de-
	      scription.

       break [level]
	      break  exits the levelth inner most for, select, until, or while
	      loop.  level defaults to 1.

       builtin command [arg1 ...]
	      Execute the built-in command command.

       cd [-LP]	[dir]
	      Set the working directory	to dir.	 If the	 parameter  CDPATH  is
	      set,  it lists directories to search in for dir.	dir.  An empty
	      entry in the CDPATH entry	means the  current  directory.	 If  a
	      non-empty	directory from CDPATH is used, the resulting full path
	      is  printed to standard output.  If dir is missing, the home di-
	      rectory $HOME is used.  If dir is	-, the previous	working	direc-
	      tory is used (see	OLDPWD	parameter).   If  -L  option  (logical
	      path)  is	used or	if the physical	option (see set	command	below)
	      isn't set, references to .. in dir are relative to the path used
	      get to the directory.  If	-P option (physical path) is  used  or
	      if  the physical option is set, .. is relative to	the filesystem
	      directory	tree.  The PWD and OLDPWD parameters  are  updated  to
	      reflect the current and old wording directory, respectively.

       cd [-LP]	old new
	      The  string new is substituted for old in	the current directory,
	      and the shell attempts to	change to the new directory.

       command [-pvV] cmd [arg1	...]
	      If neither the -v	nor -V options are given, cmd is executed  ex-
	      actly  as	if the command had not been specified, with two	excep-
	      tions: first, cmd	cannot be a shell function, and	 second,  spe-
	      cial built-in commands lose their	specialness (i.e., redirection
	      and  utility  errors do not cause	the shell to exit, and command
	      assignments are not permanent).  If the -p option	 is  given,  a
	      default search path is used instead of the current value of PATH
	      (the  actual  value  of the default path is system dependent: on
	      POSIXish systems,	it is the value	returned by
				      getconf CS_PATH
	      ).

	      If the -v	option is given, instead of executing cmd, information
	      about what would be executed is given (and the same is done  for
	      arg1  ...):  for special and regular built-in commands and func-
	      tions, their names are simply printed, for  aliases,  a  command
	      that  defines them is printed, and for commands found by search-
	      ing the PATH parameter, the full path of the command is printed.
	      If no command is be found, (i.e.,	the path search	fails),	 noth-
	      ing is printed and command exits with a non-zero status.	The -V
	      option is	like the -v option, except it is more verbose.

       continue	[levels]
	      continue	jumps  to the beginning	of the levelth inner most for,
	      select, until, or	while loop.  level defaults to 1.

       echo [-neE] [arg	...]
	      Prints its arguments (separated by spaces) followed  by  a  new-
	      line,  to	standard out.  The newline is suppressed if any	of the
	      arguments	contain	the backslash sequence \c.  See	print  command
	      below  for  a  list of other backslash sequences that are	recog-
	      nized.

	      The options  are	provided  for  compatibility  with  BSD	 shell
	      scripts:	-n  suppresses	the trailing newline, -e enables back-
	      slash interpretation (a no-op, since this	is normally done), and
	      -E which suppresses backslash interpretation.

       eval command ...
	      The arguments are	concatenated (with  spaces  between  them)  to
	      form a single string which the shell then	parses and executes in
	      the current environment.

       exec [command [arg ...]]
	      The  command  is	executed  without forking, replacing the shell
	      process.

	      If no arguments are given, any IO	redirection is	permanent  and
	      the  shell is not	replaced.  Any file descriptors	greater	than 2
	      which are	opened or dup(2)-ed in this way	are not	made available
	      to other executed	commands (i.e.,	commands that are not built-in
	      to the shell).  Note that	the Bourne shell differs here: it does
	      pass these file descriptors on.

       exit [status]
	      The shell	exits with the specified exit status.	If  status  is
	      not specified, the exit status is	the current value of the ? pa-
	      rameter.

       export [-p] [parameter[=value]] ...
	      Sets the export attribute	of the named parameters.  Exported pa-
	      rameters are passed in the environment to	executed commands.  If
	      values are specified, the	named parameters also assigned.

	      If no parameters are specified, the names	of all parameters with
	      the export attribute are printed one per line, unless the	-p op-
	      tion  is	used,  in  which case export commands defining all ex-
	      ported parameters, including their values, are printed.

       false  A	command	that exits with	a non-zero status.

       fc [-e editor | -l [-n]]	[-r] [first [last]]
	      first and	last select commands from the history.	 Commands  can
	      be  selected  by history number, or a string specifying the most
	      recent command starting with that	string.	 The -l	 option	 lists
	      the  command on stdout, and -n inhibits the default command num-
	      bers.  The -r option reverses the	order of  the  list.   Without
	      -l,  the	selected  commands  are	edited by the editor specified
	      with the -e option, or if	no -e is specified, the	editor	speci-
	      fied  by	the  FCEDIT  parameter	(if this parameter is not set,
	      /bin/ed is used),	and then executed by the shell.

       fc [-e -	| -s] [-g] [old=new] [prefix]
	      Re-execute the selected command (the  previous  command  by  de-
	      fault)  after  performing	 the optional substitution of old with
	      new.  If -g is specified,	all occurrences	of  old	 are  replaced
	      with  new.  This command is usually accessed with	the predefined
	      alias r='fc -e -'.

       fg [job ...]
	      Resume the specified job(s) in the foreground.  If no  jobs  are
	      specified,  %+  is  assumed.   This command is only available on
	      systems which support job	control.  See Job  Control  below  for
	      more information.

       getopts optstring name [arg ...]
	      getopts is used by shell procedures to parse the specified argu-
	      ments  (or positional parameters,	if no arguments	are given) and
	      to check for legal options.  optstring contains the option  let-
	      ters that	getopts	is to recognize.  If a letter is followed by a
	      colon, the option	is expected to have an argument.  Options that
	      do  not  take arguments may be grouped in	a single argument.  If
	      an option	takes an argument and the option character is not  the
	      last  character of the argument it is found in, the remainder of
	      the argument is taken to be the  option's	 argument,  otherwise,
	      the next argument	is the option's	argument.

	      Each  time  getopts is invoked, it places	the next option	in the
	      shell parameter name and the index of the	next  argument	to  be
	      processed	 in the	shell parameter	OPTIND.	 If the	option was in-
	      troduced with a +, the option placed in name is prefixed with  a
	      +.   When	 an  option requires an	argument, getopts places it in
	      the shell	parameter OPTARG.  When	an illegal option or a missing
	      option argument is encountered a question	mark  or  a  colon  is
	      placed  in  name	(indicating an illegal option or missing argu-
	      ment, respectively) and OPTARG is	set to	the  option  character
	      that  caused  the	 problem.  An error message is also printed to
	      standard error if	optstring does not begin with a	colon.

	      When the end of the options is encountered, getopts exits	with a
	      non-zero exit status.  Options end at the	first (non-option  ar-
	      gument)  argument	that does not start with a -, or when a	-- ar-
	      gument is	encountered.

	      Option parsing can be reset by setting OPTIND to 1 (this is done
	      automatically whenever the shell or a  shell  procedure  is  in-
	      voked).

	      Warning:	Changing  the value of the shell parameter OPTIND to a
	      value other than 1, or parsing different sets of arguments with-
	      out resetting OPTIND may lead to unexpected results.

       hash [-r] [name ...]
	      Without arguments, any hashed executable command	pathnames  are
	      listed.	The -r option causes all hashed	commands to be removed
	      from the hash table.  Each name is searched as  if  it  where  a
	      command  name and	added to the hash table	if it is an executable
	      command.

       jobs [-lpn] [job	...]
	      Display information about	the specified jobs;  if	 no  jobs  are
	      specified,  all jobs are displayed.  The -n option causes	infor-
	      mation to	be displayed only for jobs  that  have	changed	 state
	      since  the  last	notification.	If  the	-l option is used, the
	      process-id of each process in a job is also listed.  The -p  op-
	      tion  causes  only  the process group of each job	to be printed.
	      See Job Control below for	the format of job  and	the  displayed
	      job.

       kill [-s	signame	| -signum | -signame ] { job | pid | -pgrp } ...
	      Send the specified signal	to the specified jobs, process ids, or
	      process  groups.	 If no signal is specified, the	signal TERM is
	      sent.  If	a job is specified, the	signal is sent	to  the	 job's
	      process group.  See Job Control below for	the format of job.

       kill -l [exit-status ...]
	      Print  the name of the signal that killed	a process which	exited
	      with the specified exit-statuses.	 If no	arguments  are	speci-
	      fied,  a	list of	all the	signals, their numbers and a short de-
	      scription	of them	are printed.

       let [expression ...]
	      Each expression is evaluated, see	Arithmetic Expressions	above.
	      If  all  expressions are successfully evaluated, the exit	status
	      is 0 (1) if the last expression evaluated	 to  non-zero  (zero).
	      If  an  error  occurs during the parsing or evaluation of	an ex-
	      pression,	the exit status	is greater than	1.  Since  expressions
	      may  need	 to  be	 quoted, (( expr )) is syntactic sugar for let
	      "expr".

       print [-nprsun |	-R [-en]] [argument ...]
	      Print prints its arguments on the	standard output, separated  by
	      spaces, and terminated with a newline.  The -n option suppresses
	      the  newline.   By  default,  certain  C escapes are translated.
	      These include \b,	\f, \n,	\r, \t,	\v, and	\0### (# is  an	 octal
	      digit, of	which there may	be 0 to	3).  \c	is equivalent to using
	      the -n option.  \	expansion may be inhibited with	the -r option.
	      The  -s  option  prints  to the history file instead of standard
	      output, the -u option prints to file descriptor n	(n defaults to
	      1	if omitted), and the -p	option prints to the  co-process  (see
	      Co-Processes above).

	      The  -R  option is used to emulate, to some degree, the BSD echo
	      command, which does not process \	sequences unless the -e	option
	      is given.	 As above, the -n option suppresses the	trailing  new-
	      line.

       pwd [-LP]
	      Print the	present	working	directory.  If -L option is used or if
	      the physical option (see set command below) isn't	set, the logi-
	      cal  path	 is  printed (i.e., the	path used to cd	to the current
	      directory).  If -P option	(physical path)	 is  used  or  if  the
	      physical	option is set, the path	determined from	the filesystem
	      (by following ..	directories to the root	directory) is printed.

       read [-prsun] [parameter	...]
	      Reads a line of input from standard  input,  separate  the  line
	      into  fields  using  the IFS parameter (see Substitution above),
	      and assign each field to the specified parameters.  If there are
	      more parameters than fields, the extra  parameters  are  set  to
	      null,  or	 alternatively,	 if there are more fields than parame-
	      ters, the	last parameter is assigned the remaining  fields  (in-
	      clusive  of any separating spaces).  If no parameters are	speci-
	      fied, the	REPLY parameter	is used.  If the input line ends in  a
	      backslash	and the	-r option was not used,	the backslash and new-
	      line  are	stripped and more input	is read.  If no	input is read,
	      read exits with a	non-zero status.

	      The first	parameter may have a question mark and	a  string  ap-
	      pended  to  it,  in  which  case	the string is used as a	prompt
	      (printed to standard error before	any input is read) if the  in-
	      put is a tty (e.g., read nfoo?'number of foos: ').

	      The -un and -p options cause input to be read from file descrip-
	      tor n or the current co-process (see Co-Processes	above for com-
	      ments  on	 this),	respectively.  If the -s option	is used, input
	      is saved to the history file.

       readonly	[-p] [parameter[=value]] ...
	      Sets the readonly	attribute of the named parameters.  If	values
	      are  given,  parameters  are  set	to them	before setting the at-
	      tribute.	Once a parameter is made readonly, it cannot be	 unset
	      and its value cannot be changed.

	      If no parameters are specified, the names	of all parameters with
	      the  readonly  attribute are printed one per line, unless	the -p
	      option is	used, in which case  readonly  commands	 defining  all
	      readonly parameters, including their values, are printed.

       return [status]
	      Returns  from  a	function or . script, with exit	status status.
	      If no status is given, the exit status of	the last executed com-
	      mand is used.  If	used outside of	a function or .	script,	it has
	      the same effect as exit.	Note that pdksh	 treats	 both  profile
	      and  $ENV	files as . scripts, while the original Korn shell only
	      treats profiles as . scripts.

       set [+-abCefhkmnpsuvxX] [+-o [option]] [+-A name] [--] [arg ...]
	      The set command can be used to set (-) or	clear  (+)  shell  op-
	      tions, set the positional	parameters, or set an array parameter.
	      Options can be changed using the +-o option syntax, where	option
	      is  the  long  name  of an option, or using the +-letter syntax,
	      where letter is the option's single letter name (not all options
	      have a single letter name).  The following table lists both  op-
	      tion  letters  (if  they	exist) and long	names along with a de-
	      scription	of what	the option does.

	       -A				Sets the elements of the array
						parameter name to arg ...;  If
						-A is used, the	array is reset
						(i.e.,	emptied)  first; if +A
						is used, the first N  elements
						are set	(where N is the	number
						of  args),  the	 rest are left
						untouched.
	       -a	  allexport		all new	parameters are created
						with the export	attribute
	       -b	  notify		Print  job  notification  mes-
						sages  asynchronously, instead
						of  just  before  the  prompt.
						Only  used  if	job control is
						enabled	(-m).
	       -C	  noclobber		Prevent	 >  redirection	  from
						overwriting existing files (>|
						must be	used to	force an over-
						write).
	       -e	  errexit		Exit  (after executing the ERR
						trap) as soon as an error  oc-
						curs or	a command fails	(i.e.,
						exits with a non-zero status).
						This  does  not	 apply to com-
						mands whose exit status	is ex-
						plicitly  tested  by  a	 shell
						construct  such	 as if,	until,
						while, && or ||	statements.
	       -f	  noglob		Do not expand file  name  pat-
						terns.
	       -h	  trackall		Create tracked aliases for all
						executed commands (see Aliases
						above).	  On  by  default  for
						non-interactive	shells.
	       -i	  interactive		Enable interactive mode	- this
						can only be set/unset when the
						shell is invoked.
	       -k	  keyword		Parameter assignments are rec-
						ognized	anywhere in a command.
	       -l	  login			The shell is a login  shell  -
						this  can  only	 be  set/unset
						when the shell is invoked (see
						Shell Startup above).
	       -m	  monitor		Enable	job  control  (default
						for interactive	shells).
	       -n	  noexec		Do  not	execute	any commands -
						useful for checking the	syntax
						of scripts (ignored if	inter-
						active).
	       -p	  privileged		Set automatically if, when the
						shell  starts, the read	uid or
						gid does not match the	effec-
						tive uid or gid, respectively.
						See  Shell Startup above for a
						description   of   what	  this
						means.
	       -r	  restricted		Enable restricted mode -- this
						option	can  only be used when
						the  shell  is	invoked.   See
						Shell  Startup above for a de-
						scription of what this means.
	       -s	  stdin			If used	when the shell is  in-
						voked,	commands are read from
						standard input.	 Set automati-
						cally if the shell is  invoked
						with no	arguments.

						When  -s  is  used  in the set
						command, it causes the	speci-
						fied  arguments	 to  be	sorted
						before assigning them  to  the
						positional  parameters	(or to
						array name, if -A is used).
	       -u	  nounset		Referencing of an unset	 para-
						meter  is treated as an	error,
						unless one of the -,  +	 or  =
						modifiers is used.
	       -v	  verbose		Write  shell input to standard
						error as it is read.
	       -x	  xtrace		Print commands	and  parameter
						assignments when they are exe-
						cuted,	preceded  by the value
						of PS4.
	       -X	  markdirs		Mark directories with a	trail-
						ing / during file name genera-
						tion.
			  bgnice		Background jobs	are  run  with
						lower priority.
			  braceexpand		Enable	brace  expansion (aka,
						alternation).
			  emacs			Enable BRL emacs-like  command
						line	editing	  (interactive
						shells only); see Emacs	 Edit-
						ing Mode.
			  gmacs			Enable	 gmacs-like   (Gosling
						emacs)	command	 line  editing
						(interactive   shells	only);
						currently identical  to	 emacs
						editing	 except	that transpose
						(^T)  acts  slightly   differ-
						ently.
			  ignoreeof		The  shell  will  not (easily)
						exit on	 when  end-of-file  is
						read,  exit  must be used.  To
						avoid  infinite	  loops,   the
						shell will exit	if eof is read
						13 times in a row.
			  nohup			Do  not	kill running jobs with
						a  HUP	signal	when  a	 login
						shell  exists.	 Currently set
						by  default,  but  this	  will
						change	in  the	 future	 to be
						compatible with	 the  original
						Korn shell (which doesn't have
						this option, but does send the
						HUP signal).
			  nolog			No  effect  -  in the original
						Korn  shell,   this   prevents
						function  definitions from be-
						ing  stored  in	 the   history
						file.
			  physical		Causes the cd and pwd commands
						to  use	 `physical' (i.e., the
						filesystem's)  ..  directories
						instead	 of `logical' directo-
						ries (i.e.,  the shell handles
						.., which allows the  user  to
						be  obliveous of symlink links
						to directories).  Clear	by de-
						fault.	Note that setting this
						option	does  not  effect  the
						current	value of the PWD para-
						meter;	only  the  cd  command
						changes	PWD.  See the  cd  and
						pwd  commands  above  for more
						details.
			  posix			Enable posix mode.  See	 POSIX
						Mode above.
			  vi			Enable	vi-like	 command  line
						editing	 (interactive	shells
						only).
			  viraw			No  effect  -  in the original
						Korn shell, unless  viraw  was
						set,  the vi command line mode
						would let the  tty  driver  do
						the  work  until  ESC (^[) was
						entered.  pdksh	is  always  in
						viraw mode.
			  vi-esccomplete	In vi command line editing, do
						command	/ file name completion
						when escape (^[) is entered in
						command	mode.
			  vi-show8		Prefix	 characters  with  the
						eighth bit set with `M-'.   If
						this  option is	not set, char-
						acters in  the	range  128-160
						are  printed  as is, which may
						cause problems.
			  vi-tabcomplete	In vi command line editing, do
						command	/ file name completion
						when tab (^I)  is  entered  in
						insert mode.

	      These  options  can  also	 be used upon invocation of the	shell.
	      The current set of options (with single  letter  names)  can  be
	      found  in	the parameter -.  set -o with no option	name will list
	      all the options and whether each is on or	off; set +o will print
	      the long names of	all options that are currently on.

	      Remaining	arguments, if any, are positional parameters  and  are
	      assigned,	 in  order,  to	the positional parameters (i.e., 1, 2,
	      etc.).  If options are ended with	-- and there are no  remaining
	      arguments, all positional	parameters are cleared.	 If no options
	      or  arguments  are  given,  then	the  values  of	 all names are
	      printed.	For unknown historical reasons,	a  lone	 -  option  is
	      treated specially: it clears both	the -x and -v options.

       shift [number]
	      The positional parameters	number+1, number+2 etc.	are renamed to
	      1, 2, etc.  number defaults to 1.

       test expression

       [ expression ]
	      test  evaluates  the expression and returns zero status if true,
	      and 1 status if false and	greater	than 1 if there	was an	error.
	      It  is  normally	used  as the condition command of if and while
	      statements.  The following basic expressions are available:

	       str		    str	 has  non-zero	 length.
				    Note  that	there is the po-
				    tential for	problems if  str
				    turns  out to be an	operator
				    (e.g., -r) - it is generally
				    better to use a test like
						  [ X"str" !=  X
						  ]
					   instead	 (double
					   quotes  are	used  in
					   case	  str	contains
					   spaces or file  glob-
					   ing characters).
	       -r file		    file exists	and is readable.
	       -w file		    file exists	and is writable.
	       -x file		    file   exists  and	is  exe-
				    cutable.
	       -a file		    file exists.
	       -e file		    file exists.
	       -f file		    file is a regular file.
	       -d file		    file is a directory.
	       -c file		    file is a character	 special
				    device.
	       -b file		    file  is a block special de-
				    vice.
	       -p file		    file is a named pipe.
	       -u file		    file's mode	has  setuid  bit
				    set.
	       -g file		    file's  mode  has setgid bit
				    set.
	       -k file		    file's mode	has  sticky  bit
				    set.
	       -s file		    file is not	empty.
	       -O file		    file's  owner is the shell's
				    effective user-ID.
	       -G file		    file's group is the	 shell's
				    effective group-ID.
	       -h file		    file is a symbolic link.
	       -H file		    file  is a context dependent
				    directory  (only  useful  on
				    HP-UX).
	       -L file		    file is a symbolic link.
	       -S file		    file is a socket.
	       -o option	    shell option is set	(see set
				    command  above  for	 list of
				    options).  As a non-standard
				    extension,	if  the	  option
				    starts with	a !, the test is
				    negated;   the  test  always
				    fails if option doesn't  ex-
				    ist	(thus
						  [ -o foo -o -o
						  !foo ]
					   returns  true  if and
					   only	 if  option  foo
					   exists).
	       file -nt	file	    first  file	 is  newer  than
				    second file	 or  first  file
				    exists  and	 the second file
				    does not.
	       file -ot	file	    first  file	 is  older  than
				    second  file  or second file
				    exists and	the  first  file
				    does not.
	       file -ef	file	    first  file	is the same file
				    as second file.
	       -t [fd]		    file descriptor is a tty de-
				    vice.  If the  posix  option
				    (set  -o  posix,  see  POSIX
				    Mode above)	is not	set,  fd
				    may	 be  left  out,	in which
				    case it is	taken  to  be  1
				    (the  behaviour  differs due
				    to the special  POSIX  rules
				    described below).
	       string		    string is not empty.
	       -z string	    string is empty.
	       -n string	    string is not empty.
	       string =	string	    strings are	equal.
	       string == string	    strings are	equal.
	       string != string	    strings are	not equal.
	       number -eq number    numbers compare equal.
	       number -ne number    numbers compare not	equal.
	       number -ge number    numbers compare greater than
				    or equal.
	       number -gt number    numbers    compare	 greater
				    than.
	       number -le number    numbers compare less than or
				    equal.
	       number -lt number    numbers compare less than.

	      The above	basic  expressions,  in	 which	unary  operators  have
	      precedence  over binary operators, may be	combined with the fol-
	      lowing operators (listed in increasing order of precedence):

	       expr -o expr    logical or
	       expr -a expr    logical and
	       ! expr	       logical not
	       ( expr )	       grouping

	      On operating systems not supporting /dev/fd/n devices  (where  n
	      is  a  file descriptor number), the test command will attempt to
	      fake it for all tests that  operate  on  files  (except  the  -e
	      test).   I.e.,  [	 -w  /dev/fd/2 ] tests if file descriptor 2 is
	      writable.

	      Note that	some special rules are applied (courtesy of POSIX)  if
	      the number of arguments to test or [ ... ] is less than five: if
	      leading  ! arguments can be stripped such	that only one argument
	      remains then a string length test	is performed (again,  even  if
	      the argument is a	unary operator); if leading ! arguments	can be
	      stripped	such  that three arguments remain and the second argu-
	      ment is a	binary operator, then the  binary  operation  is  per-
	      formed (even if first argument is	a unary	operator, including an
	      unstripped !).

	      Note:  A	common mistake is to use if [ $foo = bar ] which fails
	      if parameter foo is null or unset, if  it	 has  embedded	spaces
	      (i.e.,  IFS  characters),	or if it is a unary operator like ! or
	      -n.  Use tests like if [ "X$foo" = Xbar ]	instead.

       time [-p] [ pipeline ]
	      If a pipeline is given, the times	used to	execute	 the  pipeline
	      are reported.  If	no pipeline is given, then the user and	system
	      time  used  by the shell itself, and all the commands it has run
	      since it was started, are	reported.  The times reported are  the
	      real time	(elapsed time from start to finish), the user cpu time
	      (time  spent running in user mode) and the system	cpu time (time
	      spent running in kernel mode).  Times are	reported  to  standard
	      error; the format	of the output is:
		  0.00s	real	 0.00s user	0.00s system
	      unless  the  -p  option is given (only possible if pipeline is a
	      simple command), in which	case the output	is slightly longer:
		  real	 0.00
		  user	 0.00
		  sys	 0.00
	      (the number of digits after the decimal may vary from system  to
	      system).	Note that simple redirections of standard error	do not
	      effect the output	of the time command:
				   time	sleep 1	2> afile
				 { time	sleep 1; } 2> afile
	      times for	the first command do not go to afile, but those	of the
	      second command do.

       times  Print  the  accumulated  user and	system times used by the shell
	      and by processes which have exited that the shell	started.

       trap [handler signal ...]
	      Sets trap	handler	that is	to be executed when any	of the	speci-
	      fied signals are received.  Handler is either a null string, in-
	      dicating	the signals are	to be ignored, a minus (-), indicating
	      that the default action is to be taken for the signals (see sig-
	      nal(2 or 3)), or a string	containing shell commands to be	evalu-
	      ated and executed	at the first opportunity (i.e.,	when the  cur-
	      rent  command completes, or before printing the next PS1 prompt)
	      after receipt of one of the signals.  Signal is the  name	 of  a
	      signal  (e.g.,  PIPE  or	ALRM) or the number of the signal (see
	      kill -l command above).  There are  two  special	signals:  EXIT
	      (also  known as 0), which	is executed when the shell is about to
	      exit, and	ERR which is executed after an error occurs (an	 error
	      is something that	would cause the	shell to exit if the -e	or er-
	      rexit  option were set --	see set	command	above).	 EXIT handlers
	      are executed in the environment of the  last  executed  command.
	      Note that	for non-interactive shells, the	trap handler cannot be
	      changed for signals that were ignored when the shell started.

	      With no arguments, trap lists, as	a series of trap commands, the
	      current  state  of  the traps that have been set since the shell
	      started.	Note that the output of	trap can not be	usefully piped
	      to another process (an artifact  of  the	fact  that  traps  are
	      cleared when subprocesses	are created).

	      The original Korn	shell's	DEBUG trap and the handling of ERR and
	      EXIT traps in functions are not yet implemented.

       true   A	command	that exits with	a zero value.

       typeset [[+-Ulprtux] [-L[n]] [-R[n]] [-Z[n]] [-i[n]] | -f [-tux]]
       [name[=value] ...]
	      Display  or  set	parameter attributes.  With no name arguments,
	      parameter	attributes are displayed: if no	options	arg used,  the
	      current attributes of all	parameters are printed as typeset com-
	      mands;  if  an  option is	given (or - with no option letter) all
	      parameters and their values with the  specified  attributes  are
	      printed;	if options are introduced with +, parameter values are
	      not printed.

	      If name arguments	are given, the attributes of the named parame-
	      ters are set (-) or cleared (+).	Values for parameters may  op-
	      tionally	be  specified.	 If typeset is used inside a function,
	      any newly	created	parameters are local to	the function.

	      When -f is used, typeset operates	on  the	 attributes  of	 func-
	      tions.  As with parameters, if no	names are given, functions are
	      listed  with their values	(i.e., definitions) unless options are
	      introduced with +, in which case only the	function names are re-
	      ported.

	       -Ln		 Left justify attribute: n specifies the field
				 width.	 If n is not  specified,  the  current
				 width	of  a  parameter  (or the width	of its
				 first assigned	value) is used.	 Leading white
				 space (and zeros, if used with	the -Z option)
				 is stripped.  If necessary, values are	either
				 truncated or space padded to  fit  the	 field
				 width.
	       -Rn		 Right	justify	 attribute:  n	specifies  the
				 field width.  If n is not specified, the cur-
				 rent width of a parameter (or	the  width  of
				 its  first assigned value) is used.  Trailing
				 white space are stripped.  If necessary, val-
				 ues are either	stripped of leading characters
				 or space padded to make them  fit  the	 field
				 width.
	       -Zn		 Zero fill attribute: if not combined with -L,
				 this  is  the same as -R, except zero padding
				 is used instead of space padding.
	       -in		 integer attribute: n specifies	 the  base  to
				 use when displaying the integer (if not spec-
				 ified,	the base given in the first assignment
				 is used).  Parameters with this attribute may
				 be  assigned values containing	arithmetic ex-
				 pressions.
	       -U		 unsigned  integer  attribute:	integers   are
				 printed  as unsigned values (only useful when
				 combined with the -i option).	This option is
				 not in	the original Korn shell.
	       -f		 Function mode:	display	or set	functions  and
				 their attributes, instead of parameters.
	       -l		 Lower case attribute: all  upper case charac-
				 ters  in  values are converted	to lower case.
				 (In the original Korn shell,  this  parameter
				 meant	`long  integer'	 when used with	the -i
				 option).
	       -p		 Print complete	typeset	commands that  can  be
				 used to re-create the attributes (but not the
				 values)  of  parameters.  This	is the default
				 action	(option	exists for  ksh93  compatabil-
				 ity).
	       -r		 Readonly  attribute: parameters with the this
				 attribute may not be assigned	to  or	unset.
				 Once  this  attribute	is  set, it can	not be
				 turned	off.
	       -t		 Tag attribute:	has no meaning to  the	shell;
				 provided for application use.

				 For  functions,  -t  is  the trace attribute.
				 When functions	with the trace	attribute  are
				 executed,  the	 xtrace	 (-x)  shell option is
				 temporarily turned on.
	       -u		 Upper case attribute: all lower case  charac-
				 ters  in  values are converted	to upper case.
				 (In the original Korn shell,  this  parameter
				 meant	`unsigned  integer' when used with the
				 -i option, which  meant  upper	 case  letters
				 would	never  be  used	for bases greater than
				 10.  See the -U option).

				 For functions,	-u is the undefined attribute.
				 See Functions above for the  implications  of
				 this.
	       -x		 Export	 attribute:  parameters	(or functions)
				 are placed in the environment of any executed
				 commands.  Exported functions are not	imple-
				 mented	yet.

       ulimit [-acdfHlmnpsStvw]	[value]
	      Display or set process limits.  If no options are	used, the file
	      size  limit (-f) is assumed.  value, if specified, may be	either
	      be an arithmetic expression or the word unlimited.   The	limits
	      affect  the shell	and any	processes created by the shell after a
	      limit is imposed.	 Note that some	systems	may not	 allow	limits
	      to  be increased once they are set.  Also	note that the types of
	      limits available are system dependent - some systems  have  only
	      the -f limit.

	      -a     Displays  all  limits; unless -H is used, soft limits are
		     displayed.

	      -H     Set the hard limit	only (default is to set	both hard  and
		     soft limits).

	      -S     Set  the soft limit only (default is to set both hard and
		     soft limits).

	      -c     Impose a size limit of n  blocks  on  the	size  of  core
		     dumps.

	      -d     Impose  a	size limit of n	kbytes on the size of the data
		     area.

	      -f     Impose a size limit of n blocks on	files written  by  the
		     shell  and	 its child processes (files of any size	may be
		     read).

	      -l     Impose a limit of	n  kbytes  on  the  amount  of	locked
		     (wired) physical memory.

	      -m     Impose a limit of n kbytes	on the amount of physical mem-
		     ory used.

	      -n     Impose  a limit of	n file descriptors that	can be open at
		     once.

	      -p     Impose a limit of n processes that	can be run by the user
		     at	any one	time.

	      -s     Impose a size limit of n kbytes on	the size of the	 stack
		     area.

	      -t     Impose  a	time limit of n	cpu seconds to be used by each
		     process.

	      -v     Impose a limit of n kbytes	on the amount of virtual  mem-
		     ory  used;	 on some systems this is the maximum allowable
		     virtual address (in bytes,	not kbytes).

	      -w     Impose a limit of n kbytes	on the amount  of  swap	 space
		     used.

	      As far as	ulimit is concerned, a block is	512 bytes.

       umask [-S] [mask]
	      Display  or set the file permission creation mask, or umask (see
	      umask(2)).  If the -S option is used, the	mask displayed or  set
	      is symbolic, otherwise it	is an octal number.

	      Symbolic masks are like those used by chmod(1):
		     [ugoa]{{=+-}{rwx}*}+[,...]
	      in which the first group of characters is	the who	part, the sec-
	      ond  group  is the op part, and the last group is	the perm part.
	      The who part specifies which part	of the umask is	 to  be	 modi-
	      fied.  The letters mean:

		     u	    the	user permissions

		     g	    the	group permissions

		     o	    the	other permissions (non-user, non-group)

		     a	    all	permissions (user, group and other)

	      The  op  part  indicates how the who permissions are to be modi-
	      fied:

		     =	    set

		     +	    added to

		     -	    removed from

	      The perm part specifies which permissions	are to be  set,	 added
	      or removed:

		     r	    read permission

		     w	    write permission

		     x	    execute permission

	      When symbolic masks are used, they describe what permissions may
	      be  made available (as opposed to	octal masks in which a set bit
	      means  the  corresponding	 bit  is  to  be  cleared).   Example:
	      `ug=rwx,o='  sets	 the  mask  so	files  will  not  be readable,
	      writable or executable by	`others', and is equivalent  (on  most
	      systems) to the octal mask `07'.

       unalias [-adt] [name1 ...]
	      The  aliases  for	the given names	are removed.  If the -a	option
	      is used, all aliases are removed.	 If the	-t or -d  options  are
	      used, the	indicated operations are carried out on	tracked	or di-
	      rectory aliases, respectively.

       unset [-fv] parameter ...
	      Unset  the named parameters (-v, the default) or functions (-f).
	      The exit status is non-zero if any of the	 parameters  were  al-
	      ready unset, zero	otherwise.

       wait [job]
	      Wait  for	 the  specified	 job(s)	to finish.  The	exit status of
	      wait is that of the last specified  job:	if  the	 last  job  is
	      killed  by  a signal, the	exit status is 128 + the number	of the
	      signal (see kill -l exit-status above); if  the  last  specified
	      job  can't  be  found  (because it never existed,	or had already
	      finished), the exit status of wait is 127.  See Job Control  be-
	      low  for	the  format  of	job.  Wait will	return if a signal for
	      which a trap has been set	is received, or	if a HUP, INT or  QUIT
	      signal is	received.

	      If  no  jobs are specified, wait waits for all currently running
	      jobs (if any) to finish and exits	with a zero  status.   If  job
	      monitoring  is enabled, the completion status of jobs is printed
	      (this is not the case when jobs are explicitly specified).

       whence [-pv] [name ...]
	      For each name, the type of command  is  listed  (reserved	 word,
	      built-in,	alias, function, tracked alias or executable).	If the
	      -p option	is used, a path	search done even if name is a reserved
	      word,  alias,  etc.  Without the -v option, whence is similar to
	      command -v except	that whence will find reserved words and won't
	      print aliases as alias commands; with the	-v option,  whence  is
	      the  same	 as  command  -V.  Note	that for whence, the -p	option
	      does not affect the search path used, as it  does	 for  command.
	      If the type of one or more of the	names could not	be determined,
	      the exit status is non-zero.

   Job Control
       Job  control refers to the shell's ability to monitor and control jobs,
       which are processes or groups of	 processes  created  for  commands  or
       pipelines.   At	a  minimum, the	shell keeps track of the status	of the
       background (i.e., asynchronous) jobs that currently exist; this	infor-
       mation  can  be	displayed  using  the jobs command.  If	job control is
       fully enabled (using set	-m or set -o monitor), as it is	 for  interac-
       tive  shells,  the  processes  of a job are placed in their own process
       group, foreground jobs can be stopped by	typing the  suspend  character
       from  the  terminal  (normally ^Z), jobs	can be restarted in either the
       foreground or background, using the fg and bg  commands,	 respectively,
       and  the	 state	of the terminal	is saved or restored when a foreground
       job is stopped or restarted, respectively.

       Note that only commands that create processes (e.g., asynchronous  com-
       mands,  subshell	commands, and non-built-in, non-function commands) can
       be stopped; commands like read cannot be.

       When a job is created, it is assigned a	job-number.   For  interactive
       shells, this number is printed inside [..], followed by the process-ids
       of the processes	in the job when	an asynchronous	command	is run.	 A job
       may  be	referred  to in	bg, fg,	jobs, kill and wait commands either by
       the process id of the last process in the command pipeline  (as	stored
       in the $! parameter) or by prefixing the	job-number with	a percent sign
       (%).  Other percent sequences can also be used to refer to jobs:

	%+			 The  most  recently stopped job, or, if there
				 are no	stopped	jobs, the oldest running job.
	%%, %			 Same as %+.
	%-			 The job that would be	the  %+	 job,  if  the
				 later did not exist.
	%n			 The job with job-number n.
	%?string		 The  job containing the string	string (an er-
				 ror occurs if multiple	jobs are matched).
	%string			 The job starting with string string (an error
				 occurs	if multiple jobs are matched).

       When a job changes state	(e.g., a background job	finishes or foreground
       job is stopped),	the shell prints the following status information:
	      [number] flag status command
       where

	number
	      is the job-number	of the job.

	flag  is + or -	if the job is the %+ or	%- job,	respectively, or space
	      if it is neither.

	status
	      indicates	the current state of the job and can be

	      Running
		     the job has neither stopped or exited (note that  running
		     does  not	necessarily  mean  consuming  CPU  time	-- the
		     process could be blocked waiting for some event).

	      Done [(number)]
		     the job exited. number is the exit	 status	 of  the  job,
		     which is omitted if the status is zero.

	      Stopped [(signal)]
		     the job was stopped by the	indicated signal (if no	signal
		     is	given, the job was stopped by SIGTSTP).

	      signal-description [(core	dumped)]
		     the  job  was  killed  by	a  signal (e.g., Memory	fault,
		     Hangup, etc. -- use kill -l for a list of signal descrip-
		     tions).  The (core	dumped)	message	indicates the  process
		     created a core file.

	command
	      is  the command that created the process.	 If there are multiple
	      processes	in the job, then each process will have	a line showing
	      its command and possibly its status, if it is different from the
	      status of	the previous process.

       When an attempt is made to exit the shell while there are jobs  in  the
       stopped state, the shell	warns the user that there are stopped jobs and
       does  not  exit.	  If  another  attempt is immediately made to exit the
       shell, the stopped jobs are sent	a HUP  signal  and  the	 shell	exits.
       Similarly,  if  the  nohup option is not	set and	there are running jobs
       when an attempt is made to exit a login shell, the shell	warns the user
       and does	not exit.  If another attempt is immediately made to exit  the
       shell, the running jobs are sent	a HUP signal and the shell exits.

   Interactive Input Line Editing
       The  shell  supports three modes	of reading command lines from a	tty in
       an interactive session.	Which is used  is  controlled  by  the	emacs,
       gmacs and vi set	options	(at most one of	these can be set at once).  If
       none  of	 these	options	is enabled, the	shell simply reads lines using
       the normal tty driver.  If the emacs or gmacs option is set, the	 shell
       allows  emacs  like editing of the command; similarly, if the vi	option
       is set, the shell allows	vi like	editing	of the command.	  These	 modes
       are described in	detail in the following	sections.

       In  these editing modes,	if a line is longer that the screen width (see
       COLUMNS parameter), a >,	+ or < character is displayed in the last col-
       umn indicating that there are more characters after, before and	after,
       or  before  the	current	 position, respectively.  The line is scrolled
       horizontally as necessary.

   Emacs Editing Mode
       When the	emacs option is	set, interactive input	line  editing  is  en-
       abled.  Warning:	This mode is slightly different	from the emacs mode in
       the  original Korn shell	and the	8th bit	is stripped in emacs mode.  In
       this mode various editing commands (typically bound to one or more con-
       trol characters)	cause immediate	actions	without	 waiting  for  a  new-
       line.  Several editing commands are bound to particular control charac-
       ters when the shell is invoked; these bindings can be changed using the
       following commands:

       bind   The current bindings are listed.

       bind string=[editing-command]
	      The  specified  editing  command	is  bound to the given string,
	      which should consist of a	control	character (which may be	 writ-
	      ten  using caret notation	^X), optionally	preceded by one	of the
	      two prefix characters.  Future input of the  string  will	 cause
	      the  editing  command  to	be immediately invoked.	 Note that al-
	      though only two prefix characters	(usually ESC and ^X) are  sup-
	      ported,  some  multi-character  sequences	can be supported.  The
	      following	binds the arrow	keys on	an  ANSI  terminal,  or	 xterm
	      (these  are in the default bindings).  Of	course some escape se-
	      quences won't work out quite this	nicely:

	      bind '^[['=prefix-2
	      bind '^XA'=up-history
	      bind '^XB'=down-history
	      bind '^XC'=forward-char
	      bind '^XD'=backward-char

       bind -l
	      Lists the	names of the functions to which	keys may be bound.

       bind -m string=[substitute]
	      The specified input string will afterwards  be  immediately  re-
	      placed by	the given substitute string, which may contain editing
	      commands.

       The  following  is a list of editing commands available.	 Each descrip-
       tion starts with	the name of the	command, a n, if the  command  can  be
       prefixed	 with a	count, and any keys the	command	is bound to by default
       (written	using caret notation, e.g., ASCII ESC character	is written  as
       ^[).   A	 count prefix for a command is entered using the sequence ^[n,
       where n is a sequence of	1 or more digits; unless otherwise  specified,
       if  a  count  is	 omitted, it defaults to 1.  Note that editing command
       names are used only with	the bind command.  Furthermore,	 many  editing
       commands	 are  useful only on terminals with a visible cursor.  The de-
       fault bindings were chosen to resemble corresponding  EMACS  key	 bind-
       ings.   The  users tty characters (e.g.,	ERASE) are bound to reasonable
       substitutes and override	the default bindings.

       abort ^G
	      Useful as	a response to a	request	for a  search-history  pattern
	      in order to abort	the search.

       auto-insert n
	      Simply  causes  the  character to	appear as literal input.  Most
	      ordinary characters are bound to this.

       backward-char  n	^B
	      Moves the	cursor backward	n characters.

       backward-word  n	^[B
	      Moves the	cursor backward	to the beginning of a word; words con-
	      sist of alphanumerics, underscore	(_) and	dollar ($).

       beginning-of-history ^[<
	      Moves to the beginning of	the history.

       beginning-of-line ^A
	      Moves the	cursor to the beginning	of the edited input line.

       capitalize-word n ^[c, ^[C
	      Uppercase	the first character in the next	n words,  leaving  the
	      cursor  past the end of the last word.  If the current line does
	      not begin	with a comment character, one is added at  the	begin-
	      ning  of the line	and the	line is	entered	(as if return had been
	      pressed),	otherwise the existing comment characters are  removed
	      and the cursor is	placed at the beginning	of the line.

       complete	^[^[
	      Automatically completes as much as is unique of the command name
	      or the file name containing the cursor.  If the entire remaining
	      command or file name is unique a space is	printed	after its com-
	      pletion,	unless	it  is a directory name	in which case /	is ap-
	      pended.  If there	is no command or file name  with  the  current
	      partial  word as its prefix, a bell character is output (usually
	      causing a	audio beep).

       complete-command	^X^[
	      Automatically completes as much as is unique of the command name
	      having the partial word up to the	cursor as its  prefix,	as  in
	      the complete command described above.

       complete-file ^[^X
	      Automatically  completes	as  much as is unique of the file name
	      having the partial word up to the	cursor as its  prefix,	as  in
	      the complete command described above.

       complete-list ^[=
	      List the possible	completions for	the current word.

       delete-char-backward n ERASE, ^?, ^H
	      Deletes n	characters before the cursor.

       delete-char-forward n
	      Deletes n	characters after the cursor.

       delete-word-backward n ^[ERASE, ^[^?, ^[^H, ^[h
	      Deletes n	words before the cursor.

       delete-word-forward n ^[d
	      Deletes characters after the cursor up to	the end	of n words.

       down-history n ^N
	      Scrolls  the history buffer forward n lines (later).  Each input
	      line originally starts just after	the last entry in the  history
	      buffer,  so  down-history	is not useful until either search-his-
	      tory or up-history has been performed.

       downcase-word n ^[L, ^[l
	      Lowercases the next n words.

       end-of-history ^[>
	      Moves to the end of the history.

       end-of-line ^E
	      Moves the	cursor to the end of the input line.

       eot ^_ Acts as an end-of-file; this is useful because  edit-mode	 input
	      disables normal terminal input canonicalization.

       eot-or-delete n ^D
	      Acts  as	eot if alone on	a line;	otherwise acts as delete-char-
	      forward.

       error  Error (ring the bell).

       exchange-point-and-mark ^X^X
	      Places the cursor	where the mark is, and sets the	mark to	 where
	      the cursor was.

       expand-file ^[*
	      Appends  a  * to the current word	and replaces the word with the
	      result of	performing file	globbing on the	 word.	 If  no	 files
	      match the	pattern, the bell is rung.

       forward-char n ^F
	      Moves the	cursor forward n characters.

       forward-word n ^[f
	      Moves the	cursor forward to the end of the nth word.

       goto-history n ^[g
	      Goes to history number n.

       kill-line KILL
	      Deletes the entire input line.

       kill-region ^W
	      Deletes the input	between	the cursor and the mark.

       kill-to-eol n ^K
	      Deletes the input	from the cursor	to the end of the line if n is
	      not  specified,  otherwise deletes characters between the	cursor
	      and column n.

       list ^[?
	      Prints a sorted, columnated list of command names	or file	 names
	      (if  any)	that can complete the partial word containing the cur-
	      sor.  Directory names have / appended to them.

       list-command ^X?
	      Prints a sorted, columnated list of command names	(if any)  that
	      can complete the partial word containing the cursor.

       list-file ^X^Y
	      Prints a sorted, columnated list of file names (if any) that can
	      complete	the partial word containing the	cursor.	 File type in-
	      dicators are appended as described under list above.

       newline ^J, ^M
	      Causes the current input line to be processed by the shell.  The
	      current cursor position may be anywhere on the line.

       newline-and-next	^O
	      Causes the current input line to be processed by the shell,  and
	      the  next	 line  from history becomes the	current	line.  This is
	      only useful after	an up-history or search-history.

       no-op QUIT
	      This does	nothing.

       prefix-1	^[
	      Introduces a 2-character command sequence.

       prefix-2	^X

       prefix-2	^[[
	      Introduces a 2-character command sequence.

       prev-hist-word n	^[., ^[_
	      The last (nth) word of the previous command is inserted  at  the
	      cursor.

       quote ^^
	      The  following  character	 is  taken literally rather than as an
	      editing command.

       redraw ^L
	      Reprints the prompt string and the current input line.

       search-character-backward n ^[^]
	      Search backward in the current line for the nth occurance	of the
	      next character typed.

       search-character-forward	n ^]
	      Search forward in	the current line for the nth occurance of  the
	      next character typed.

       search-history ^R
	      Enter  incremental  search  mode.	  The internal history list is
	      searched backwards for commands matching the input.  An  initial
	      ^	 in  the search	string anchors the search.  The	abort key will
	      leave search mode.  Other	commands will be executed after	 leav-
	      ing  search  mode.   Successive search-history commands continue
	      searching	backward to the	next previous occurrence of  the  pat-
	      tern.  The history buffer	retains	only a finite number of	lines;
	      the oldest are discarded as necessary.

       set-mark-command	^[<space>
	      Set the mark at the cursor position.

       stuff  On  systems  supporting it, pushes the bound character back onto
	      the terminal input where it may receive  special	processing  by
	      the terminal handler.  This is useful for	the BRL	^T mini-systat
	      feature, for example.

       stuff-reset
	      Acts like	stuff, then aborts input the same as an	interrupt.

       transpose-chars ^T
	      If  at  the end of line, or if the gmacs option is set, this ex-
	      changes the two previous characters; otherwise, it exchanges the
	      previous and current characters and moves	the cursor one charac-
	      ter to the right.

       up-history n ^P
	      Scrolls the history buffer backward n lines (earlier).

       upcase-word n ^[U, ^[u
	      Uppercases the next n words.

       version ^V
	      Display the version of ksh.  The current edit buffer is restored
	      as soon as any key is pressed (the key is	then processed,	unless
	      it is a space).

       yank ^Y
	      Inserts the most recently	killed text string at the current cur-
	      sor position.

       yank-pop	^[y
	      Immediately after	a yank,	replaces the inserted text string with
	      the next previous	killed text string.

   Vi Editing Mode
       The vi command line editor in ksh has basically the  same  commands  as
       the vi editor (see vi(1)), with the following exceptions:

	 •    you start	out in insert mode,

	 •    there  are  file	name and command completion commands (=, \, *,
	      ^X, ^E, ^F and, optionally, <tab>),

	 •    the _ command is different (in ksh it is the last	argument  com-
	      mand, in vi it goes to the start of the current line),

	 •    the  /  and  G  commands move in the opposite direction as the j
	      command

	 •    and commands which don't make sense in a single line editor  are
	      not  available  (e.g.,  screen movement commands,	ex : commands,
	      etc.).

       Note that the ^X	stands for control-X; also <esc>,  <space>  and	 <tab>
       are used	for escape, space and tab, respectively	(no kidding).

       Like  vi, there are two modes: insert mode and command mode.  In	insert
       mode, most characters are simply	put in the buffer at the current  cur-
       sor  position  as  they are typed, however, some	characters are treated
       specially.  In particular, the following	characters are taken from cur-
       rent tty	settings (see stty(1)) and have	their  usual  meaning  (normal
       values  are  in	parentheses):  kill (^U), erase	(^?), werase (^W), eof
       (^D), intr (^C) and quit	(^\).  In addition to the above, the following
       characters are also treated specially in	insert mode:
	^H			 erases	previous character
	^V			 literal next: the next	character typed	is not
				 treated specially (can	be used	to insert  the
				 characters being described here)
	^J ^M			 end of	line: the current line is read,	parsed
				 and executed by the shell
	<esc>			 puts the editor in command mode (see below)
	^E			 command and file name enumeration (see	below)
	^F			 command and file name completion (see below).
				 If  used twice	in a row, the list of possible
				 completions is	displayed;  if	used  a	 third
				 time, the completion is undone.
	^X			 command and file name expansion (see below)
	<tab>			 optional  file	 name  and  command completion
				 (see ^F above), enabled with set  -o  vi-tab-
				 complete

       In  command  mode, each character is interpreted	as a command.  Charac-
       ters that don't correspond to commands,	are  illegal  combinations  of
       commands	or are commands	that can't be carried out all cause beeps.  In
       the  following  command	descriptions, a	n indicates the	command	may be
       prefixed	by a number (e.g., 10l moves right 10 characters); if no  num-
       ber  prefix  is	used, n	is assumed to be 1 unless otherwise specified.
       The term	`current position' refers to the position between  the	cursor
       and the character preceding the cursor.	A `word' is a sequence of let-
       ters,  digits  and  underscore  characters or a sequence	of non-letter,
       non-digit, non-underscore,  non-white-space  characters	(e.g.,	ab2*&^
       contains	 two  words) and a `big-word' is a sequence of non-white-space
       characters.

       Special ksh vi commands
	      The following commands are not in, or are	 different  from,  the
	      normal vi	file editor:

	      n_     insert a space followed by	the nth	big-word from the last
		     command  in the history at	the current position and enter
		     insert mode; if n is not specified, the last word is  in-
		     serted.

	      #	     insert the	comment	character (#) at the start of the cur-
		     rent line and return the line to the shell	(equivalent to
		     I#^J).

	      ng     like G, except if n is not	specified, it goes to the most
		     recent remembered line.

	      nv     edit  line	 n using the vi	editor;	if n is	not specified,
		     the current line is edited.  The actual command  executed
		     is	`fc -e ${VISUAL:-${EDITOR:-vi}}	n'.

	      *	and ^X
		     command  or file name expansion is	applied	to the current
		     big-word (with an appended	*, if  the  word  contains  no
		     file  globing characters) - the big-word is replaced with
		     the resulting words.  If  the  current  big-word  is  the
		     first  on the line	(or follows one	of the following char-
		     acters: ;,	|, &, (, )) and	does not contain a  slash  (/)
		     then  command  expansion is done, otherwise file name ex-
		     pansion is	done.  Command expansion will match  the  big-
		     word against all aliases, functions and built-in commands
		     as	 well  as  any executable files	found by searching the
		     directories in the	PATH parameter.	 File  name  expansion
		     matches the big-word against the files in the current di-
		     rectory.  After expansion,	the cursor is placed just past
		     the last word and the editor is in	insert mode.

	      n\, n^F, n<tab> and n<esc>
		     command/file  name	 completion:  replace the current big-
		     word with the longest unique match	 obtained  after  per-
		     forming  command/file name	expansion.  <tab> is only rec-
		     ognized if	the vi-tabcomplete option is set, while	 <esc>
		     is	 only  recognized  if the vi-esccomplete option	is set
		     (see set -o).  If n is specified, the nth	possible  com-
		     pletion is	selected (as reported by the command/file name
		     enumeration command).

	      =	and ^E
		     command/file  name	 enumeration: list all the commands or
		     files that	match the current big-word.

	      ^V     display the version of pdksh; it is displayed  until  an-
		     other key is pressed (this	key is ignored).

	      @c     macro  expansion: execute the commands found in the alias
		     _c.

       Intra-line movement commands

	      nh and n^H
		     move left n characters.

	      nl and n<space>
		     move right	n characters.

	      0	     move to column 0.

	      ^	     move to the first non white-space character.

	      n|     move to column n.

	      $	     move to the last character.

	      nb     move back n words.

	      nB     move back n big-words.

	      ne     move forward to the end the word, n times.

	      nE     move forward to the end the big-word, n times.

	      nw     move forward n words.

	      nW     move forward n big-words.

	      %	     find match: the editor  looks  forward  for  the  nearest
		     parenthesis,  bracket  or brace and then moves the	to the
		     matching parenthesis, bracket or brace.

	      nfc    move forward to the nth occurrence	of the character c.

	      nFc    move backward to the nth occurrence of the	character c.

	      ntc    move forward to just before the  nth  occurrence  of  the
		     character c.

	      nTc    move  backward  to	 just before the nth occurrence	of the
		     character c.

	      n;     repeats the last f, F, t or T command.

	      n,     repeats the last f, F, t or T command, but	moves  in  the
		     opposite direction.

       Inter-line movement commands

	      nj and n+	and n^N
		     move to the nth next line in the history.

	      nk and n-	and n^P
		     move to the nth previous line in the history.

	      nG     move to line n in the history; if n is not	specified, the
		     number first remembered line is used.

	      ng     like G, except if n is not	specified, it goes to the most
		     recent remembered line.

	      n/string
		     search backward through the history for the nth line con-
		     taining string; if	string starts with ^, the remainder of
		     the  string  must appear at the start of the history line
		     for it to match.

	      n?string
		     same as /,	except it searches forward  through  the  his-
		     tory.

	      nn     search  for the nth occurrence of the last	search string;
		     the direction of the search  is  the  same	 as  the  last
		     search.

	      nN     search  for the nth occurrence of the last	search string;
		     the direction of the search is the	opposite of  the  last
		     search.

       Edit commands

	      na     append text n times: goes into insert mode	just after the
		     current  position.	 The append is only replicated if com-
		     mand mode is re-entered (i.e., <esc> is used).

	      nA     same as a,	except it appends at the end of	the line.

	      ni     insert text n times: goes into insert mode	at the current
		     position.	The insertion is only  replicated  if  command
		     mode is re-entered	(i.e., <esc> is	used).

	      nI     same  as  i, except the insertion is done just before the
		     first non-blank character.

	      ns     substitute	the next n characters (i.e., delete the	 char-
		     acters and	go into	insert mode).

	      S	     substitute	whole line: all	characters from	the first non-
		     blank character to	the end	of line	are deleted and	insert
		     mode is entered.

	      ncmove-cmd
		     change  from the current position to the position result-
		     ing from n	move-cmds (i.e., delete	the  indicated	region
		     and  go  into  insert  mode);  if move-cmd	is c, the line
		     starting from the first non-blank character is changed.

	      C	     change from the current position to the end of  the  line
		     (i.e.,  delete  to	the end	of the line and	go into	insert
		     mode).

	      nx     delete the	next n characters.

	      nX     delete the	previous n characters.

	      D	     delete to the end of the line.

	      ndmove-cmd
		     delete from the current position to the position  result-
		     ing from n	move-cmds; move-cmd is a movement command (see
		     above) or d, in which case	the current line is deleted.

	      nrc    replace the next n	characters with	the character c.

	      nR     replace: enter insert mode	but overwrite existing charac-
		     ters  instead  of	inserting  before existing characters.
		     The replacement is	repeated n times.

	      n~     change the	case of	the next n characters.

	      nymove-cmd
		     yank from the current position to the position  resulting
		     from  n move-cmds into the	yank buffer; if	move-cmd is y,
		     the whole line is yanked.

	      Y	     yank from the current position to the end of the line.

	      np     paste the contents	of the yank buffer just	after the cur-
		     rent position, n times.

	      nP     same as p,	except the buffer is pasted at the current po-
		     sition.

       Miscellaneous vi	commands

	      ^J and ^M
		     the current line is read,	parsed	and  executed  by  the
		     shell.

	      ^L and ^R
		     redraw the	current	line.

	      n.     redo the last edit	command	n times.

	      u	     undo the last edit	command.

	      U	     undo all changes that have	been made to the current line.

	      intr and quit
		     the interrupt and quit terminal characters	cause the cur-
		     rent line to be deleted and a new prompt to be printed.

FILES
       ~/.profile
       /etc/profile
       /etc/suid_profile

BUGS
       Any  bugs  in  pdksh should be reported to pdksh@cs.mun.ca.  Please in-
       clude the version of pdksh (echo	$KSH_VERSION shows it),	 the  machine,
       operating system	and compiler you are using and a description of	how to
       repeat  the  bug	 (a  small  shell  script that demonstrates the	bug is
       best).  The following, if relevant (if you are not sure,	include	them),
       can also	helpful: options you are using (both options.h options and set
       -o options) and a copy of your config.h (the file generated by the con-
       figure  script).	  New  versions	 of  pdksh  can	  be   obtained	  from
       ftp://ftp.cs.mun.ca/pub/pdksh/.

       BTW, the	most frequently	reported bug is
	       echo hi | read a; echo $a   # Does not print hi
       I'm aware of this and there is no need to report	it.

VERSION
       This page documents version
			    @(#)PD KSH v5.2.14 99/07/13.2
       of the public domain korn shell.

AUTHORS
       This shell is based on the public domain	7th edition Bourne shell clone
       by  Charles  Forsyth  and  parts	of the BRL shell by Doug A. Gwyn, Doug
       Kingston, Ron Natalie, Arnold Robbins, Lou  Salkind  and	 others.   The
       first  release  of  pdksh  was created by Eric Gisin, and it was	subse-
       quently maintained by John R.  MacMillan	 (chance!john@sq.sq.com),  and
       Simon  J.  Gerraty  (sjg@zen.void.oz.au).   The	current	 maintainer is
       Michael Rendell (michael@cs.mun.ca).   The  CONTRIBUTORS	 file  in  the
       source  distribution  contains a	more complete list of people and their
       part in the shell's development.

SEE ALSO
       awk(1), sh(1), csh(1), ed(1), getconf(1), getopt(1),  sed(1),  stty(1),
       vi(1),  dup(2),	execve(2),  getgid(2),	getuid(2),  open(2),  pipe(2),
       wait(2),	getopt(3), rand(3), signal(3), system(3), environ(5)

       The KornShell Command and Programming Language, Morris Bolsky and David
       Korn, 1989, ISBN	0-13-516972-0.

       UNIX Shell Programming, Stephen G. Kochan, Patrick H. Wood, Hayden.

       IEEE Standard for information Technology	-  Portable  Operating	System
       Interface  (POSIX)  - Part 2: Shell and Utilities, IEEE Inc, 1993, ISBN
       1-55937-255-9.

				August 19, 1996				KSH(1)
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